Anatomy Final Exam

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epithelial tissue characteristics.....

AVASCULARITY - No blood vessels SHEETS & LAYERS - sheets of cells - single or multiple layers thick Regeneration of surface cells via stem cells

Abdominal

Abdomen

What parts does the Abdominopelvic Cavity include ?

Abdominal Cavity & Pelvic Cavity

which of the following Cranial Nerves is paired with the INCORRECT function?: - Chapter 16 Quiz A) Oculomotor - Accommodation B) Hypoglossal - Tongue Movement C) Abducens - Blinking D) Trigeminal - Perception of Touch on the Forehead E) Facial - Taste Perception

Abducens Nerve - Blinking - the Abducens Nerve controls the Lateral rectus Muscle, which is responsible for outward gaze options with CORRECT functions - A) Oculomotor - Accommodation B) Hypoglossal - Tongue Movement C) Trigeminal - Perception of Touch on the Forehead D) Facial - Taste Perception

describe the components of Hearing: - Special Senses - Hearing & Equilibrium

- HEARING - detection of sound (pressure waves) - COCHLEA - "snail-shaped" spiral tube that contains Hair Cells -- MODIOLUS - center where the Cochlea Spiral coils around (site of innervation by the Cochlear Nerve) -- within the Modiolus are sensory neurons of spiral ganglion that are attached to the Cochlear Nerve -- Hair Cells are embedded in the Spiral Organ - Sound Waves are transferred from the Tympanic Membrane to the OVAL Window - each tube has THREE sections - A) Scala Vestibuli - transfers sound waves from the Oval Window to the tip of the Spiral B) COCHLEAR DUCT - houses the Spiral Organ (hair cells) C) Scala Tympani - transfers sound waves from the tip of the Spiral to the ROUND Window

describe the Hair Cells: - Special Senses - Hearing & Equilibrium

- Hair Cells - the Inner Ear's sensory cells -- cells responsible for hearing -- in BOTH the Auditory System and the Vestibular System - IONOTROPIC Activation - Kinocilium moves, then opens ion gates in the Stereocilia

describe the "Lock and Key" Model of Hormones:

- Hormone RECEPTOR Activation is based on the Substrate SHAPE - if a Substrate fits (SPECIFIC SHAPE), it will set off the Receptor - DIAGRAM - Chemical Messengers (substrates) TO Receptors TO Response - Lock and Key Model = "if it fits, it works"

describe the Pituitary Gland:

- Hypophysis - attached to the Hypothalamus, via the Infundibulum - the Hypothalamus communicates differently with the Anterior and Posterior Pituitary 1. Anterior Lobe - releases SEVEN Peptide Hormones 2. Posterior Lobe - releases TWO Peptide Hormones

Bones change shape in response to strain

- Increased muscular development during exercise - Inactivity of bones can cause degeneration - After a few weeks, unstressed bones can lose ~1/3 mass; shape & density

Calcitonin

- Inhibits osteoclasts - Decreases circulating Ca2+ by: - Increases Ca2+ loss in urine - Removing Ca2+ from blood & deposit as bone

describe the INNER Layer of the Eye: - Special Senses - Vision

- Inner Layer - RETINA -- Pigmented Layer = OUTER Layer -- Neural Layer = INNER Layer - Photoreceptors - A) Rods = LIGHT B) Cones = COLOR - Bipolar Cells - directly communicate with Photoreceptors - Horizontal Cells - modulate communication of Photoreceptors and Bipolar Cells - Amacrine Cells - modulate communication of Bipolar Cells and Ganglion Cells - Ganglion Cells - bundles of these axons form the Optic Nerve

Stratum Spinosum

- Keratinocytes - Melanocytes - Langerhans: trigger immune response

Stratum Granulosum

- Last layer where cells have ________ - Kerinocytes @ this level start making keratin & keratohyalin - callus formation

describe the Arachnoid Mater: - Spinal Meninges

- MIDDLE meningeal layer - separated from the Pia Mater by the Subarachnoid Space - CEREBROSPINAL Fluid flows within this space - Arachnoid Trabeculae extends from the Arachnoid to the OUTER layer of the Pia Mater

describe the Melanocyte-Stimulating Hormone: - produced by Corticotropes

- MOST ACTIVE in UTERO - also active in Young Children, Pregnant Women, and due to some diseases - targets Melanocytes and stimulates increases Melanin production in the Epidermis

describe the COMPONENTS of the Midbrain:

- Mesencephalon = Midbrain 1) Corpora Quadrigemina - two pairs of nuclei 2) Tectum Surface of the Midbrain - processing Auditory & Visual Stimuli - Inferior Colliculi - AUDITORY processing - Superior Colliculi - VISUAL processing 3) Walls and Floor of the Midbrain - consists of Nuclei of Reticular Formation - consists of a pair of nuclei - red nucleus and substantial nigra - involved in maintaining alertness, muscle tone, and limb position 4) Ventrolateral Surfaces - contain Cerebral Peduncles - attachment to the CEREBELLUM

Membranous Organelles

- Mitochondria - Nucleus - Endoplasmic Reticulum - Golgi apparatus - Lysosomes - Peroxisomes

Hair Color

- More melanin creates darker hair - Decreased production results in grey hair - influenced by : genetics/hormones/environmental factors White Hair: lack of melanin in hair shaft

Integumentary system functions

- Most visible & largest organ system - Protection from environment - Synthesize - Thermoregulation - Excretes some waste products - Lipid storage - Immune response - Sense stimuli: temperature, pressure, touch, & pain

Epithelial Maintenance & Renewal

- Must be replaced frequently due to exposure/use - disruptive enzymes - toxic chemicals - pathogens - mechanical abrasion - Replaced through time via continual division of stem cells near basal lamina

definition of Neurons:

- Nerve Cells responsible for the transferring and processing of information in the Nervous System - LOOSE ability to divide - the basic functional unit of the nervous system! -- a highly specialized cell

Blood Vessels

- Nutrient vessels: enter via nutrient foramen - Metaphyseal vessels - Epiphyseal vessels - Periosteal vessels

describe the FUNCTIONS of Interneurons:

- ONLY IN THE CNS! - situated between Motor Neurons and Sensory Neurons - FUNCTION - analyze Sensory INPUT and coordinate Motor OUTPUTS - can be Excitatory OR Inhibitory

Reproductive system

- Only w/o primary homeostatic role - Secondary sex characteristics

describe the Ovaries: - how hormones work in them

- Oocytes begin to develop within the Follicles - the Follicles and Oocytes mature, due to FSH - Follicular Cells produce Estrogens (mainly Estradiol) - mature eggs are ovulated, due to LH - after Ovulation, a follicle becomes a Corpus Luteum - preparation for pregnancy 1. PROGESTERONE - Endometrial Lining thickening - causes Mammary Tissue to prepare for Secretory Functions 2. RELAXIN - loosens the Pubic Symphysis - relaxes the Cervical Muscles - stimulates Mammary Gland development

describe Cortical Integration: - Special Senses - Vision

- Optic Chiasma - partial crossover of the OPTIC NERVES -- each hemisphere receives a LATERAL Retinal Signal from its own side and MEDIAL Retinal Signal from the opposite side 1. signals are relayed to the Cortex and Brainstem by the Lateral Geniculate Nuclei 2. info arrives at the Visual Cortex of the Occipital Lobes 3. visual association areas integrate images to develop a composite of the entire visual field ; BINOCULAR VISION

Muscles of the pectoral girdle (11)

- Originates on axial skeleton - Inserts on scapula and clavicle - Stabilizes the scapula and moves it - Classified as anterior or posterior thoracic muscles

Appositional growth

- Osteoblasts in periosteum add bone matrix to surface - Forming circumferential lamellae on outer surface - Osteons are formed - Osteoclasts break down layer below endosteum to enlarge medullary cavity

Both endosteum & periosteum have

- Osteoblasts: produces matrix - Osteoprogenitor cells: produce osteoblasts - Osteoclasts : break down matrix

describe the Eye Accessory Structures: - Special Senses - Vision

- Palpebrae (eyelids) - Tarsal Plate - connective tissue supporting the Palpebrae - Tarsal Glands - sebaceous glands that keeps the Palpebrae from sticking - Lacrimal Caruncle - sweat and sebaceous glands - Conjunctive - epithelial lining of the eyelid -- Palpebral Conjunctiva - INNER lining of the EYELIDS -- Bulbar Conjunctiva - ANTERIOR portion of the Eye

Plasma Membrane

- Phospholipid bilayer - selective permeability

The Digestive System

- Processes food & absorbs nutrients water absorption - water absorption - removes waste from blood & immune function (secondary role)

Functions of Hair

- Protection from UV light - Insulation - Guards entrance to nose & ears - When touched, hair sends signal via root hair plexus - Contraction of arrector pili muscles; goose bumps

The Integumentary System

- Protects against environmental hazards ; helps control temperature

Epidermis

- Protects dermis from trauma , chemicals - controls skin permeability and prevents water loss - prevents entry of pathogens - synthesizes vitamin D3 - sensory receptors detect touch, pressure, pain , and temp.

uterus provides?

- Provides protection for embryo - Provides nutritional support for embryo - Provides a means to remove waste produced by embryo

describe Receptive Fields:

- Receptive Fields - area monitored by a SINGLE Receptor Cell - localization of a stimulus by the CNS depends on the SIZE of the Receptive Field -- LOW Acuity - large receptive fields have receptors that are spread far apart and the example is Skin on the Back -- HIGH Acuity - small receptive fields that have receptors close together and examples are Lips & Palms of Hands

describe a Reflex AND the process it goes through in the Spinal Cord:

- Reflex - an immediate INVOLUNTARY motor response - Reflex Arc - -- neural "wiring" of a single reflex -- BEGINS at a Sensory Receptor and ENDS at a Peripheral Effector - PROCESS OF A REFLEX - 1. Stimulation & Activation of a Receptor - putting hand on a hot stove 2. Activation of a Sensory Neuron - through the Dorsal Root 3. Information Processing in the CNS - exits through the Ventral Root steps 2 and 3 - the actual Reflex Arc 4. Activation of a Motor Neuron 5. Response by the Effector - removing ur hand from the hot stove

describe a Reflex Arc with the Afferent / Efferent Pathways:

- Reflex Arc - autonomic pathway that mediates a response to a stimulus - PARTS of a Reflex Arc - -- Sensory Receptor, Afferent Neuron, Integrating Center, Efferent Neuron, and Effector Organ 1. SOMATIC REFLEX - ONLY Skeletal Muscle 2. VISCERAL REFLEX - Smooth Muscle, Cardiac Muscle, Glands, and Adipose Tissue AFFERENT PATHWAY: 1. Sensory Receptors A) sensory receptors in your hand activated by the Fire 2. Sensory Neurons / Afferent Neurons 3. Integrating Center A) Brain, Spinal Cord, or Ganglia EFFERENT PATHWAY: 1. Integrating Center A) Brain, Spinal Cord, or Ganglia 2. Efferent Neuron / Motor Nerve 3. Effector Organs A) arm muscles / muscles or glands 4. Withdrawal Reflex

The Nervous System

- Relays / processes info for homeostasis & senses

describe the PROCESS of Somatic Motor Commands & Visceral Motor Commands to the Spinal Cord:

- SOMATIC Motor Commands - 1. STARTS in the Somatic Motor Center in the Spinal Cord -- goes through the Ventral Root and the Spinal Nerve 2. EXITS AT / GOES TO A) Skeletal Muscles of the Body Wall and Limbs -- through the Ventral Ramus B) Skeletal Muscles of the Back -- through the Dorsal Ramus - VISCERAL Motor Commands - 1. STARTS in the Visceral Motor Center in the Spinal Cord -- goes through the Spinal Nerve and Ventral Root also 2. EXITS AT / GOES TO A) Pre-Ganglionic Fibers to Sympathetic Ganglia innervating the Abdomino-Pelvic Viscera -- Rami Communicantes - White Ramus / Pre-Ganglionic AND the Sympathetic Nerve 3. goes THROUGH the Sympathetic Ganglion AND goes to - A) Post-Ganglionic Fibers to Smooth Muscles, Glands, and Visceral Organs in the Thoracic Cavity - Sympathetic Nerve B) Post-Ganglionic Fibers to Smooth Muscles, Glands, and Visceral Organs -- through the Gray Ramus / Post-Ganglionic AND Ventral Ramus C) Post-Ganglionic Fibers to the Smooth Muscles and Glands of the Back -- through the Gray Ramus / Post-Ganglionic AND Dorsal Ramus

Glial Cells that are NOT found in the CNS: - Chapter 13 Quiz A) Oligodendrocytes B) Schwann Cells C) Ependymal Cells D) Microglia

- Schwann Cells - Glial Cells that ARE found in the Central Nervous System - A) Oligodendrocytes B) Ependymal Cells C) Microglia

describe the Vagus Nerves: - Cranial Nerves

- Sensory Functions - Information from Organs - Motor Functions - Sends Info to Organs - Sensory Origin - FROM Organs - Motor Origin - Medulla Oblongata - Sensory Neurons are in the Superior Ganglions AND the Inferior Ganglions

Membranes = Epithelia + Connective tissue

- Sheet of epithelial cells - An underlying connective tissue; mucous, serous, cutaneous , & synovial

describe the Olfactory Nerves: - Cranial Nerves

- Smell (sensory) - origin - Olfactory Epithelium - Olfactory Nerves enter bundles called Olfactory Bulbs - Axons proceed to destination, via Olfactory Tracts

describe the ORGANIZATION of Gray Matter:

- Somas are organized into groups called Nuclei - Sensory Nuclei - transmit sensory info - Motor Nuclei - transmit "orders" effectors - Gray Commissure 1. Dorsal / Posterior Horns - Somatic Sensory & Visceral Nuclei 2. Lateral / Intermediate Horns - Visceral Motor Nuclei 3. Ventral / Anterior Horns - Somatic Motor Nuclei

What is Anatomical Position ?

- Standing with feet flat on floor - Hands are at side - Palms are facing forward (anterior)

Estrogen & Testosterone

- Stimulate osteoblast activity causing growth spurts during puberty - Maintain bone density in adults

Parathyroid hormone (PTH)

- Stimulates osteoclasts & osteoblasts - Increases circulating Ca2+ by: -Increase Ca2+ absorption from small intestines - Reducing Ca2+ loss in urine

describe the PROCESS of a Stretch Reflex: - Spinal Reflex

- Stretch Reflex - Patellar and Postural Reflexes 1. Stimulus stretches a Muscle - a stimulus activates a receptor and the muscle spindle fibers are stretched 2. Activation of a Sensory Neuron 3. Information Processing in the Central Nervous System / Spinal Cord 4. Activation of Motor Neurons 5. Muscle (effector) contracts - response by the effector and the muscle contracts - the Reflex Arc starts at step two and ends at step four

Anatomy

- Study of external / internal structures - naming parts/ how they fit together - specific Anatomical structures have specific Physiological Functions

The Skeletal System

- Support & protection - Immunity , storage of Ca++, & feeding - forms blood cells

describe Synapses:

- Synapse - refers to the junction between a Neuron and another Cell / Tissue 1. Chemical Synapse (Vesicular) - ONE WAY MOVEMENT - uses Neurotransmitters -- example is Acetylcholine -- Motor End Plate of Skeletal Muscle 2. Electrical Synapse (Non-Vesicular) - ONLY in the CNS OR PNS - MOVE IN EITHER DIRECTION - between NEURONS - membranes are TIGHTLY bound - Action Potential travels from one to another, as Ions move

describe the Lacrimal Apparatus: - Special Senses - Vision

- TEARS are produced by Lacrimal Glands - TEARS - alkalime, watery secretions containing lysozymes and antibodies - Lacrimal Ducts empty at the Fornix of Conjunctiva and flow over the Ocular Surface - drain via Lacrimal Glands TO Superior & Inferior Lacrimal Punctae TO Lacrimal Canaliculi (tear ducts) TO Lacrimal Sac TO Nasolacrimal Duct

describe the Semicircular Canals: - Special Senses - Hearing & Equilibrium

- THREE Semicircular Canals -- Anterior, Posterior, & Lateral! - each Semicircular Canal encases a Semicircular Duct - at the BASE of each Semicircular Duct is an AMPULLA - Hair Cells are embedded in the Ampullary Crest - Ampullary Cupula - material that the hair cell cilia are embedded in - Endolymph Movement moves the Cupula --> MOVES CILIA

list the COMPONENTS of the Cerebellum:

- TWO hemispheres! (cerebellar hemispheres) - Folia Cerebelli - similar to the GYRI of the Cerebrum - anterior AND posterior lobes, separated by Primary Fissure - Vermis - narrow band of cortex that separates the hemispheres - Flocculonodular Lobes - balance EYE movement FUNCTIONS - - Proprioception / BALANCE - refining Skeletal Muscle Movements - LEARNED Reflexes

describe the functions of the Cerebrum:

- Telencephalon - conscious thought processes - intellectual functions and memory storage / processing - conscious regulation of skeletal muscle contractions (and subconscious) - SURFACES OF THE CEREBRUM - 1. Sulci - shallow grooves 2. Gyri - ridges 3. Fissures - deep grooves -- Longitudinal Fissure - separates the cerebral hemispheres

Stratum Lucidum

- Thick skin has Stratum lucidum - Stacks of dead cells - High amounts of keratin - Cells lack organelles & nuclei THIN SKIN LACKS STRATUM LUCIDUM

describe the Thyroid-Stimulating Hormone: - produced by Thyrotropes

- Thyroxine (T4) AND Triiodothyronine (T3) - targets the Thyroid Gland and stimulates the production of the Thyroid Hormones (T4, T3) FUNCTIONS - 1. Metabolic Rate 2. Body Temperature

The Cardiovascular System

- Transport of gasses & nutrients - Thermoregulation, pH balance, immune function, & endocrine function

describe the components of Motor Commands:

- Ventral Root! - Spinal Nerves from two branches - 1. Dorsal / Posterior Ramus 2. Ventral / Anterior Ramus - Spinal Nerves T1 to L2 have two additional branches - 1. White Ramus 2. Gray Ramus -- Rami Communicantes - white and gray rami are collectively JOINED - white & gray rami are associated with the Autonomic Ganglion of the Sympathetic Division -- Sympathetic Ganglia - deals with signals to AND from the Viscera

describe the Optic Nerves: - Cranial Nerves

- Vision (sensory) - Retina (origin) - Optic Nerves from the Retina cross at the Optic Chiasma - continue to their destination via Optic Tracts

list the components of the Middle Ear: - Special Senses - Hearing & Equilibrium

- air-filled tympanic cavity - Auditory OSSICLE - Malleus, Incus, and Stapes 1. Auditory Tube / Eustachian Tube - connection between the Tympanic Cavity and the Nasopharynx to equalize AIR PRESSURE 2. Muscles - tension on the Ossicles and Tympanic Membrane to protect against LOUD noises - Tensor Tympani / Stapedius 3. Malleus ("hammer") - attached to the Tympanic Membrane and the Incus 4. Incus ("anvil") - intermediate to the Malleus and the Stapes 5. Stapes ("stirrup") - intermediate to the Incus and the Oval Window of the Cochlea

The Muscular System

- allows for locomotion - provide support - produces heat - storage of amino acids

Spongy Bone characteristics

- arranged in parallel struts - Trabeculae: branching plates - Trabeculae form an open network - Large trabecular can have osteons - Reduces weight of bones, but keeps strength

ductus deferens in male reproductive system (vas deferens)

- before entering prostate gland, expands into ampulla - ampulla joins excretory duct of seminal gland to become ejaculatory duct - ejaculatory duct empties into prostatic urethra

describe the CERVICAL Plexus:

- composed of Ventral Rami of C1 - C4 - consists of Cutaneous AND Muscular Branches - Cutaneous Branches - innervates the Head, Neck, and Chest - Major Nerves of the Cervical Plexus - 1. Lesser Occipital Nerve 2. Greater Auricular Nerve 3. Transverse Cervical Nerve 4. Supraclavicular Nerve 5. Phrenic Nerve

Neural Tissue

- conducts electrical impulses - carries information

Rough Endoplasmic Reticulum

- consists of attached ribosomes - stores & synthesizes proteins - proteins moved via transport vesicles

describe the ORGANIZATION of White Matter:

- consists of columns of Axons (funiculi) - Anterior White Commissure 1. Dorsal White Column 2. Ventral White Column 3. Lateral White Column A) Sensory Tracts - Ascending Tracts B) Motor Tracts - Descending Tracts

describe the FIBROUS Layer of the Eye: - Special Senses - Vision

- consists of the Sclera and Cornea - provides Protection and Attachment Sites for Extra-Ocular Muscles - contains structures associated with Focusing (Cornea) -- Cornea - modified transparent Sclera and is Avascular -- the outer surface of the Cornea is covered by a thin, stratified squamous epithelium - the inner surface is covered by a simple squamous epithelium

describe the Adrenal Glands:

- consists of two structural regions! ADRENAL CORTEX (superficial) - 1. Zona Glomerulosa - Aldosterone production - reduces water and ion loss 2. Zona Fasciculata - Cortisol, Cortisone, and Corticosterone (stress hormones) 3. Zona Reticularis - limited production - Libido, Hair Growth, Muscle Growth, and Blood Cell Formation ADRENAL MEDULLA (deep) - - TWO types of Chromaffin Cells -- produces Epinephrine AND Norepinephrine

arteriole BP change via?

- construction/dilation of arterioles; afferent&efferent - renin = precursor for angiotensin; raises BP - erythropoietin = regulate density of RBC's

describe the COMPONENTS of the Pons:

- contains Sensory Nuclei AND Motor Nuclei of Cranial Nerves A) Vestibulocochlear B) Glossopharyngeal C) Vagus D) Accessory E) Hypoglossal - Reflex Centers - A) Cardiovascular Centers - Cardiac and Vasomotor B) Respiratory Rhythmicity Centers, Nuclei (rhythmic breathing) - Apneustic and Pneumotaxic Centers

Muscular Tissue

- contracts to produce movement - includes skeletal muscle, cardiac muscle, and smooth muscle

describe the Oculomotor Nerves: - Cranial Nerves

- controls Extra-Ocular Eye Muscles (NOT Superior Oblique or Lateral Rectus) AND Ciliary Muscles (motor) - Mesencephalon (origin) - Oculomotor Nerves have Autonomic Fibers that synapse in Ciliary Ganglion

describe the Abducens Nerves: - Cranial Nerves

- controls Lateral Rectus (motor) -- responsible for outward gaze - Pons (origin)

describe the Trochlear Nerves: - Cranial Nerves

- controls the Superior Oblique Eye Muscle (motor) - Mesencephalon (origin) - innervates only a single muscle - operates through the pulley-like trochlea

describe the FUNCTIONS of Sensory Neurons:

- convert external stimuli from the environment into internal electrical impulses - PNS TO CNS - Afferent 1. Somatic Sensory Neurons A) Exteroceptors - provide information about the environment B) Proprioceptors - monitor position and MOVEMENT 2. Visceral Sensory Neurons A) Interoceptors - monitor INTERNAL ORGAN ACTIVITY

describe the functions of the Cerebellum:

- coordinates Somatic Motor Function - adjusts output of Somatic Motor Centers, resulting in Smooth Operation - coordinates complex somatic motor patterns - adjust outputs of other somatic centers in the brain and the spinal cord

Epithelial Tissue

- covers exposed surfaces - lines internal passageways and chambers - produces granular secretions

Stratum Corneum

- dead cells - sebaceous & sweat glands maintain these cells

describe the STEROID Hormones:

- derived from CHOLESTEROL - PASSIVELY Diffuse into cells, due to their NON-POLAR structure DIAGRAM - - Cholesterol TO Pregnenolone TO Aldosterone & Cortisol AND Testosterone (an androgen) TO Estradiol (an estrogen)

describe the AMINE Hormones:

- derived from TYROSINE OR TRYPTOPHAN -- two amino acids! DIAGRAM - - Tyrosine TO Catecholamines (Dopamine, Norepinephrine, or Epinephrine) OR Iodothyronines (Thyroxine or Triidothyronine) - Tryptophan TO Melatonin

describe the PEPTIDE Hormones:

- derived from strings of AMINO ACIDS DIAGRAM EXAMPLES - - Gonadotropin-Releasing Hormone (GnRH) - Insulin

primordial follicle

- develop into primary ovarian follicles - divide to create multiple layers of granulose cells that surround primary oocyte

describe the Blood Brain Barrier (BBB):

- due to Astrocytes A) blood vessel endothelial lining is highly interconnected by tight junctions - ONLY LIPID-Soluble Material can pass freely from the blood to cells of the brain and cells of the spinal cord - WATER-Soluble Material can only pass via action of very specific transport mechanisms B) four major regions where the BBB is different - Hypothalamus - Capillaries in the Pineal Gland - Capillaries in the Choroid Plexus - Capillaries in the Posterior Lobe of the Pituitary Gland

describe the FOUR Nerve Plexuses:

- each nerve plexus is associated with an interwoven network of nerves -- plexus mean "to braid" -- different subdivisions of the spinal cord 1. Cervical Plexus 2. Brachial Plexus 3. Lumbar Plexus 4. Sacral Plexus

describe Receptor Sensitivity:

- each receptor has a characteristic sensitivity! -- leads to Receptor Specificity -- Specificity is due to the structure of a receptor and / or from the presence of accessory cells or structures - examples of Receptor Specificity - 1. Free Nerve Endings - simplest receptors! - respond to a variety of stimuli 2. Receptors of the Retina - very specific! - ONLY respond to light

describe the Thermoreceptors: - types of stimulus for the general senses

- exists as Free Nerve Endings - in the Dermis, Skeletal Muscles, Liver, and Hypothalamus - Cold Receptors are MORE numerous than Hot Receptors - Phasic Receptors (adapts rapidly to a stimulus) - IONOTROPIC - very active when temp changes, BUT quickly adapt to a stable temp

Connective Tissue

- fills internal spaces - provides structural support - stores energy

describe the Thyroid Hormones:

- follicles are line with T Thyrocytes -- contains COLLOID -- T Thyrocytes secrete Thyroglobulin and Iodine into Colloid, which forms Thyroxine (T4) and Triiodothyronine (T3) - C Thyrocytes - produce Calcitonin (CT) -- REDUCES plasma calcium levels

What do cells do ?

- form all body structures - preform all body functions - produced by division of preexisting cells

describe the Olfactory Sensory Neurons: - Special Senses - Smell

- form the Olfactory Nerve - Apical End contains multiple Cilia that project beyond the Epithelium and into the Nasal Cavity - the Cilia is covered by MUCUS from the Olfactory Glands - Receptor Cells are replaced REGULARLY by the Regenerative Basal Cells in the Olfactory Epithelium - Olfaction = Metabotropic!

list the components of the Thalamus:

- forms the WALLS of the Third Ventricle - Thalamic Nuclei are EGG-shaped Thalamic Nuclei: 1. Anterior Nuclei - part of the LIMBIC System 2. Medial Nuclei - relay info to the Frontal Lobe 3. Ventral Nuclei - relay info to the Parietal Lobes 4. Posterior Nuclei - relay info to the Occipital Lobe AND auditory & visual 5. Lateral Nuclei - adjust activity in Cingulate Gyrus and Parietal Lobe

describe the Vitreous Humor: - Special Senses - Vision

- gelatinous material in the Posterior Cavity - supports the Eye shape - supports the Lens position - supports the RETINA by pushing the Neural Layer against the Pigmented Layer - Aqueous Humor can flow across the Vitreous Humor and Retina!

describe the functions of the Pancreas:

- has BOTH Exocrine and Endocrine Functions 1. EXOCRINE Functions - produces Digestive Enzymes 2. ENDOCRINE Functions - produces Hormones - consists of Pancreatic Islets -- FOUR major cell types - Alpha, Beta, Delta, and F Cells

epididymis of male reproductive system?

- head = receives spermatozoa via efferent ducts - body = coiled tubes pass through body - tail = tubes begin to uncoil to become a single tube ductus deferens * recycling center for damaged or old spermatozoa

Cytosol contains

- higher concentration of K+ irons & lower concentration of Na+ ions compared to ECF - Intracellular negative charge , extracellular is positive - high concentration of protein - all quantity of carbohydrates - large reserve of amino acids & lipids

Intercellular connections functions

- holds cells together - prevents passage of chemicals, water, pathogens, gap junctions, CAMs, tight junctions, hemidesosom, & proteoglycans - also bind cells to basal

The Lymphatic System

- immune function & water balance - aids in absorption of nutrients - defense against infection & disease - returns tissue fluid to the bloodstream

Stratum basale

- in the deppest , Basel layer - attachment to base lamina - Contains epidermal basal ( stem ) cells,melamocytes, and Merkel cells Melanocytes Merkel cells: touch sensors Basal cells: become kerinocytes

Microvilli

- increase SA - chun ECF - microfilament support

urine storage reflex?

- increases sympathetic activity - stretch receptors in bladder signals sympathetic reflex - inhibit detrusor muscle - stimulates contraction of internal and external urethral sphincters

describe the POSTERIOR Pituitary Gland:

- innervated by Nerves from the Hypothalamus - Hormones released by Hypothalamic Neurons are called Neurohormones Posterior Pituitary Hormones - 1. ADH (antidiuretic hormone) - increases water Absorption by Nephrons - increases Blood Pressure AND Blood Volume 2. OXT (oxytocin) - Females - induces labor and milk - Males - prostate secretions during ejaculation

describe the Integrative Centers of the Cerebral Cortex:

- integrate complex sensory stimuli and motor responses! Some Interpretive Areas: 1. Broca's Area - speech center AND controls breathing patterns for speech 2. Prefrontal Cortex - predicting consequences of actions 3. Wernicke's Area - language comprehension AND analytical area 4. Receptive Speech Area - adjusts speech based on sound input 5. Frontal Eye Field - coordinates eye movements

describe the functions of the Spinal Cord:

- integrates and processes information - functions with the brain - can function as an Independent Integrating Center - growth STOPS at about age 4 - terminates at L1 or L2 at Conus Medullaris - Cauda Equina - extensions of the Dorsal & Ventral Roots that go TOWARDS the Lumbar & Sacral Segments - ENLARGEMENTS - Cervical & Lumbar -- expanded areas to control limbs

describe the BRACHIAL Plexus:

- larger AND more complex than the Cervical Plexus! - components go from large to small 1. Spinal Cord 2. Ventral Rami / Roots - go from C5 to T1 3. Trunks A) Superior B) Middle C) Inferior 4. Divisions A) Anterior B) Posterior 5. Cords A) Posterior B) Lateral C) Medial 6. Nerves - Major Nerves of the Brachial Plexus - 1. Axillary Nerve 2. Musculocutaneous Nerve 3. Radial Nerve 4. Ulnar Nerve 5. Median Nerve

describe the functions AND components of the Limbic System:

- located between the Cerebrum and the Diencephalon, and is Superior to the Corpus Callosum - establishes EMOTIONAL states - links Conscious Functions with Unconscious Autonomic Functions - facilitates MEMORY STORAGE and Retrieval 1. Limbic Lobe 2. Cingulate Gyrus 3. Dentate Gyrus 4. Parahippocampal Gyrus 5. Hippocampus

describe the Thymus Gland:

- most active in Young Children, and will recess in size after puberty - produces THYMOSIN -- mixture of several diff hormones -- targets LYMPHOCYTES, causing Maturation and Differentiation into T Cells

microtubules

- move organelles - churn - cell movement - essential for mitosis

describe the SACRAL Plexus:

- nerves are directly coming off of the Sacrum! - Nerve Roots of the Sacral Plexus - A) L5 B) S1 C) S2 D) S3 E) S4 F) S5 G) CO1 - Major Nerves of the Sacral Plexus - 1. Gluteal Nerves A) Superior B) Inferior 2. Pudendal Nerve 3. Sciatic Nerve A) Tibial Nerve B) Fibular Nerve -- branches of the sciatic nerve 4. Posterior Femoral Cutaneous Nerve

Hair follicles & Hair are found everywhere except

- palms - soles of feet - sides of fingers & toes - lips - Portional of genitalia (glans penis , clitoris, inner surface of labia major , labia minora)

what happens when there is an erection of the penis?

- parasympathetic nerves are activated - smooth muscles in arterial walls relax - arterial vessels dilate and vascular channels within erectile fill with blood

describe the Pineal Gland (Pineal Body):

- part of the Epithalamus - contains Neurons, Glial Cells, and Special Secretory Cells - Pinealocytes -- Pinealocytes produce Melatonin - MELATONIN -- slows the maturation of Sperm, Oocytes, and reproductive Organs -- helps to set the Circadian Rhythm (daily rhythms) -- production rate rises at night AND declines during the day

describe the Visual Pathway: - Special Senses - Vision

- path of photons! 1. light waves pass through the CORNEA 2. passes through the AQUEOUS HUMOR 3. passes through the Pupil 4. passes through the LENS 5. passes through the VITREOUS HUMOR 6. Lens focuses image on some part of the Retina 7. Depolarization of Photoreceptors 8. signal is transmitted to the Brain, via the Optic Nerve

describe the Higher-Order Functions:

- performed by the Cerebral Cortex 1. involves communication between the Cerebral Cortex areas and other areas of the brain 2. involves conscious AND unconscious information processing 3. functions are subject to modifications and adjustments

describe the functions of the Mesencephalon / Midbrain:

- processes Visual and Auditory data - maintains consciousness and alertness - involved with the Reflexive Somatic Motor Responses to stimuli - damage to the midbrain can result in memory loss, because it destroys the pathways

describe the Parathyroid Glands:

- produce Parathyroid Hormone (PTH) - PTH INCREASES blood calcium ion levels -- REDUCES urinary excretion of calcium ions -- stimulates kidneys to produce Calcitriol, which will increase the intestinal absorption of calcium ions -- stimulates Osteoclasts to remove calcium from bones

Melanin characteristics

- produced by melanocytes - synthesized & stored in melanosome - melanosome enter keratinocytes - Melanocyte density is stable, type & amount melanin under genetic control Moles : Overgrowth of melanocytes Albino : DN produce melanin

list the components of Tactile Receptors: - type of Mechanoreceptors

- provide Sensations of Touch, Pressure, and Vibrations (functions) 1. Fine Touch & Pressure Receptors - DETAILED info about Location, Shape, Size, and Texture of a Stimulus 2. Crude Touch & Pressure Receptors - provides GENERALIZED info about Stimulus Location - TWO Structural Classes - 1. Unencapsulated Tactile Receptors - dendrites without a connective tissue wrapping 2. Encapsulated Tactile Receptors - dendrites with a connective tissue wrapping

list the functions of the Nervous System:

- rapid communication within the body - control & adjusts activity of the body - provides swift, but BRIEF, responses to stimuli to maintain Homeostasis -- long term regulation is by the Endocrine System - acts as an INTEGRATION for Reflex Arcs: Somatic & Visceral - interpretation of "special" senses - Memory, Learning, Thought, Personality, Consciousness, Communication, and Emotion

describe the Spiral Organ: - Special Senses - Hearing & Equilibrium

- receptor organ for hearing! - rests on the Basilar Membrane between the Cochlear Duct and the Scala Tympani - Hair Cell Cilia is connected to the overlying TECTORIAL Membrane -- Basilar Membrane is attached to the lining of the Cochlear Duct -- sound waves moving through the SCALA TYMPANI cause the Vibration of the Basilar Membrane

describe the functions of the Pons:

- relays information to the Cerebellum and the Thalamus - regulates Somatic Motor Centers AND Visceral Motor Centers

describe the functions of the Medulla Oblongata:

- relays information to the Thalamus and the Brainstem - regulates Heart Rate, Blood Pressure, and Digestion - relay station at the base of the brain

Reticular layer

- restricts spread of pathogens penetrating epidermis - stores lipids - attaches skin to deeper tissues - sensory receptors detect touch, pressure, pain, vibration, and temp - blood vessels assist in thermoregulation

describe the Aqueous Humor: - Special Senses - Vision

- secreted by cells of the Ciliary Body - facilitates NUTRIENT / WASTE Transport and cushions the Cornea - enters the Posterior Cavity - flows through the Pupil area - enters the Anterior Chamber - drains through the Scleral Venous Sinus - enters into Venous Circulation

describe the Nociceptors: - types of stimulus for the general senses

- sensitive to Extreme Temp, Physical Damage, and Chemicals from Injured Cells -- a strong stimuli can set off all three 1. Fast Pain - "prickling pain" - sensations reach the CNS quickly - associated with deep cuts / similar injuries 2. Slow Pain - "burning pain" - sensations reach the CNS slowly - associated with the SAME injuries as Fast Pain, but with a delayed onset and they last longer 3. Referred Pain - painful sensation from Visceral Organs that is perceived as coming from another region - pain in the Heart, Lungs, and Pelvic & Abdominal Organs

describe the Mechanoreceptors: - types of stimulus for the general senses

- sensitive to STRETCH, Compression, Twisting, or the Distortion of the Cell Membrane - IONOTROPIC - Tactile Receptors, Baroreceptors, and Proprioceptors

describe the Vestibular Complex and Equilibrium: - Special Senses - Hearing & Equilibrium

- sensory neurons located in the Vestibular Ganglia - sensory fibers from the ganglia form the VESTIBULAR NERVE (branch of the Vestibulocochlear Nerve) - Motor Commands descend via the Vestibulospinal Tracts of the Spinal Cord Vestibular Nuclei - located between the PONS and the Medulla Oblongata - integrate sensory info from each side of the head - sends info to the Cerebellum, Cerebral Cortex, and Motor Nuclei within the Brainstem & Spinal Cord - Cranial Nerves involved are the Oculomotor, Trochlear, Abducens, and Accessory Nerves

describe Neuronal Pools: - and the TYPES of Neuronal Pools

- small, organized groups of Neurons - classified by their function or how they relay information 1. Divergence - information to multiple neurons from one neuron - Visual Information TO MULTIPLE BRAIN CENTERS 2. Convergence - input to one neuron from multiple sources - SKELETAL Muscle Control from Various Sources 3. Serial Processing - simple relay - pain perception 4. Parallel Processing - a single stimulus elicits different responses in different TYPES of effectors 5. Reverberation - Positive Feedback Loop continues until it is stopped by an Inhibitory Loop / Interneurons -- generating a cough, sneeze, etc. -- feeling like you have to sneeze until it stops

describe the Spinal Meninges:

- specialized membranes that provides Protection, Physical Stability, and Shock Absorption - continuous with Cranial Meninges - A) Dura Mater B) Arachnoid Mater C) Pia Mater

Function of testosterone in males

- stimulates spermatogenesis - primary sex organs increase in size and function - promotes sperm maturation - maintains accessory organs - develops secondary sex characteristics (facial hair, etc) - stimulates growth and metabolism - stimulates sexual behavior and sexual drive (libido)

describe the Baroreceptors: - type of Mechanoreceptors

- stretch receptors that monitor changes in shape of organs due to PRESSURE! - Locations - A) Stomach B) Small Intestine C) Urinary Bladder D) Carotid Artery E) Lungs F) Large Intestine

Golgi apparatus

- synthesis & packaging of secretions - Packing of enzymes for use in cytosol - Renewal & modification of cell membrane

Smooth Endoplasmic Reticulum

- synthesizes lipids , steroids, & carbohydrates - storage of Ca++ - Detoxification of toxins

describe the ANTERIOR Pituitary Gland:

- the Hypothalamus releases hormones into the Primary Plexus that will control the Anterior Lobe Tissues - FIVE CELL TYPES - Primary Plexus TO Portal Vessels TO Secondary Plexus - Hypothalamic - Pituitary Axis (diagram) FIVE TISSUE TYPES OF THE ANTERIOR PITUITARY GLAND - 1. Thyrotropes 2. Corticotropes 3. Gonadotropes 4. Lactotropes 5. Somatotropes

describe the components of motion of the Ultricle & Saccule: - Special Senses - Hearing & Equilibrium

- the Ultricle & Saccule have Maculae - Maculae use Otoliths - OTOLITHS - crystals above the Gelatinous Layer -- Otoliths have more INERTIA than Endolymph - ULTRICLE - Horizontal Motion - SACCULE - Vertical Motion - resistance to movement allows for the sensing of Velocity, Acceleration, and Gravity

describe the LUMBAR Plexus:

- the nerves are actually directly off of the Lumbar Plexus! - Nerve Roots of the Lumbar Plexus - A) T12 B) L1 C) L2 D) L3 E) L4 - Major Nerves of the Lumbar Plexus - 1. Iliohypogastric Nerve 2. Ilio-Inguinal Nerve 3. Genitofemoral Nerve A) Femoral Branch B) Genital Branch 4. Femoral Nerve 5. Obturator Nerve 6. Lateral Femoral Cutaneous Nerve

describe the Dura Mater: - Spinal Meninges

- tough, fibrous, and the OUTER layer of meninges - stabilizes the spinal cord within the vertebral canal - Cranial and Sacral Attachments STABILIZE the longitudinal axis of the spinal cord - Epidural Space - space BETWEEN the Dura Mater and Lining of Vertebral Bones -- where you're given an epidural - Coccygeal Ligament - Dura Mater BLENDS with the Film Terminale

list the Cerebral Lobes:

- two hemispheres are separated by a Longitudinal Fissure! 1. Frontal Lobe - conscious control of Skeletal Muscles 2. Occipital Lobe - perception of Visual Stimuli 3. Partietal Lobe - conscious perception of Touch, Pressure, Vibration, Pain, Temperature, AND Taste 4. Temporal Lobe - conscious perception of Auditory & Olfactory Stimuli - deep is Insula

describe the Chemoreceptors: - types of stimulus for the general senses

- typically METABOTROPIC! - detect small changes in the Concentration of Chemicals - respond to Water-Soluble or Lipid-Soluble Compounds - FOUND IN - A) RESPIRATORY Centers of the Medulla Oblongata B) Carotid Arteries (carotid bodies) C) Aortic Arch (aortic bodies)

Plasma composition

-92% water -7% plasma proteins -1% other solutes

Plasma Proteins

-Albumins -Globulins -Fibrinogen -Other regulatory proteins (proenzymes, hormone, enzymes)

Two semilunar valves

-Aortic valve -Pulmonary valve -PASSIVE

Control of capillary flow

-Arteriovenous anastomoses -Thoroughfare channels -Metarterioles

Blood Pressure at a specific point equation variables

-BF: Blood Flow; volume of blood flowing through a vessel (mL/min) -BP: Blood Pressure; force per unit area exerted on a vessel wall (mm Hg) -R: Resistance; opposition to flow, friction blood encounters

Cardiac output equation variables

-CO: Cardiac output; amount of blood heart pumps per unit time -SV: Stroke Volume; amount of blood heart pumps each beat -HR: Heart Rate; # of heart contractions per unit time

Spleen consists of

-Capsule -Red pulp -White pulp

Donor/recipient compatibility

-Cross-reaction -Agglutination -Hemolysis

Intercalated Discs

-Desmosomes -Gap Junctions -Functional syncytium

Whole body blood pressure equation variables

-MAP: Mean Arterial Pressure; mean blood pressure for several cardiac cycls (mm Hg) -TPR: Total Peripheral Resistance; opposition to flow, friction blood encounters; sum of resistance to flow from all blood vessels from aorta to vena cava -CO: Cardiac output

Cardiac Muscle

-Myogenic -Highly dependent on aerobic respiration -Very high amount of myoglobin & mitochondria -One nucleus per cell -Highly vascularized -Short t-tubules -Intercalated discs: gap junctions & fascia adherens -Branching Arrangement

Moderator band

-ONLY RIGHT VENTRICLE -Fights overexpansion of right ventricle -Will stimulate anterior papillary muscle & septal papillary muscle

Blood Composition

-Plasma (liquid matrix) -Buffy coat (thrombocytes/platelets; leukocytes/white blood cells) -Erythrocytes (red blood cells

How someone can be exposed to Rh antigens

-Pregnancy: Rh- mother, Rh+ fetus -Blood transfusion

Diastole

-Relaxation -Passive filling of chambers

Thrombocytes' role in blood clotting

-Release chemicals & enzymes to initiate clotting process -Clump together to form a platelet plug using fibrin -Contain actin & myosin that function to contract clot

estrogen functions?

-Stimulates bone & muscle growth - Maintains female secondary sex characteristics - Affects sex-related behaviors & drives - Maintains function of reproductive glands & organs - Initiates repair & growth of uterine lining

Vasculature makeup

-Systemic venous system: 64% -Pulmonary circuit: 9% -Heart: 7% -Systemic arterial system: 13% -Systemic capillaries: 7%

Two AV valves

-Tricuspid (right) valve -Bicuspid/Mitral (left) valve -ACTIVE

Heart Valves

-Two AV valves: atria to ventricle; prevent backflow into atria -Two semilunar valves: prevent backflow into ventricles

Medium-sized vein

-adventita is largest layer -contains elastic fibers & smooth muscle -one-way valves are present -found alongside muscular arteries -ex., radial vein / tibial vein / popliteal vein

Large vein

-adventita is thickest layer & contains some smooth muscle -intima & media are very thin -no valves -ex., Sup / Inf vena cava

If Hematocrit is low

-anemia -blood loss -micronutrient deficiency -chronic infection

Pericardial Cavity

-between epicardium (visceral) & parietal layer -Pericardial fluid reduces friction while heart pumps

Eosinophils

-bilobed nucleus -attack objects marked with antibodies -involved with allergies and/or parasites -secrete compounds that reduce inflammation

Type AB

-blood has RBCs with both A and B surface antigens -no anti antibodies - AB+ universal recipient

Type O

-blood has RBCs with no surface antigens -contains both anti-A and anti-B antibodies - O- universal donor

Type A

-blood has RBCs with surface antigen A only -contains anti-B antibodies, will attack B type surface antigens

Type B

-blood has RBCs with surface antigen B -contains anti-A antibodies, will attack A type surface antigens

Venous valves

-blood returning to heart from lower extremities fight gravity -many medium veins have valves -valves compartmentalize blood in veins

Lymphatic tissue & lymph nodes are high in concentrations where:

-body is more susceptible to injury or invasion -base of limbs; inguinal & axillary regions -large production of fluid or presence of fluid; mammary tissues & salivary glands

Functions of primary lymphatic structures

-cause differentiation of lymphocytes resulting in: T cells, B cells, & NK cells

Continuous capillaries

-complete endothelial lining -most common -single cell lined

Red pulp

-contains large quantities of RBCs & macrophages -macrophages ID & engulf damaged or infected RBCs

bacteria in the vagina

-contains normal population of bacteria that feed off cervical mucous - creates an acidic environment (reduces growth of many pathogenic organisms and reduces sperm mobility)

Types of Capillaries

-continuous -fenestrated -sinusoid

Systole

-contraction -forced movement

Lymphatic trunks

-convergence of deep & superficial -lumbar trunks -intestinal trunks -bronchomediastinal trunks -subclavian trunks -jugular trunks

If Hematocrit is high

-dehydration -polycythemia -lung/heart disease

Lymphopoiesis

-differentiation of lymphoid cells into lymphocytes -lymphoid stem cells will also travel to peripheral lymphatic tissue (thymus, spleen, lymph nodes)

Leukopoiesis

-differentiation of myeloid cells into leukocytes -Colony-stimulating factors (CSFs): hormones that stimulate leukocyte production

Types of Capillary exchange

-diffusion across endothelial cells -diffusion through gaps between adjacent endothelial cells -diffusion through pores -vesicular transport

Cardiac Skeleton

-each cardiac cell is wrapped in an elastic sheath -each muscle layer is wrapped in a sheet -Fibrous sheets also encircle base of pulmonary trunk, ascending aorta, & valves

Characteristics of arteries

-endothelial lining has pleated folds -thin elastic fibers in media -external elastic membrane surrounding media -internal elastic membrane surrounding intima

Characteristics of veins

-endothelial lining is smooth -many have one-way valves to prevent backflow

Erythropoiesis

-erythrocyte formation -in Red marrow -requires Vitamin B12, amino acids, & Fe -erythropoietin

Visceral Serous Pericardium

-exterior of heart -epicardium

Sinusoid capillaries

-flattened -incomplete endothelial lining -pores and large gaps -slow blood movement -diffusion of very large solutes

White pulp

-forms lymphoid nodules -can respond to antigens or pathogens in blood

Functions of secondary lymphatic structures

-front line defense -consist of lymphocytes & B cells

Blood types

-genetically determined -based on RBC surface antigens -antibodies produced against non-self antigens -donor/recipient compatibility

Erythropoietin (EPO)

-glycoprotein hormone secreted by kidneys & liver in response to low O2 -Hypoxia: low O2 -stimulates erythroblast & stem cell division rates -speeds up Hb formation

Coronary Veins

-great cardiac vein -middle cardiac vein

Granulocytes

-have cytoplasmic granules -neutrophils, eosinophils, basophils

Structure of a lymph node

-hilium: where vasculature/nerves enter/exit -capsule: multiple afferent vessels; one efferent vessel -subscapular space: many dendritic cells -outer cortex: includes germinal center / contains B cells -paracortex: contains T cells -medulla: contains B cells and macrophages

cardiac action controlled via

-hormones -neural control: visceral reflex arcs; autonomic -sympathetic -parasympathetic

Globulins

-immunoglobulins: antibodies -transport globulins: transport hormones, lipids, & ions

Fenestrated capillaries

-incomplete endothelial lining -rapid fluid & solute diffusion

Lymph

-interstitial fluid -lymphocytes -macrophages

Monocytes

-large cells; kidney-shaped nucleus -use chemotaxis -attracts fibroblasts to encase pathogen in collagen -produce scar tissue

Spleen

-largest lymphatic organ -attached to left side of stomach via gastroplenic ligament -visceral surface has hilium -stores Fe & RBCs -activates B cells & T cells -will destroy old/damaged RBCs

Elastic arteries

-largest of arteries (1 inch) -contain elastic membranes in media & intima -very resilient, tolerate pressure changes during cardiac cycle -recoil during diastole helps propel blood forward -ex., aorta / brachiocephalic trunk / pulmonary trunk

Thymus

-lies posterior to manubrium of sternum -consists of two thymic lobes (left & right) -consists of numerous lobules separated by septa -consists of cortex and medulla -epithelial reticular cells are scattered throughout thymus

Ventricles

-lower chambers -send blood out

Thoracic duct drains

-lymph inferior to diaphragm: Abdomen/Both legs -left side of body superior to diaphragm: arm/torso/neck/head -trunks: left & right lumbar trunks/intestinal trunks/left bronchomediastinal trunk/left subclavian trunk/left jugular trunk

Lymphatic capillaries VS vascular capillaries

-lymphatic capillaries are larger in diameter -lymphatic capillaries have capillaries have thinner walls -lymphatic capillaries have an irregular outline -lymphatic capillaries have anchoring filaments that connect to surrounding connective tissue to keep capillaries open -lymphatic capillaries have greater permeability (endothelial cells overlap)

Larger lymphatic vessels VS veins

-lymphatic vessels have thinner walls & larger lumens -lymphatic vessels do not have easily identifiable tunica -larger lymphatic vessels have valves just like most veins -pressure in lymphatic vessels is lower than veins -skeletal muscle contraction helps propel lymph -inhalation decreases thoracic pressure, which helps to move lymph toward venous system (subclavians)

Lymphatic nodule characteristics

-lymphocytes aggregated within a supporting framework of reticular fibers -nodules have a germinal center, which contains lymphocytes -no capsule

Muscular arteries

-medium-sized arteries (pencil) -thicker media than elastic arteries -vessel diameter under control of autonomic nervous system and hormones -ex., external carotid/ brachial / femoral / mesenteric

Capillary beds

-mesh of capillaries; connecting arterioles with venules -capillaries -arteriovenous anastomoses -thoroughfare channels -metarterioles

Compare/contrast arteries & veins: arteries

-most arteries & veins run parallel -walls of arteries thicker than walls of veins -arteries have more smooth muscle than veins -arteries maintain their circular shape & veins typically collapse when cut

Neutrophils

-multilobed nucleus -granules are vacuoles with lysosomal enzymes & bactericidal compounds -phagocytotic -short lived; will secrete chemotaxic chemicals upon death

Papillary muscles

-one per cusp - contract to prevent AV valve inversion; contract prior to ventricular contraction

Parietal Serous Pericardium

-outer layer of pericardial cavity -fused to fibrous pericardium

Blood Transports

-oxygen -carbon dioxide -Nutrients -metabolic wastes -Enzymes -Hormones -leukocytes & antibodies -toxins for neutralization or excretion

Blood Regulates

-pH of interstitial fluid -ions of interstitial fluid

Lymphatic vessels

-pass through lymphatic tissue & organs -deliver lymph to venous circulation

Lymphatic tissues & organs

-primary lymphatic structures -secondary lymphatic structures

Functions of lymphatic system

-produce, maintain, and distribute lymphocytes -provide alternate transport route for hormones, nutrients, waste products -maintain normal blood volume & composition of interstitial fluid

Other functions of blood

-reduce/stop body fluid loss from injury; clotting -aid in temperature regulation

Acetylcholine

-reduces CO

Maintaining Normal Blood Volume & Composition of Interstitial Fluid

-relatively low capillary pressure forces solutes & water out of plasma into interstitial fluid area -some interstitial fluid & solutes enters lymphatic system -lymphatic system eventually returns fluid & solutes to venous system

Four chambers of the heart

-right atrium -right ventricle -left atrium -left ventricle

Right lymphatic drains

-right side of body superior to diaphragm: arm/torso/neck/head -trunks: right bronchomediastinal trunk/right subclavian trunk/right jugular trunk

Lymphocytes

-round nucleus; responsible for specific immunity -primary cells of lymphatic system -differentiate into T cells, B cells, and NK cells

epithelial reticular cells

-scattered throughout thymus -produce thymic hormones such as thymosin

Baroreceptors

-sense blood pressure -Carotid & Aortic

Lymphatic Organ

-separated from surrounding tissue by a fibrous capsule -includes: lymph nodes, thymus gland, spleen, red marrow (not in a fibrous capsule)

Venous return

-skeletal muscles of legs help propel blood -one-way flow is aided by venous valves -changes in thoracic pressure helps to move blood through venae cavae

Where does the heart lie?

-slightly left of midsagittal plane -in mediastinum

Lymphatic capillaries

-small lymphatic vessels -only found in places with vasculature -lacteals are specialized capillaries in SI

Arteriole

-smallest arteries (microscopic, 30 microns (hair is 100 microns)) -very thin adventita -media may have incomplete smooth muscle layers -control blood flow between arteries & capillaries -still has limited vasocontriction/dilation

Characteristics of capillaries

-smallest of all vessels (8 microns (size of one RBC)) -most delicate; lack adventita & media -only vessels where material exchange occurs between blood & tissues/interstitial fluid

Venule

-smallest of veins -collect blood from capillaries -lack or have thin tunica media -very small amount of smooth muscle or none

Functions of cardiac skeleton

-stabilizes position of cardiac cells -stabilizes position of valves -provides blood vessels & nerves in myocardium -distribute forces of contraction -prevent overexpansion -provides elasticity so heart recoils after contraction -isolates atrial cells from ventricular cells

Cortex

-stem cells that differentiate to form T cells -mature T cells migrate to medulla

Superficial Lymphatics

-subcutaneous layer -mucous lining of digestive, respiratory, urinary, & reproductive tracts -serous lining ofpleural, pericardial, & peritoneal cavities

Primary lymphatic structures

-thymus -red bone marrow

Secondary lymphatic structures

-tonsils -lymph nodes -spleen -mucosa-associated lymphoid tissue (MALT)

Atria

-upper chambers -receive blood

Compare/contrast arteries & veins: veins

-veins more distensible than arteries -based on blood pressure, a vein can expand about 8x as much as a parallel artery -veins are capacitance vessels (act as blood reservoirs; venoconstriction of veins shifts blood toward arterial side of circulation)

Types of Veins

-venules -medium-sized veins -large veins

Basophils

-very high density of granules -Histamine: dilate blood vessels to enable diapedesis -Heparin: prevents blood clots

pH of acids

0-6

Adrenal gland

1

Central Sulcus

1

Thalamus

1

afferent arteriole

1

ampulla

1

distal convoluted tubule

1

frontal lobe

1

juxtaglomerular cells

1

renal capsule

1

urinary bladder

1

uterine tube

1

Cornea

1 L and R

% of circulating erythrocytes that are replaced daily

1%

1) ___ Neurons do NOT have clearly differentiated axons and dendrites 2) ____ are Glial Cells that protect neurons from pathogens, via Phagocytosis - Chapter 13 Quiz

1) Anaxonic Neurons 2) Microglia

1) ___ are bundles of axons within the PNS 2) ___ potentials are a change in a cell's membrane potential that can be inhibitory OR excitatory - Chapter 13 Quiz

1) Nerves 2) Graded

1) the ___ division of the Autonomic Nervous System is often referred to as the "rest and digest" axis 2) the __ Nervous System controls the Gastrointestinal System - Chapter 13 Quiz

1) Parasympathetic 2) Enteric

1) ____ Circuits are where neurons work sequentially to transmit information 2) Myelination allows for ____ signal transmission speeds - Chapter 13 Quiz

1) Serial Processing Circuits 2) faster

Inhalation vs. Exhalation

1) inhalation (inspiration)= active; occurs when diaphragm contracts-> moving down to expand the chest cavity-> rib cage moves up and out 2) exhalation (expiration)= passive; occurs when diaphragm relaxes to become dome-shaped decreasing space-> rib cage moves down and in

list the FUNCTIONS of the Hypothalamus:

1) subconscious control of Skeletal Muscles (somatic reflexes) 2) Heart Rate, Blood Pressure, Respiration, and Digestive functions 3) secretion of Antidiuretic Hormone (via Supraoptic Nucleus) and OXYTOCIN (via Paraventricular Nucleus) 4) coordination between Voluntary & Autonomic functions 5) BODY TEMP (via Pre-Optic Area) 6) CARDIAC RHYTHM (via Suprachiasmatic Nucleus) 7) Swallowing, Licking, and Feeding Reflexes (via Mammillary Bodies)

1) within the CNS, ___ matter is mostly made up of myelinated axons 2) within the CNS, ___ form an axon's myelination - Chapter 13 Quiz

1) white 2) oligodendrocytes

The stomach has a pH of

1-2

list the components of the External Ear: - Special Senses - Hearing & Equilibrium

1. AURICLE 2. External Acoustic Meatus - Ceruminous Glands produce a waxy cerumen (earwax) that is antimicrobial - small, projecting hairs impede insects and small objects 3. TYMPANIC Membrane (tympanum) - separates the External Ear from the Middle Ear

____ reflexes, such as catching a ball, involves the coordinated movement of skeletal muscles, which are categorized as _____ - Chapter 14 Quiz

1. Acquired 2. Somatic

describe the structural classification of Neurons:

1. Anaxonic Neuron - ONLY in the CNS and Special Sensory Organs - many processes can NOT differentiate between Axons & Dendrites 2. Bipolar Neuron - have TWO process separated by the Cell Body - process Sight, Smell, and Hearing - axons are NOT myelinated 3. Pseudounipolar Neuron - Sensory Peripheral Nervous System - MAY have myelin - cell body is off to one side of the axon 4. Multipolar Neuron - SKELETAL Muscle Motor Neuron - typically has a single axon and multiple dendrites - MOST COMMON TYPE IN THE CNS!

list the Central White Matter Bundles:

1. Association Fibers - tracts that interconnect areas of the Neural Cortex within a hemisphere (Arcuate Fibers and Longitudinal Fasciculi) 2. Commissural Fibers - tracts that connect between hemispheres (Anterior Commissure and Corpus Callosum) 3. Projection Fibers - tracts that link the Cerebrum with other regions of the Brain & Spinal Cord 4. Internal Capsule - tracts of Afferent & Efferent Fibers

describe the types of Neuroglia IN the Central Nervous System:

1. Astrocytes - LARGEST & MOST NUMEROUS - make up the Blood Brain Barrier / BBB - forms Scar Tissue - RECYCLES Neurotransmitters 2. Oligodendrocytes - forms the Myelin Sheath / Internodes - forms Myelin Sheath Gaps 3. Microglia - PHAGOCYTIC Cells 4. Ependymal Cells - involved in Cerebrospinal Fluid / CSF PRODUCTION & monitoring

list what hormones the HEART produces:

1. Atrial Natriuretic Peptide - Peptide Hormone - ANP 2. Brain Natriuretic Peptide - Peptide Hormone - BNP - both oppose the activity of Angiotensin II AND ADH, AND reduces Blood Pressure & Blood Volume

describe the Olfactory Pathways: - Special Senses - Smell

1. Axons of the Olfactory Receptors LEAVE the Olfactory Epithelium through the Foramina, and synapse on neurons in the Olfactory Bulb 2. Impulses travel from Bulb TO Brain, via the Olfactory Tract 3. Impulses arrive at the Cerebral Cortex, Hypothalamus, and LIMBIC System COMPONENTS OF THE PATHWAY: 1. Olfactory Epithelium 2. Olfactory Nerve Fibers 3. Olfactory Bulb 4. Olfactory Tract 5. Central Nervous System

1. the ________ cells of the pancreas secrete insulin 2. the Zona _________ of the adrenal cortex produces aldosterone - Chapter 19 Quiz

1. Beta 2. Glomerulsa

list the components of the Internal Ear: - Special Senses - Hearing & Equilibrium

1. Bony Labyrinth - BONY casing of the Inner Ear A) Vestibular Complex - Semicircular Canals - Vestibule - Utricle - Saccule B) Cochlea - Round Window & Oval Window 2. Membranous Labyrinth - located within the Bony Labyrinth - made of HAIR Cells, Supporting Cells, and Endolymph 3. Perilymph - separates the Bony Labyrinth and the Membranous Labyrinth

1. the ____ is the speech center that also controls the breathing patterns needed for speech 2. the ____ predicts the consequences of actions - Chapter 16 Quiz

1. Broca's Area 2. Prefrontal Cortex

parts of large intestine

1. Cecum 2. Colon 3. Rectum

list the major components of the Brain:

1. Cerebrum 2. Diencephalon A) Thalamus B) Hypothalamus 3. Mesencephalon / Midbrain 4. Pons 5. Medulla Oblongata 6. Cerebellum

describe the VASCULAR Layer of the Eye: - Special Senses - Vision

1. Choroid - HIGHLY VASCULARIZED 2. Ciliary Body - Ora Serrata - posterior edge - Ciliary Bodies consist of Ciliary Muscles / Smooth Muscles and an overlying epithelium - Ciliary Processes connect to the Lens, via Suspensory Ligaments - Accommodation - contraction or relaxation of the Ciliary Muscle that changes the shape of the Lens (focusing) 3. Lens - Avascular ringed arrangement of Elongated Cells and Connective Tissue - Accommodation in the Lens! 4. Iris - consists of Blood Vessels, Pigment, and Smooth Muscle - Pigment variation determines the color of the iris! - TWO layers of Smooth Muscles contract to change the Pupil diameter - A) Sphincter Pupillae - contraction REDUCES the diameter of the Pupil B) Dilator Pupillae - contraction

cerebrospinal fluid is generated by the ____, and renters circulation via the _____ - Chapter 16 Quiz

1. Choroid Plexus 2. Arachnoid Granulations

How the body regulates pH

1. Controlling CO2 2. Directly controlling concentration of hydrogen ions 3. Directly controlling concentration of bicarbonate ions

describe the surfaces of the Brain:

1. Cortex - in the Cerebrum and the Cerebellum - superficial gray matter - OUTER region of the Brain 2. Nuclei - clusters of Gray Matter - made of spherical, oval, or irregular neuronal cell bodies - also - hollow regions of the brain -- allow for the production and flow of cerebrospinal fluid

Different types of T cells

1. Cytotoxic T cells: attack foreign cells & viruses 2. Helper T cells: stimulate T & B cells; antibody protection 3. Regulatory T cells: moderate immune response 4. Memory T cells: activated upon subsequent antigen exposure

describe the components of Neurons:

1. Dendrites - stimulated by environmental changes or the activities of other cells - respond to SPECIFIC stimuli in the extracellular environment 2. Cell Body - contains the Nucleus, Mitochondria, Ribosomes, and other organelles and inclusions 3. Axon - conducts nerve impulses (action potential) TO Axon Terminals - long, slender cytoplasmic process 4. Axon Terminal - affects another Neuron or Effector Organ (muscle or gland) - RECEIVES impulses from the Axon 5. Gray Matter - nervous tissue dominated by Neuron Cell Bodies

events of an Action Potential in the CORRECT order: - Chapter 13 Quiz

1. Dendrites RECEIVE stimuli, and if the stimulus is excitatory and reaches threshold it will elicit an Action Potential 2. the Action Potential reaches the Axon Hillock and begins Axonal Propagation 3. the Action Potential propagates along the Myelinated Axon, resulting in Saltatory Conduction 4. the Action Potential causes the Axon Terminals to secrete Neurotransmitters into the Synaptic Cleft

Actions of leukocytes

1. Diapedesis 2. Chemotaxis

1. the ____ lines the cavity in the sphenoid bone where the pituitary gland is found 2. the ___ colliculi is involved with processing auditory information - Chapter 16 Quiz

1. Diaphragma Sellae 2. Inferior

regions of small intestine w/ diagram

1. Duodenum 2. Jejunum 3. Ileum

1. the ____ System produces long-term, general responses that may have multiple target cells 2. the ___ Pituitary Gland is controlled by hormonal signals from the Hypothalamus - Chapter 19 Quiz

1. Endocrine 2. Posterior

1. the ___ is the layer of connective tissue that surrounds each axon 2. each spinal segment corresponds to a pair of ___ - Chapter 14 Quiz

1. Endoneurium 2. Spinal Nerves

describe the COMPONENTS of the Diencephalon:

1. Epithalamus - contains the Pineal Gland - produces MELATONIN 2. Thalamus - left / right are connected via an Interthalamic Adhesion 3. Hypothalamus - extends from the area superior to the Optic Chiasm to the Mammillary Bodies - extending from the Hypothalamus is the Infundibulum connecting to the Pituitary Gland

list the components of the Eye: - Special Senses - Vision

1. Fibrous Layer 2. Vascular Layer 3. Inner Layer 1. Anterior Cavity - Aqueous Humor - Anterior & Posterior Chambers 2. Posterior Cavity - Viterous Humor 3. Posterior Orbital Fat Pad - padding and insulation -- fat behind the eyes

describe the TYPES of Tactile Receptors: - type of Mechanoreceptors

1. Free Nerve Endings - common in the Dermis - SENSITIVE TO LIGHT CONTACT - Unencapsulated! 2. Hair Root Plexus - associated with Hair Follicles - monitors distortions and movements of hairs on the body surface - Unencapsulated! 3. Lamellar Corpuscle - consists of Concentric Cellular Layers - sensitive to Deep Pressure and High-Frequency Vibrations - Encapsulated! 4. Tactile Discs & Merkel Cells - Free Nerve Endings synapse with Merkel Cells in the Epidermis - Merkel Cells - TONIC, high acuity and very sensitive - sensitive to Light Contact with Skin - Unencapsulated! 5. Bulbous Corpuscle / Ruffini Corpuscle - associated with Collagen in the Dermis - sensitive to Stretching and Distortion of the DERMIS - Encapsulated! 6. Tactile Corpuscle - common on Eyelids, Lips, Fingertips, Nipples, and External Genitalia - sensitive to Contact and Low-Frequency Vibration - Encapsulated!

describe the products of the Cells of Pancreatic Islets:

1. GLUCAGON (from Alpha Cells) - stimulates the Liver to break down Glycogen to form Glucose - raises blood glucose levels 2. INSULIN (from Beta Cells) - increases the rate of Glucose absorption by body cells - lowers blood glucose levels 3. SOMATOSTATIN (from Delta Cells) - inhibits Glucagon and Insulin - slows food absorption rates 4. PANCREATIC POLYPEPTIDE (PP - from F Cells) - inhibits Gallbladder contractions - regulates the production of Pancreatic Enzymes

describe the TWO types of Matter in the CNS:

1. GRAY MATTER - in Neurons - devoid of Myelinated Axons - also composed of Cell Bodies & Dendrites 2. WHITE MATTER - in Neuroglias - MOSTLY Myelinated Axons

1. ____ increases plasma glucose levels 2. ____ increases plasma calcium ion concentration - Chapter 19 Quiz

1. Glucagon 2. Parathyroid Hormone

Growth & Replacement of Hair

Active stage 2-5 yrs - Hair grows about 0.33 mm per day Resting stage - Hair loses its attachment to follicle - Hair becomes a club hair Club hair is lost & a replacement hair is produced Pattern baldness; ∆s in sex hormones

afferent vs efferent neurons (9)

Afferent = sensory Efferent = motor

What is residual volume?

Air in lungs after maximal expiration. Cannot be measured on spirometry

Gap juntions

Allow for transfer of ions & APs

What is inspiratory reserve volume?

Amount of air that can be forcefully inhaled after a normal tidal volume inhalation

The human body is predominately made up of which elements: A. Hydrogen, Calcium, Nitrogen, Oxygen B. Hydrogen, Carbon, Nitrogen, Oxygen C. Phosphorus, Carbon, Nitrogen, Oxygen D. Hydrogen, Chloride, Nitrogen, Oxygen

B. Hydrogen, Carbon, Nitrogen , Oxygen

Which of the following is NOT an anatomical synapomorphy for all vertebrates: A. Braincase B. Limbs C. Dorsal hollow nerve cord D. Pharyngeal arches

B. Limbs

________ are neural cells that can divide. _______ muscle can grow and/or repair itself due to its ability to undergo hyperplasia. A. Neurons; Skeletal B. Neuroglia; Smooth C. Neurons; Smooth D. Neuroglia; Skeletal

B. Neuroglia; Smooth

Products synthesized by the endoplasmic reticulum are delivered to the Golgi apparatus by: A. Bulk transport B. Transport vesicles C. Ribosomes D. Cisternae E. Microfilaments

B. Transport vesicles

number of primordial follicles is set when?

BEFORE birth

Blood Pressure at a specific point equation

BP = R x BF

describe the functions of the Brain AND the Cranial Nerves:

BRAIN - - integrates and processes BOTH Simple Information & Complex Information - most SIMPLE Immediate Responses are by the Spinal Cord - Adaptable Responses, a bit slower, happen in the Brain 12 CRANIAL NERVES - - connected directly to the brain & bypass the spinal cord - FOUR General Functional Types - 1. Sensory Cranial Nerves 2. Special sensory Cranial Nerves 3. Motor Cranial Nerves 4. Mixed Cranial Nerves -- mix of Sensory AND Motor

Inferior

Below; at a lower level , towards the feet

describe the CONNECTIONS within the Cerebellum:

- Cerebellar Cortex & Nuclei - subconscious coordination of movements - ARBOR VITAE - connects the Cerebellar Cortex with the Cerebellar Peduncles - Superior Peduncle - connects the Cerebellum with the Mesencephalon, Diencephalon, AND Cerebrum - Middle Peduncle - communicates with the Cerebellum and Pons - Inferior Peduncle - connects the Cerebellum with the Medulla Oblongata

The Endocrine System

- Chronic Homeostasis - allows for reproduction

describe the Hypoglossal Nerves: - Cranial Nerves

- Controls Tongue Movement (motor) - Speech - Medulla Oblongata (origin)

Nerve fibers

- Controls blood flow to skin - Adjusts gland secretion rates - Monitors sensory receptors

describe the Adrenocorticotropic Hormone: - produced by Corticotropes

- Cortisol, Cortisone, and Corticosterone (Glucocorticoids) - targets the Adrenal Cortex of the Adrenal Gland and stimulates Glucocorticoid secretion FUNCTIONS - 1. releases Glucose 2. reduces Inflammation

Nonmembranous Organelles

- Cytoskeleton - Microvilli - Centrioles - Cillia - Flagella - Ribosomes

describe the Pia Mater: - Spinal Meninges

- DEEPEST meningeal layer - BLOOD VESSELS are found in this layer - firmly bound to the Brain Tissue and the Spinal Cord Tissue - Denticulate Ligaments - extensions of Pia Mater that attach the Pia Mater and Arachnoid Mater TO the Dura Mater

Dermis

- Dense irregular connective tissue - Hair follicles - Sweat glands - Sebaceous glands - Loose connective tissue - Dermal papillae - Capillaries - Axons of neurons - Attachment to Epidermis

describe the components of Sensory Information:

- Dorsal Root! - Dermatomes - regions of the skin supplied by SPECIFIC spinal nerves - SOMATIC Sensations - 1. from Exteroceptors A) Proprioceptors of the Body Wall / Limbs -- Ventral Ramus B) Proprioceptors of the Back -- Dorsal Ramus 2. Somatic Sensory in the Spinal Cord - VISCERAL Sensations - 1. from Interceptors A) of the Visceral Organs -- Rami Communicantes B) of the Body Wall / Limbs -- Ventral Ramus C) of the Back -- Doral Ramus 2. Visceral Sensory in the Spinal Cord

Vertebrate Synapomorphies

- Dorsal hollow nerve cord - Notochord - Post-anal tail - Pharyngeal arches - Braincase

Types of strain

- Elastic deformation: energy input is fully released; no change in bone shape - Plastic deformation: not all energy is released; change in bone shape - Fracture: no energy released, bone breaks

Functions of connective tissue

- Establishing body's structural framework - Transport fluid & dissolved materials - Protect organs - Support, surround, & connect other tissues - Store - Defend body from microorganisms

describe the Membrane Potential of Interneurons:

- Excitable Cells - if STIMULATED, it will cause a change in the membrane potential - Graded Potentials - changes in membrane potential that can lead to threshold and generate action potential - INHIBITORY Hyperpolarizing Current is 1-3 on the Stimulating Current Pulses - EXCITATORY Depolarizing Current is 4-8 on the Stimulating Current Pulses - DIAGRAM - - Membrane Potential (mV) - X Axis - Time (ms) - Y Axis - Stimulating Current Pulses (1 to 8) - at the top of the chart - Voltage Threshold - under the Current Pulses -- HIGH Voltage Threshold (40+) for 6-8 / Excitatory Depolarizing Current

Nervous & lymphatic

- Extensive system throughout periosteum - Nerves also enter via nutrient foramen

of the following nerves, which are associated with the Taste Buds on the Tongue?: - Chapter 18 Quiz A) Facial Nerve B) Vagus Nerve C) Trigeminal Nerve D) Glossopharyngeal Nerve E) Hypoglossal Nerve

- Facial Nerve - Vagus Nerve - Glossopharyngeal Nerve

The Urinary System

- Filters blood of excess waste, salts ions & solutes - pH & water. balance - Endocrine function

describe the Nerve Fibers: - in the Hippocampus, Hypothalamus, and Thalamus

- Fornix - tract of White Matter that connects the Hippocampus to the Hypothalamus -- many Fornix Fibers extend to Mammillary Bodies - Mammillary Bodies - controls reflex movements that are associated with eating - OTHER Nuclei in the Thalamus and the Hypothalamus - A) Anterior Nucleus - visceral info from the Hypothalamus to Cingulate Gyrus B) Reticular Formation - alertness and excitement

Eccrine glands

- Found all over body - High concentrations on palms & soles - Sweat - - thermoregulation - - Some waste excretion Salts N waste Some metabolites - Antimicrobial activity Eccrine secretion

describe the types of Neuroglia in the Peripheral Nervous System:

- Ganglia - clusters of cell bodies in the PNS - Axons are bundled together to form Peripheral Nerves 1. Satellite Cells - surround Cell Bodies - can insulate neurons from each other 2. Schwann Cells - surround the Axons with Myelin - increases Axon Propagation Speed

The Respiratory System

- Gas Exchange & pH balance - Water Balance -delivers air to sites where gas exchange can occur between the air and circulating blood - produces sound

describe Gustation: - Special Senses - Taste

- Gustation provides info about the foods and lipids consumed! - Gustatory Receptors are found in PAPILLAE on the Dorsal Surface of the Tongue - Lingual Papillae - A) Filiform B) Fungiform C) Foliate D) Vallate -- papillae contain taste buds -- taste buds contain gustatory receptors - FIVE Classes of Tastes - A) Salty B) Sweet C) Sour D) Bitter E) Umami ("savory") - Water is sensed in the PHARYNX -- "unpleasant stimuli" = low threshold -- "pleasant stimuli" = high threshold

list what hormones the KIDNEYS produce:

1. RENIN (enzyme) - converts Angiotensinogen TO Angiotensin I - conversion of Angiotensin I TO Angiotensin II in the Lungs -- Angiotensin II stimulates the release of Aldosterone / Vasoconstriction 2. Erythropoietin (Peptide Hormone, EPO) - stimulates Red Blood Cell production in Red Marrow 3. CALCITRIOL (Steroid Hormone) - increases Calcium absorption - made from Vitamin D

All trunks drain into one of two ducts

1. Right lymphatic duct 2. Thoracic duct

Four parts of each AV valve

1. Ring of connective tissue 2. Cusps 3. Chordae tendineae 4. Papillary muscles

describe the types of Special Senses:

1. Smell (olfaction) 2. Taste (gustation) 3. Balance & Acceleration 4. Hearing 5. Vision - receptors are located in Complex Sense Organs - interpreted mainly by the BRAIN

describe the NUCLEI in the Medulla Oblongata:

1. Solitary Nucleus - receives Visceral Sensations from the Spinal Nerves and the Cranial Nerves 2. Gracile Nucleus & Cuneate Nucleus - pass SOMATIC Sensory Information to the Thalamus 3. Olivary Nucleus - pass information from the Cerebrum, Spinal Cord, Diencephalon, and Brainstem TO the Cerebellum - Olivary Nuclei form "olives" -- bulges on the medulla oblongata

describe the components of Nerve Cells:

1. Soma - cell body 2. Dendrite - branches of Soma A) Dendrite Spines - portions that receive stimuli 3. Axon - transmits signals / Action Potential A) Axon Terminals - passes along the signals, usually as Neurotransmitters B) Axon Hillock - area where the initial segment of the Axon connects to the Cell Body C) Axoplasm - cytoplasm of an Axon -- Axoplasmic Transport - the movement of material between the Cell Body and Axon Terminals 4. Neurofilaments - components that make up Neurons

1. ____ hormones are derived from Cholesterol 2. _____ is produced by the Heart and decreases blood pressure - Chapter 19 Quiz

1. Steroid 2. Brain Natriuretic Peptide

1. ____ hormones are released from cells by Simple Diffusion 2. the ____ Gland uses Iodine to produce hormones - Chapter 19 Quiz

1. Steroid 2. Thyroid

1. the ____ lobe is involved with perception of auditory and olfactory stimuli 2. the ____ lobe is involved with perception of visual stimuli - Chapter 16 Quiz

1. Temporal 2. Occipital

describe the functions of the Thalamus and Hypothalamus: - Diencephalon

1. Thalamus - relays information to the Cerebrum - processes Sensory Information 2. Hypothalamus - involved in Emotions, Thirst, and some Habitual Activity -- large role in emotions, thirst drive, and habitual activity / anything we do in a pattern or rhythm - connects to the Pituitary Gland via the Infundibulum 3. Epithalamus - contains the Pineal Gland -- associated with our daily cycles / rhythms

1. _____ receptors are also known as slowing adapting receptors, that do not show a reduction in sensitivity due to a constant stimulus 2. _____ are very sensitive, have high acuity, and are unencapsulated tactile receptors - Chapter 18 Quiz

1. Tonic 2. Tactile Discs & Merkel Cells

events of a Reflex Arc in the CORRECT order: - Chapter 13 Quiz

1. a Stimulus is sensed by a Sensory Receptor 2. a Sensory Neuron relays the information 3. Afferent Information reaches the Integration Center in the Central Nervous System 4. a Motor Neuron relays the information 5. the Effector Organ acts

describe the role of the Hypothalamus in Endocrine and Neural Activities:

1. acts as an ENDOCRINE ORGAN - releases Antidiuretic Hormone (ADH) and Oxytocin (OXT) at the posterior lobe of the Pituitary Gland 2. secretes Regulatory Hormones - controls the activity of the ANTERIOR lobe of the Pituitary Gland -- mostly via PEPTIDE Hormones 3. exerts control over the ADRENAL Medulla via Motor Neurons - causes the releases of Epinephrine and Norepinephrine as part of the "fight or flight" response - contains Autonomic Nervous System Centers

phases of eating

1. buccal 2. pharyngeal 3. esophageal

the glomerular capsule consists of?

1. capsular outer layer = squamous cells that are continuous w/ lining of PCT 2. visceral layer = epithelial lining of glomerular capillaries; podocytes 3. capsular space = opens to PCT

menstrual phase of uterine cycle

1. decrease in progestin and estrogen levels * causes constriction of blood vessels * causes a loss of excess endometrial cells * Degenerated tissue & blood cells enter uterine cavity, menses

describe the Gustatory Pathways: - Special Senses - Taste

1. dissolved chemicals contact Microvilli and stimulate the Gustatory Cells 2. impulses go from the Gustatory Cells through the Facial, Glossopharyngeal, and Vagus Nerves - First-Order Synapses occur in the MEDULLA OBLONGATA - Second-Order Synapses occur in the THALAMUS - information arrives at the Gustatory Cortex - SPICINESS and Cooling are sensed by the Trigeminal Nerves

describe the Proprioceptors: - type of Mechanoreceptors

1. monitor the Position of Joints - via Free Nerve Endings in JOINT Capsules 2. monitor Tension in the Tendons and Ligaments A) Golgi Tendon Organs - receptors in the Tendons 3. monitor the Length of Muscle Fibers upon Contraction A) Muscle Spindles - receptors in Muscles 4. integration with Sensory Info from Inner Ear and conveys info about Body Position (vertigo or motion sickness)

uterine wall layers

1. perimetrium (incomplete serial layer) 2. myometrium (longitudinal, circular, and oblique smooth muscles) 3. endometrium (glandular, thickness is impacted by menstrual cycle)

4 stages of breathing

1. pulmonary ventilation 2.external respiration 3. transport of gases 4. internal respiration

Vagus nerve

20

arbor vitae

20

accessory nerve

21

Occipital lobes

22

Optic Nerve

3

broad ligament

3

choroid

3

external urethral orifice

3

pituitary gland

3

podocytes

3

prostatic urethra

3

proximal convoluted tubule

3

renal artery

3

Iris

3 L and R

Blood vessel walls

3 layers/tunica: -Adventita -Media -Intima

respiratory centers?

3 pairs of nuclei in the reticular formation of the medulla oblongata and pons that regulate respiratory muscles

Frontal Lobe

4

Hypothalamus

4

Optic Chiasma

4

Pons

4

arcuate vessels

4

ciliary body

4

distal convoluted tubule

4

fundus of uterus

4

incus

4

prostate gland

4

renal vein

4

small intestine pH is?

4

Renal Medulla

5

Sclera

5

Temporal Lobe

5

auricle

5

body of uterus

5

efferent arteriole

5

medulla oblongata

5

membranous urethra

5

pituitary gland

5

pubic symphysis

5

trochlear nerve

5

Sclera

5 L, 4 R

vitreous humor

5 R

Loop of Henle

5/6

Corpus Spongyosum

6

Pons

6

cerebral aqueduct

6

lens

6

medulla oblongata

6

renal pyramid

6

spongy urethra

6

trochlear nerve

6

tympanic membrane

6

lens

6 R

Cerebral peduncle

7

Neutral pH

7

Pons

7

corpus cavernosum

7

external acoustic meatus

7

fimbriae of uterine tube

7

glomerular capsule

7

medulla oblongata

7

optic nerve

7

prepuce

7

pubic symphysis

7

renal cortex

7

trigeminal nerve

7

choroid

7 R

% of body mass that is blood

7%

Iris

8

Ovary

8

Scrotum

8

collecting duct

8

glans penis

8

parietal lobe

8

proximal convoluted tubule

8

trigeminal nerve

8

ureter

8

vestibularocochlear nerve

8

vestibulocochlear nerve

8

pH of bases

8-14

Seminal Vesicle

9

abducens nerve

9

clitoris

9

external urethral orifice

9

facial nerve

9

occipital lobe

9

ovarian ligament

9

vestibule

9

Human physiological pH values

< 6.8 = death 6.8-7.35 = acidosis 7.35-7.45 = normal 7.45-7.8 = alkalosis 7.8< = death

Functions of Epithelial Tissue

> PROVIDES PHYSICAL PROTECTION - from abrasion, dehydration, & destruction > CONTROLS > SENSORY CELLS - General (touch) - Neuroepithelia (sense organs) > PRODUCES - Unicellular glands - Glandular epithelia

Corniculate cartilage

A

Esophagus

A

Hard palate

A

Hyoid Bone

A

Lymphocyte

A

Premolars

A

Superior lobe

A

_________ are one of the few organelles that have a double-layered membrane. A _________ is a vesicle that is filled with digestive enzymes. A. Mitochondria; Lysosome B. Mitochondria; Peroxisome C. Endoplasmic reticulum; Lysosome D. Endoplasmic reticulum; Peroxisome

A. Mitochondria; Lysosome

Choose the correct order of levels of decreasing biological complexity: A. Organism, Organ system, Organ, Tissue, Cellular, Chemical/molecular B. Organism, Cellular, Organ system, Organ, Tissue, Chemical/molecular C. Organism, Organ system, Tissue, Organ, Cellular, Chemical/molecular D. Organism, Organ system, Organ, Cellular, Tissue, Chemical/molecular E. Organism, Tissue, Organ system, Organ, Cellular, Chemical/molecular

A. Organism, Organ system, Organ, Tissue, Cellular, Chemical/molecular

Which of the following processes do not directly use energy? A. Osmosis B. Exocytosis C. Phagocytosis D. All of the processes listed directly use energy E. Pinocytosis F. Active transport

A. Osmosis

The most superficial layer of skin that has vasculature is the: A. Papillary layer B. Epidermis C. Hypodermis D. Reticular layer

A. Papillary layer

Which group of connective tissue types are most closely related? A. Reticular; areolar; adipose B. Adipose; elastic; blood C. Dense regular; lymph; reticular D. Areolar; bone; elastic cartilage E. Elastic cartilage; fibrous cartilage; blood

A. Reticular; areolar; adipose

The most superficial layer of the epidermis in which all the cells still possess nuclei is the: A. stratum granulosum B. stratum corneum C. stratum lucidum D. stratum spinosum E. stratum basale

A. stratum granulosum

Which of the following is false: A.) An increase in UV exposure will stimulate the melanocytes to produce more carotene pigment. B.) Exposure to extensive UV radiation can cause skin cancer. C.) All of the statements listed are true. D.) Exposure to extensive UV radiation can damage fibrocytes which will cause premature wrinkling. E.) Hair plays a role in protecting skin from UV damage. F.) The thickness of the epidermis on the soles and palms prevent their tanning.

A.) An increase in UV exposure will stimulate the melanocytes to produce more carotene pigment.

describe the Afferent Division and the Efferent Division of the Peripheral Nervous System:

AFFERENT DIVISON - - Sensory Information! A) Somatic Sensory Receptors - monitor skeletal muscles, joints, body position, and skin surface - provides position sense and touch, pressure, pain, and temp sensations B) Visceral Sensory Receptors - monitor Cardiovascular, Respiratory, Digestive, Urinary, and Reproductive Systems C) Special Sensory Receptors - monitor smell, taste, vision, balance, and hearing EFFERENT DIVISION - - Motor Commands / Motor Neurons! A) Somatic Nervous System / SNS - skeletal muscle B) Autonomic Nervous System / ANS - Parasympathetic Division AND Sympathetic Division -- smooth muscle, cardiac muscle, glands, and adipose tissue C) Enteric Nervous System / ENS - Gastrointestinal Tract

which of the following organs/ glands are NOT correctly paired with one of the hormones it produces?: - Chapter 19 Quiz

ALL ARE CORRECT A) Pineal - Melatonin B) Pancreas - Somatostatin C) Kidney - Calcitriol D) Thyroid - Calcitonin E) Adrenal - Cortisol F) Ovaries - Estrogen

which of the following statements is FALSE?: - Chapter 13 Quiz A) neurons retain the ability to divide B) astrocytes will promote axon growth C) neurons cannot repair themselves D) neuroglia lack the ability to divide

ALL ARE FALSE - Neurons CAN divide - Astrocytes - make up the Blood Brain Barrier, form Scar Tissue, and recycle Neurotransmitters - Neurons CAN repair themselves - Neuroglia CAN divide

Active transport uses what kind of energy ?

ATP

what kid of energy does Endocytosis & Exocytosis use ?

ATP

What are the two parts of Microscopic Anatomy ?

Cytology & Histology

Cytoplasm

Cytosol & Organelles

Annular Ligaments

D

Incisors

D

Oblique muscle layer

D

Upper lip

D

Vocal fold

D

Of the following statements regarding body cavities, which is false? A. The thoracic and abdominopelvic cavities are separated by the diaphragm. B. The parietal peritoneum lines the body wall. C. The visceral pleura cover the outside surface of each lung. D. All of the gastrointestinal system is solely housed within the abdominal cavity. E. The serous membranes provide lubrication to organs.

D. All of the gastrointestinal system is solely housed within the abdominal cavity.

Which of the following statements about hair are false: A. Hair color is derived from carotene. B. Hair shaft is living tissue. C. All hairs have a cortex, medulla, and cuticle. D. All of the statements listed are false. E. Hair depends on sweat to maintain structural integrity.

D. All of the statements listed are false.

Which set of anatomical regions are properly matched with their respective area on the body? A.Pedal: foot; Cervical: head; Brachial: arm B.None of the listed options are correct C.Inguinal: groin; Crural: arm; Abdominal: abdomen D.Carpal: wrist; Lumbar: lower back; Sural: calf E.Femoral: calf; Cephalic: head; Antebrachial: forearm

D. Carpal: wrist; Lumbar: lower back; Sural: calf

A plane that divides a specimen into dorsal and ventral halves is called: A. Midsagittal plane B. Transverse plane C. Parasagittal plane D. Frontal plane

D. Frontal Plane

Which intercellular connection allows for the free passage of material between cells? A. None of the listed options have this ability B. Cell adhesion molecules (CAMs) C. Tight junctions D. Gap junctions E. Hemidesmosomes

D. Gap junctions

In lab you will primarily study large easily-seen structures, which is also referred to as _________ anatomy. ________ is the branch of anatomy that studies cells. A. Gross; Histology B. Microscopic; Cytology C. Microscopic; Histology D. Gross; Cytology

D. Gross; Cytology

condylar joint movement (8)

Biaxial: flexion, extension, adduction, and abduction

saddle joint movement (8)

Biaxial: flexion, extension, adduction, and abduction

Features of erythrocytes (RBC)

Biconcave disk -large surface area -flexible

In Fick's first law, diffusion rate is directly impacted by all the following variables except: A. Diffusion distance B. Surface area for diffusion C. Solute temperature D. Solute concentration difference E. Diffusion coefficient

C. Solute temperature

Which of the following is not true: A.) Microvilli increase the surface area of the apical surface. B.) Exocrine glands secrete products that empty into a body opening or space. C.) Holocrine secretion has a rapid production rate. D.) Epithelial tissue is avascular. E.) Epithelial tissues cells are replaced by stem cells.

C.) Holocrine secretion has a rapid production rate.

In the figure above letter "___" is the Tactile Corpuscle and letter "___" is the Papillary Layer. A.) N; B B.) I; C C.) I; B D.) N; C

C.) I;B

Which of the following statements about sebaceous glands is false? A.) Sebaceous glands use the holocrine secretion method for producing product. B.) Blocked sebaceous glands can cause acne. C.) Sebaceous glands are only found in association with hair follicles. D.) Sebum is a lipid mixture helps to maintain the epidermis and hair. E.) Sebaceous glands are absent from the soles of feet and palms of hands.

C.) Sebaceous glands are only found in association with hair follicles.

describe the functions of the Nervous Systems:

CENTRAL NERVOUS SYSTEM / CNS - - the Brain and the Spinal Cord - Integrating, Processing, & Coordinating - -- Sensory INPUT & Motor OUTPUT - seat of HIGHER brain functioning PERIPHERAL NERVOUS SYSTEM/PNS - - tissue that's OUTSIDE of the CNS - provides Sensory Information TO the CNS and carries Motor Commands AWAY from the CNS -- Afferent Division - TO CNS, and BEGINS at the Receptors -- Efferent Division - Motor Commands TO Effectors, and ENDS at Effectors

Rotation (8)

CIRCULAR MOVEMENT AROUND AN AXIS

Cardiac output equation

CO = SV x HR

Select the correct identity and function of the cell marked "A" in the figure above. A. Langerhans cell that extends its cytoplasm to phagocytize sick or foreign cells. B. Keratinocyte that fills with keratin and melanin; once this cell dies it forms the bulk of the epidermis. C. Melanocyte that produces carotene based on genetic control and exposure to UV radiation. D. Melanocyte that produces melanin based on genetic control and exposure to UV radiation. E. Melanocyte that produces melanin based solely on exposure to UV radiation.

D. Melanocyte that produces melanin based on genetic control and exposure to UV radiation.

_________ membranes produce fluid that reduces the friction in joints. _________ membranes produce transudate that reduces friction between organs and body cavities. A. Mucous; Serous B. Serous; Synovial C. Serous; Mucous D. Synovial; Serous E. Synovial; Mucous

D. Synovial; Serous

In the figure above, what is the function of the dots that partially cover the surface of this organelle: A. Store fats B. Store enzymes C. Synthesize fats D. Synthesize enzymes E. Absorb toxins

D. Synthesize enzymes

For the image above select the group of terms that correctly identifies each mechanism of glandular secretion: A.) A: Holocrine secretion ; B: Apocrine secretion; C: Eccrine secretion B.) A: Eccrine secretion ; B: Apocrine secretion; C: Holocrine secretion C.) A: Holocrine secretion ; B: Eccrine secretion; C: Apocrine secretion D.) A: Apocrine secretion ; B: Eccrine secretion; C: Holocrine secretion E.). A: Apocrine secretion ; B: Holocrine secretion; C: Eccrine secretion

D.) A: Apocrine secretion ; B: Eccrine secretion; C: Holocrine secretion

Which of the following options correctly orders the layers of epidermis in thin skin from superficial to deep? A.) Stratum basale, stratum spinosum, stratum granulosum, stratum corneum B.) Stratum basale, stratum spinosum, stratum granulosum, stratum lucidum, stratum corneum C.) Stratum corneum, stratum lucidum, stratum granulosum, stratum spinosum, stratum basale D.) Stratum corneum, stratum granulosum, stratum spinosum, stratum basale

D.) Stratum corneum, stratum granulosum, stratum spinosum, stratum basale

describe to the Pia Mater: - Cranial Meninges

DEEPEST LAYER - attached to the SURFACE of the Brain - anchored to the Brain by processes of Astrocytes - follows SULCI & Gyri of the Brain - helps to anchor large blood vessels of the Cerebrum - has a lot of vasculature - associated with the Blood Brain Barrier

Compact Bone

Dense Bone - dense & solid - forms wall of bone - parallel compression - transmission of stress parallel to bone axis - osteon arrangement is parallel to bone axis - weak bone strength perpendicular to bone axis B in the picture

Anterior Pituitary Gland Tissues that are CORRECTLY paired with the Hormones that it produces: - Chapter 19 Quiz A) Lactotropes - Luteinizing Hormone B) Somatotropes - Adrenocorticotropic Hormone C) Thyrotropes - Prolactin D) Corticotropes - Melanocyte-Stimulating Hormone E) Gonadotropes - Growth Hormone

Corticotropes = Melanocyte-Stimulating Hormone - Lactotropes = Prolactin - Somatotropes = Growth Hormone - Thyrotropes = Thyroid-Stimulating Hormone - Gonadotropes = Follicle-Stimulating Hormone & Luteinizing Hormone

The __________ or_________ border of the pelvis is superior to the thigh.

Cranial ; Cephalic

describe the CLASSIFICATIONS of Reflexes:

Development - 1. Innate - genetically determined - tied to Homeostasis - have since birth & keep u alive 2. Acquired - learned - "muscle memory" - ONLY Somatic - in Skeletal Muscles Processing Sites - 1. Spinal Reflexes - fast - processing in the Spinal Cord - deal with rhythmicity 2. Cranial Reflexes - slow - processing in the Brain Result of a Motor Response - 1. Somatic Reflexes - ONLY control Skeletal Muscle Contractions - include Superficial & Stretch Reflexes 2. Visceral / Autonomic Reflexes - control the actions of Smooth and Cardiac Muscles, Glands, and Adipose Tissue Complexity of a Circuit - 1. Monosynaptic - involves a SINGLE segment of the Spinal Cord - ONE Synapse 2. Polysynaptic - integrates a Motor Output from SEVERAL Spinal Segments - MULTIPLE Synapses -- two to several hundred

describe the Trigeminal Nerves: - Cranial Nerves

FUNCTIONS (MIXED) - 1. Ophthalmic Division - sensations from Forehead, Eyelids, and Nose (sensory) 2. Maxillary Divison - sensation from the Lower Eyelid, Upper Lid, and Cheek (sensory) 3. Mandibular Division - controls Mastication and Tongue (spicy and cooling - mixed) ORIGIN - 1. Ophthalamic Divison - Orbital Structures, Nasal Cavity, Forehead, and Superior Eyelid 2. Maxillary Divison - Inferior Eyelid, Upper Lip, Gums, Teeth, Palate, and Part of the Pharynx 3. Mandibular Division - Lower Gums, Teeth, Lips, Palate, Tongue, Salivary Glands, and Motor Nuclei of Pons

describe the Ventricular System of the Brain:

FUNCTIONS - - filled with Cerebrospinal Fluid - transports materials to and from the Central Nervous System - provides cushion for the CNS - apart of the Blood Brain Barrier - negative space within the brain - FOUR Fluid-Filled Ventricles - 1. Ventricles 1 and 2 - Lateral Ventricles - located in the Cerebral Hemispheres -- separated by the Septum Pellucidum 2. Ventricle 3 - Diencephalon 3. Ventricle 4 - between the Pons and the Cerebellum

list the functions AND formation of Cerebrospinal Fluid:

FUNCTIONS - - prevents the contact of neural tissue with the surrounding bones - provides SUPPORT for the brain - transports nutrients to CNS Tissue - transports wastes away from the CNS FORMATION - - produced by EPENDYMAL Cells of the Choroid Plexus - Ependymal Cells actively transport nutrients, vitamins, and ions into CSF - Ependymal Cells actively remove waste from CSF

describe the Growth Hormone: - produced by Somatotropes

FUNCTIONS - - targets MOST CELLS - stimulates Lean Growth / Anabolism of Proteins & Catabolism of Lipids - targets all cells in the body and it stimulates growth, protein synthesis, lipid mobilization, and catabolism -- in the Musculo-Skeletal System (diagram)

describe Prolactin: - produced by Lactotropes

FUNCTIONS - - unregulated Immune Function - stimulates Lactation and Growth in Female Mammary Glands - targets the Female Mammary Glands and stimulates Milk Production

describe the Glossopharyngeal Nerves: - Cranial Nerves

FUNCTIONS - 1. Posterior 1/3 of the Tongue (bitter and sour flavors) 2. Gas and pH Sensing in the Arteries 3. Motor Function - Swallowing and Salivary Glands - Posterior 1/3 of the Tongue and Carotid (sensory) - origin - Salivary Gland - some Swallowing Muscles (motor) - origin - Sensory Neurons are in the Superior Ganglions AND the Inferior Ganglions

Plasma

Fluid portion of blood

describe the Follicle-Stimulating Hormone and the Luteinizing Hormone: - produced by Gonadotropes

Follicle-Stimulating Hormone (FSH) - 1. targets the Ovaries of Females - Maturation of Oocytes - Release of Estrogen 2. targets the Seminiferous Tubules of Males - Sperm Production Luteinizing Hormone (LH) - 1. targets the Ovaries of Females - causes Ovulation - release of Progesterone 2. targets Interstitial Cells of Males - release of Testosterone / Estrogen

Pedal

Foot

What is expiratory reserve volume?

Forcefully exhaled beyond normal tidal expiration

Antebrachial

Forearm

myosin binding site (9)

Found on the actin molecule - can be blocked by tropomyosin.

Duodenum

G

Glottis

G

Horizontal fissure

G

Lower lip

G

Main bronchi

G

describe the General Senses AND the Special Senses:

GENERAL SENSES - - Temperature, Pain, Touch, Pressure, Vibration, and Proprioception - receptors distributed throughout the body - interpreted by the Spinal Cord and / or the Brain SPECIAL SENSES - - Smell, Taste, Balance, Hearing, and Vision - receptors located in Complex Sense Organs - interpreted mainly by the Brain

describe Gray Matter & White Matter in the Spinal Cord:

GRAY MATTER - - surrounds a Central Canal - called Horns, due to its shape - consists of Somas (cell bodies) - consists of GLIAL CELLS WHITE MATTER - - consists of AXONS (mostly myelinated) - Axons are organized into TRACTS / COLUMNS - located outside the gray matter!

The Two types of cells

Gametes & Somatic

extrinsic tongue muscles

Genioglossus Hyoglossus Styloglossus Palatoglossus **general tongue movement

Inguinal

Groin (crease between thigh and trunk)

Ary-epiglottic fold

H

Gingiva

H

Oblique fissure

H

Pyloric orifice

H

Root of right lung

H

Physiological Buffering

H2O + CO2 ⇆ H2CO3 ⇆ H+ + HCO3- More acidic ----> More basic <----

pepsinogen turns into pepsin when exposed to what?

HCl

list the Hormones RELEASED by the Tissues of the Anterior Pituitary Gland:

HORMONES RELEASED BY PARS DISTALIS - 1. Thyroid-Stimulating Hormone (TSH) 2. Adrenocorticotropic Hormone (ACTH) 3. Follicle-Stimulating Hormone (FSH) 4. Luteinizing Hormone (LH) 5. PROLACTIN (PRL) 6. GROWTH HORMONE (GH) HORMONES RELEASED BY PARS INTERMEDIA - 1. Melanocyte-Stimulating Hormone (MSH)

Accessory Structures

Hair Follicles, Nails, & Exocrine Glands also includes : Mammary glands & Ceruminous glands

Hair consists of:

Hair Shaft Hair Root Hair Follicle Hair Papilla Hair Matrix

Manual

Hand

Why do we need hemoglobin?

Hb in RBCs allows for a higher concentration of CO2 and O2 in blood

Cephalic

Head

describe the Input Nuclei AND the Output Nuclei:

INPUT NUCLEI - 1. Basal Nuclei - masses of Gray Matter that are embedded in the White Matter, and are inferior to the Lateral Ventricles - function is the automatic adjustment of Voluntary Motor Commands 2. Caudate Nucleus / Putamen - cycles of arm and leg movement during walking OUTPUT NUCLEI - 1. Globus Pallidus - adjusts muscle tone in preparation for conscious movement 2. Claustrum - Automatic Processing of Visual Information

describe the Testes: - what the cells release

INTERSTITIAL CELLS RELEASE TESTOSTERONE - - promotes production of Sperm - maintains Secretory Glands - influences Secondary sex Characteristics - stimulates Muscle Growth NURSE CELLS RELEASE INHIBIN - - depresses the secretion of FSH from the Anterior Pituitary - Inhibin and FSH interact to maintain Sperm Production at normal levels

describe Ionotropic Transduction AND Metabotropic Transduction:

IONOTROPIC - - RAPID - stimulus directly opens the Ion Channel - Pressure, Vibration, Temperature, and Small Ions METABOTROPIC - - SLOWER - stimulus causes a Signal Transduction Cascade that will eventually open an Ion Channel - most Chemical Detection and Light

describe the Ionotropic and Metabotropic of Gustation: - Special Senses - Taste

IONOTROPIC - - Salty, Sour, AND Water METABOTROPIC - - Sweet, Bitter, and Umami

The knee is _________ to the hip

Inferior

What happens in the oral cavity?

Ingestion and initial processing (mechanical and chemical digestion) and lubrication of food (saliva + mucus to swallow)

Endosteum

Inner surface of bone; single, incomplete cell layer - Lines medullary cavity, perforating canals & central canals

Cytoskeleton is divided into what 2 major parts ?

Intermediate filaments & Microtubules

Endocardium

Internal surface of heart -endothelial surface; simple squamous

Relationship between diameter and pressure

Inverse -increase diameter, decrease pressure -decrease diameter, increase pressure

smooth muscle (9)

Involuntary muscle found inside many internal organs of the body *non-striated *can replicate *hyperplasia *reflex arcs/myogenic

cardiac muscle (9)

Involuntary muscle tissue found only in the heart. *myogenic *branched *scar tissue *pumps blood!!!

tunica albuginea of ovary

Is a layer of dense connective tissue in the ovary

Body of tongue

J

Lung tissue

J

Pyloric canal

J

Fick's 1st Law of Diffusion

J = DA(ΔC/ΔX)

hinge joint (8)

Joint between bones (as at the elbow or knee) that permits motion in only one plane

Cardiac notch

K

Lobar (secondary) bronchus

K

Pyloric antrum

K

Root of tongue

K

Patellar

Kneecap

Fig 24.13

Know part A

Fig 24.4

Know part A

Fig 25.18

Know part A

Fig 25.4

Know part D

Fig 24.7

Know parts A and B

Fig 25.20

Know parts A and B

Fig 25.21

Know parts A and B

Fig 25.23

Know parts A and B

Fig 25.7

Know parts A and B

Fig 25.16

Know parts A and C

Fig 25.12

Know parts A, C and D

Fig 25.19

Know parts C, D, F, and G

Fig 20.1

Known part C

Fig 24.2

Known parts A and B

Fig 24.10

Known parts B and C

Gastoesophageal junction

L

Middle lobar bronchus

L

Soft palate

L

describe the Hemispheres of the Brain:

LEFT HEMISPHERE - - speech center, writing, language, and mathematics RIGHT HEMISPHERE - - analysis by touch and spatial visualization

which of the following is NOT a function of the Hypothalamus?: - Chapter 16 Quiz A) Regulate Digestive Processes B) Monitor Thirst C) Language Comprehension D) Control Blood Pressure E) Somatic Reflexes F) Monitor Body Temperature

Language Comprehension options that ARE functions - A) Regulate Digestive Processes B) Monitor Thirst C) Control Blood Pressure D) Somatic Reflexes E) Monitor Body Temperature

Diaphragm (10)

Large, flat muscle at the bottom of the chest cavity that helps with breathing

muscles of mastication under the mandible (10)

Lateral Pterygoid Medial Pterygoid * they both depress the mandible and have lateral movement

Arteries

Leave heart -carries blood away

Sagittal Plane

Left & Right

What parts is the Thoracic Cavity subdivided into ?

Left Pleural Cavity, Mediastinum, & Right Pleural Cavity

Crural

Leg, from knee to ankle

Functional syncytium

Linked cells contract as one unit

Desmosomes

Lock adjacent cells together -Z discs bound via fascia adherens

Lumbar

Lower Back

Inferior

Lower on the body, farther from the head

Oxygen Rich Blood Flow Path

Lungs --> Pulmonary vein --> Left atrium --> Bicuspid valve --> Left ventricle --> Aortic semilunar valve --> Aorta --> Rest of body

Fundus

M

Inferior lobar bronchus

M

Pharyngeal tonsil

M

list the MAIN Endocrine Organs AND the Organs with Secondary Endocrine Functions:

MAIN ENDOCRINE ORGANS - 1. Pituitary Gland 2. Hypothalamus 3. Thyroid Gland 4. Adrenal Glands 5. Pineal Glands 5. Parathyroid Glands 6. Pancreas ORGANS WITH SECONDARY ENDOCRINE FUNCTIONS - 1. Heart 2. Thymus 3. Adipose Tissue 4. Digestive Tract 5. Kidneys 6. Gonads A) Testes B) Ovaries

Whole Body Blood Pressure equation

MAP = TPR x CO

describe the Arachnoid Mater: - Cranial Meninges

MIDDLE LAYER - thin layer below the Dura Mater 1. Arachnoid Granulations - projections where CSF flows to enter into Venous Circulation - granulations drain CSF! 2. Arachnoid Trabeculae - web like material underlining the arachnoid layer -- the Arachnoid WEBBING creates Suspension, which is the space allowing for the correct flow of CSF - forms the Subarachnoid Space - ANCHORS blood vessels 3. Subarachnoid Space - space between the Pia Mater and Arachnoid Mater - where CSF is found

describe the Facial Nerves: - Cranial Nerves

MIXED FUNCTION - 1. Sensory - Sensations from the Face and Tongue (taste - anterior 2/3 of the tongue) 2. Motor - controls Muscles of the Face - Sensory - Taste Buds (origin) - Motor - Pons (origin)

describe the Dura Mater: - Cranial Meninges

MOST SUPERFICIAL LAYER 1. Periosteal Cranial Dura - OUTERMOST layer of the Dura Mater - fused to the Periosteum Lining of the Cranial Bones 2. Meningeal Cranial Dura - INNERMOST layer of the Dura Mater - the space between two layers contains two large veins - Dural - Tentorium Cerebelli - separates CEREBELLAR Hemispheres from CEREBRAL Hemispheres - Falx Cerebri - separates CEREBRAL Hemispheres - Diaphragma Sellae - lines the Sella Turcica of the Sphenoid Bone AND encases the Pituitary Gland

describe the Accessory Nerves: - Cranial Nerves

MOTOR FUNCTIONS - 1. Controls the Sternocleidomastoid, Trapezius, Palate, Pharynx, and Larynx Muscles 2. Speech - the Spinal Cord and the Medulla Oblongata (origin)

Thyroxine & Growth hormone

Maintain activity in epiphyseal region for growth

Special Apocrine glands

Mammary glands: -- Produce milk under control of hormones from pituitary gland -- Apocrine secretion Ceruminous glands -- Found only in ear canal -- Produce cerumen in conjunction with sebaceous glands -- Provide minimal physical protection to ear drum

What is total lung capacity (TLC)?

Maxiumum volume of air that lungs can contain.

describe the COMPONENTS of the Medulla Oblongata:

Medulla Oblongata is continuous with the Spinal Cord TO the Brainstem! - all information between the Brain & the Spinal Cord passes VIA the Medulla Oblongata - Nuclei in the Medulla Oblongata are - A) relay stations for sensory or motor pathways B) associated with cranial nerves connected to the medulla oblongata C) associated with autonomic control of visceral organs

Thrombocytes are derived from __________

Megakaryocytes

Factors Regulating Bone Growth

Minerals: calcium, phosphate, magnesium, citrate, carbonate, sodium Vitamins: - A: stimulates osteoblasts - C : collagen formation & osteoblast differentiation - D3: used for calcitriol by kidneys - Calcitriol: increase Ca2+ & PO4 3- absorption in small intestines

Concentration =

Molarity = mol/L

Abduction (8)

Movement AWAY* from the midline of the body

Adduction (8)

Movement TOWARD* the midline of the body

Reposition (8)

Moving to its normal location or other suitable location all or a portion of a body part

ball and socket joint movement (8)

Multiaxial: flexion, extension, adduction, abduction, and rotation

cremaster muscle

Muscle that pulls the scrotum closer to the body in cold temperatures and relaxes to let the testicles be farther away from the body in warmer weather

extra ocular muscles (10)

Muscles surrounding the eye that allow it to move within the eye socket

cardiac muscle tissue

Myogenic , Branched; "mesh" & Scar tissue

Body

O

Nasopharynx

O

Pyloric part

P

Uvula

P

proximal tibiofibular joint (8)

PLANE JOINT; articulation between the head of the fibula and the inferior aspect of the lateral condyle of the tibia

Adipose Tissue

Padding; White Fat: energy storage ; Brown Fat: thermogenesis

pronation vs supination (8)

Palm down vs. Palm up

Pelvic

Pelvis (in general)

What surrounds the Abdominal cavity and half of the Pelvic Cavity ?

Peritoneal Cavity

stratified columnar epithelium

Pharynx, epiglottis, anus, mammary glands, salivary glands, & urethra

What is mechanical digestion?

Physical breakdown of large pieces of food into smaller pieces; churning, segmentation and grinding of ingested food

Fauces

R

Right gastro-epiploic vessels

R

describe Hormone Synthesis:

RELEASED BY - 1. Exocytosis - Amine Hormones AND Peptide Hormones 2. Simple Diffusion - ONLY Steroid Hormones

Erythrocytes

Red Blood Cells; 99% of formed elements of blood

transitional epithelium

Renal pelvis, Ureters, Bladder; "Stretchy", Expansion, Recoil; mainly cuboid , but mix of others

What are the Characteristics of Life?

Responsiveness, Growth & Differentiation , Reproduction, and Movement

Oxygen Poor Blood Flow Path

Rest of body --> Superior/inferior vena cavae --> Right atrium --> Tricuspid valve --> Right ventricle --> Pulmonary semilunar valve --> Pulmonary Trunk --> Lungs

Rh+

Rh group where RBCs have Rh surface antigens

Rh-

Rh group where RBCs lack Rh surface antigens

_______ ventricle wall is much thinner than _______ ventricle wall

Right ; Left

Gastric rugae

S

Palatopharyngeal arch

S

describe the components of Rods and Cones (photoreceptors): - Special Senses - Vision

THREE Types of Cones - - GREEN, RED, & BLUE - depend on high amounts of light to function! - RETINAL is sensitive to a set range of Wavelengths, dependent on which cell it is found in -- Rod vs B/G/R Cone -- Blue Cones = 420 NM -- Rods = 500 NM -- Green Cones = 531 NM -- Red Cones = 558 NM - Rods are concentrated on PERIPHERY of the Retina - Macula - ONLY Cones -- region where images get projected when looking straight at an object -- Fovea Centralis - center of Macula ; best COLOR vision (best, most intense vision) - Optic Disc - where the Optic Nerve exits the eye - NO Rods or Cones in the optic disc area - "BLIND SPOT"

list the TYPES / COMPONENTS of Hormones:

TYPES OF HORMONES - 1. Amines 2. Peptides 3. Steroids - based on their structure! - hormones are typically released by Endocrine Glands (ductless glands) - can ALSO by released by - -- NEURONS (neurohormones) -- ORGANS (as secondary function)

Nerve Fiber Receptors

Tactile corpuscles: light touch Ruffini corpuscles: stretch receptors Lamellar corpuscles: deep pressure & vibration receptors

What is absorption?

Taking digested food into the blood stream

ovarian cycle?

The 28 days of the menstrual cycle as they apply to events in the ovary. The ovarian cycle has three subphases: the follicular phase, ovulation, and the luteal phase.

Anterior or Ventral

The Front ; before

What does the Pericardial cavity surround ?

The Heart

What helps maintain concentration gradient?

The ability to constantly move and replenish nutrients in fluids

Posterior or Dorsal

The back ; behind

what is chemical digestion?

The chemicals in food being broken down by enzymes, acid, buffers and emulsifying salts

collecting system of kidney

The filtrate continues to pass through the collecting duct where its -final composition is determined Collecting ducts converge to empty into a minor calyx, which ends at the renal papilla of each renal pyramid

What is gluconeogenesis in the liver?

The formation of glucose by non-glucose precursors. Proteins and fats.

Lingual tonsil

U

Epiglottis

V

2 types of hair

Vellus: covers most of body ; lacks a medulla Terminal: head, eyebrows,& eyelashes

Hyoid bone

W

When is troponin and tropomyosin "unlocked"? (9)

WITH Ca2+

cross bride cycling (9)

What is molecular basis for muscle contraction?

work = force x distance (9)

What is the formula for work?

Leukocytes

White Blood Cells

Where is the Pericardial Cavity located ?

Within the Mediastinum

Pericardial Cavity

Within the Thoracic Cavity ; surrounds the heart; its the air space

Plerual Cavity

Within the Thoracic cavity ; the lungs

Carpal

Wrist

Laryngopharynx

X

Nasal cavity

Y

parts of a sarcomere (9)

Z disc A band I band H band

muscle fine control (9)

a few muscle fibers per motor neuron

first class lever (9)

a lever for which the muscle force and resistive force act on opposite sides of the fulcrum *THE HEAD!*

Surfactant

a lipoprotein that lowers the surface tension in the alveoli, reduces the amount of pressure needed to inflate the alveoli, and decreases the tendency of the alveoli to collapse.

lacteal?

a lymphatic vessel carrying chyle away from the intestine

action potenial (9)

a neural impulse; a brief electrical charge that travels down an axon

all-or-none response (9)

a neuron's reaction of either firing (with a full-strength response) or not firing.

What is bilirubin?

a orange-yellow pigment formed in the liver by the breakdown of RBC/hemoglobin and excreted in bile

The fingers are __________ to the wrist

distal

sagittal plane

divides body into left and right

What are mesenteries? What is their function?

double layer of peritoneum that extends from the body wall to the digestive organs. ** Hold organs in place, store fat, route for circulatory vessels and nerves.

Mesenteries

double sheets of peritoneum

Anterior cardiac veins

drain directly into right atrium

what is a portal vein in liver?

drained blood from intestines

Thoracic duct

drains into left subclavian vein -starts as cisterna chyli in abdomen -drains all of the body except right upper extremity/head/neck area

Right lymphatic duct

drains into the right subclavian vein

muscles can be grouped by primary actions? (9)

agonists: RESPONSIBLE for producing a particular movement antagonists: OPPOSE action of agonist synergists: assist agonist in performing an action fixators: agonist and antagonist contracting at same time to stabilize joint

Herniated/Bulging Disk (8)

akaruptured/slipped disk; rupture of nucleus pulpous through the annular wall of the disk & into the spinal canal; pain & disability, hot & cold packs, analgesics, epidural injections & physical therapy

scrotum (male)

dual chambers that house the testes

glandular tissue mix of

duct cells & gland cells

Exocrine

ducts to an epithelial surface; body opening or space

semen empties into?

ductus deferens during ejaculation

papillary duct of kidney

dumps urine into minor calyx

spermatic cord?

all testes associated connections, pass via inguinal canal to peritoneal cavity

function of rugae of urinary bladder

allow bladder to expand to hold urine

Arterial anastomosis

allow multiple supply routes to capillary beds

Elastic Fibers

allow skin to stretch & recoil

what is functional residual capacity?

amount of air remaining in lungs after a normal tidal expiration

seminal plasmin?

an antibiotic that protects against bacteria of the vagina

each breast has a nipple surrounded by?

an areola

what is bile?

an emulsifier made by the liver *metabolic waste

what is physiological dead space?

anatomical dead space + alveolar dead space

Intermediate filaments

anchor organelles & transport materials

ACL (8)

anterior cruciate ligament of the knee *locks knee in extended position

the vagina is a passageway for?

elimination of menstrual fluids

Coronary arteries

emanate from base of aorta -LCA -RCA

Interstitial fluid

between cells -not in blood

pancreas exocrine secretions

bicarbonate ions to raise pH to 4 *lipase = breaks down fats * trypsin and chymotrypsin = breaks down proteins * amylase = breaks down complex sugars * nucleases = breaks down nucleic acids

Receptor - mediated endocytosis

binding of ligands to receptors triggers vesicle formation

rigor ends when? (9)

binds to myosin

Iris

black arrow

Urethra

black arrow

lens

black arrow

optic disk

black arrow

seminal vesicle

black arrow

tail of epididymis

black arrow

Hemopoiesis

blood cell formation -red marrow -yellow marrow can be converted to red

what happens in the third stage of breathing? (transport of gases)

blood circulates throughout the body

Thrombocytes (platelets)

blood clotting

Compact bone:

blood vessels in matrix

Spongy bone

blood vessels not in matrix

Serum

blood with clotting proteins removed

Epididymis

blue

adrenal gland

blue

Iris

blue arrow

head of epididymis

blue arrow

kidney

blue arrow

pupil

blue arrow

testes

blue arrow

renal medulla

blue box

glomerulus

blue part

biaxial joint (8)

bone moves in two planes or axes

Osteoprogenitor cells

bone stem cells - inner most layer of periosteum & inner lining of endosperm - differentiate to form new - Involved in repair of bones after a fracture

triaxial joint (8)

bones are free to move in three directions around three axes(multiple directions), ex: Plane - bones may glide on or rotate with one another on any plane, Ball and socket - flexion/extension, adduction/abduction & rotation

Coronary sulcus

border of atria & ventricles

glans penis

bottom left arrow

Osteoclasts

break down matrix

Catabolism

breakdown of complex molecules

what is digestion?

breakdown of food and absorption of nutrients

Melanin

brown, yellow-brown, black

what happens in the small intestine?

buffer chyme to pH of 4, chemical/mechanical digestion, nutrient and water absorption

Bundle of His

bundle of cardiac muscle fibers that conducts the electrical impulses that regulate the heartbeat

motor nerve (9)

bundle of motor neurons

renal pyramid in renal medulla

bundles of medullary tissue

urinary system synthesizes what?

calcitriol (active form of vitamin D) and erythropoietin (for RBC production)

RyR (9)

calcium release channel

lipogensesis in the liver?

carbohydrates to lipids

Pulmonary circuit

carries blood to lungs

The hips are ________ to the waist

caudal

Parietal

cavity

what part of the tooth is the toughest material the body produces?

enamel and dentine

broad ligament of uterus

encloses ovaries, uterine tubes and uterus * mesoalpinx and mesovarium

The inner mucosal layer of the uterine wall is the

endometrium; lined w/ transitional epithelium

Epiphysis

ends of a long bone

white fat

energy storage

forced exhalation requires?

energy/ATP

prostatic fluid secreted into prostatic urethra does what?

enzymes that breakup sperm coagulation in vagina to allow sperm motility -weekly acidic

Cutaneous membrane (skin)

epidermis & dermis

layers of muscle (9)

epimysium, perimysium, endomysium epi -> peri -> endo

What are the 4 primary tissue types ?

epithelial, connective, muscular, & neural

Integumentary system has all tissue types including...

epithelium, connective tissue, smooth muscle, and nervous tissue

Nodal cells

establish rate of contraction

what is the dominant estrogen?

estradiol

breast growth during pregnancy by?

estrogen, progesterone, and prolactin

granulose cells and thecae cells release what?

estrogens

excitation-contraction coupling (9)

events that link the action potentials on the sarcolemma to activation of the myofilaments, thereby preparing them to contract

papillary ducts of kidney?

excrete filtrate and now is urine

types of glands in the glandular epithelium

exocrine & endocrine

What is the submucosa of the GI tract?

exocrine; large lymphatic and vasculature

glans penis?

expanded distal end that surrounds the external urethral orifice *covered by prepuce (foreskin)

exhalation = ___?___

expiration

Tanning

exposure to UV will increase melanin production ~ 10 days

pitch of voice depends on what?

diameter, length and tension in the vocal folds

C=

difference in solute concentration

D=

diffusion coefficient

X=

diffusion distance; membrane thickness

Hyperextension (8)

extension beyond anatomical position

cortex of ovary?

external portion where gametes and hormones are produced, ovarian follicles

Where does fertilization occur?

fallopian tubes if sperm reaches oocyte

Distal

farther from the origin of a body part or the point of attachment of a limb to the body trunk

bile salts increase surface area of what?

fat globules and prevents regrouping

breasts

female organs of milk secretion

do females or males have a shorter urethra?

females

the vagina receives the penis and holds sperm before they enter the uterus. it serves as a passageway for?

fetus during vaginal birth

Sympathetic

fight or flight -works with epinephrine/norepinephrine -increases CO

fibrous cartilage

firmest, strongest

duodenum?

first portion of the small intestine, shortest section *chemical/mechanical digestion *bicarbonate from Brunner's glands

Tonsils

five sets -one pharyngeal tonsil -two palatine tonsils -two lingual tonsils

Hyperflexion (8)

flexion of a limb or part beyond the normal limits

movement in the spine (8)

flexion, extension, lateral flexion, rotation

movement in the wrist (8)

flexion/extension radial/ulnar deviation

Free Ribosomes

float in cytoplasm; T in the picture are free ribosomes while S are attached

Intracellular fluid

fluid in cells

Extracellular fluid

fluid outside cells

Endoplasmic Reticulum ( ER )

folds of cisternae - synthesis - storage - transport - detoxification

Luteinzing hormone (LH) causes weakening in what wall?

follicular wall

food --> ? --> ?

food --> bolus --> chyme

functions of the stomach

food storage, mechanical digestion, first site of chemical digestion (pepsin; low pH), production of chyme

temporomandibular joint (TMJ) (8)

formed at the back of the mouth where the maxillary and mandibular arches come together *very loose *allows for chewing **plane and hinge joint!

Epidermal ridges

formed by dermal papillae; unique: even between identical twins

Fibrinogens

forms blood clots by converting to fibrin

Hyaline cartilage

found in Tracheal rings, Costal cartilage, & Joints

dense regular connective tissue

found in ligaments , tendons, & aponeuroses

Muscles that move the arm (11)

found proximal to the elbow and attach to the ulna and radius

Megakaryocytes

fragment-forming bits & pieces of membrane-enclosed packets of chemicals

diathrosis joints (8)

freely moveable six types : pivot, condyloid, saddle, ball and socket, hinge, gliding

Anterior

front of the body

Planes of the body (8)

frontal (anterior-posterior axis), sagittal (Superior-inferior axis), transverse (Lateral-medial axis)

third class level (9)

fulcrum is at one end, effort in between *BICEP CURL*

tidal volume > physiological dead space = ?

good!

epididymis

green

Left adrenal gland

green arrow

Sclera

green arrow

glans penis

green arrow

pampiniform plexus

green arrow

seminal vesicle

green arrow

renal papilla

green box

Anterior & Posterior interventricular sulcus

grooves due to interventricular septum

vibrissae in the respiratory defense system

hairs in the nose that block some inhaled debris

sperm is??

haploid = 23 chromosomes

axial musculature (10)

head and neck, vertebral column, rib cage and lateral walls of abdominal/pelvic cavities and pelvic floor

proximal radioulnar joint (8)

head of radius articulates with radial notch of ulna PIVOT JOINT

distal radioulnar joint (8)

head of ulna articulates with ulnar notch of radius

(Metabolic) Alkalosis

high pH, high HCO3-

simple columnar epithelium functions

high secretion & high absorption

Collagen fibers

high tensile strength; tendons & ligaments

simple columnar epithelium

highly polarized; located in stomach, intestine, gallbladder, uterine tubes, renal collecting ducts ; must have microvilli / cilia

elbow joint (8)

hinge joint formed by humerus, ulna, and radius *Humero-ulnar: strongest!; trochlea & trochlear notch *Humeroradial: more flexible; capitulum & head of radius

transverse plane

horizontal division of the body into upper and lower portions

pancreatic islet cells of pancreas

hormones = insulin, glucagon and somatostatin (reduces HCl production)

gastric secretions and stomach churning are controlled by?

hormones from enteroendocrine cells

Homeostatic Mechanisms

how the body reacts to changes in conditions & tries to go back to some range of baseline values

When altering pH, you're altering __________ _______

hydrogen ions

what depresses the ribs in extension? (10)

iliocostalis lumborum

What elevates the ribs in lateral flexion? (10)

illiosoctalis cervicis

Synarthosis (8)

immovable joints * ex. skull, teeth, sutures

Leukocytes (white blood cells)

immune function

The respiratory epithelium - simple squamous

in alveoli. produces surfactant and allows for gas diffusion

The respiratory epithelium - mucus producing cells

in the nasal cavity, sinuses, lower respiratory tract. mucous will trap debris and keeps surfaces moist

The respiratory epithelium - stratified squamous cells

in the pharynx. it is nonkeratinized and protests against abrasion

different types of teeth

incisors, canines, premolars, molars

Mature Bone

includes osteocytes, osteoblasts, osteoprogenitor cells, & osteoclasts

talocrural (ankle) joint (8)

includes two articulations—a medial joint between the tibia and talus and a lateral joint between the fibula and talus, both enclosed in one joint capsule *limited dorsiflexion *limited plantar flexion

Constriction

increase R = increase MAP

hypertrophy (9)

increase in cell size and increase # of myofibrils, due to exercise and spindle activity, # of cells stay constant

Hyperplasia

increase in number of cells

Hypertrophy

increase in size of cells

muscle recruitment (9)

increase in the # of motor units being used to increase strength of contraction

proliferative phase of uterine cycle

increased estrogen stimulates endometrial lining to thicken and create a new functional layer -prepares body for implantation of a fertilized egg

increase in muscle tension (strength) is due to? (9)

increased frequency of motor unit stimulation and recruitment

Epinephrine/Norepinephrine

increases CO

Interatrial groove

indent due to interatrial sulcus

Apex

inferior portion of heart

Medullary cavity

inner cavity of diaphysis

renal sinus?

inner cavity of the kidney

Intima

inner layer of blood vessel -endothelium of vessel

what is mucosa of the GI tract?

inner lining of digestive tract

medulla of ovary?

inner portion of ovary--loose connective tissue; contains nerves and blood vessels and lymph vessels

renal medulla?

inner portion of the kidney with collecting ducts and vasa recta

each nephron in kidney is?

innerverted

inhalation = ____?___

inspiration

Stroke Volume

intensity of contractions; volume of blood pumped

what are portal triads in liver?

interlobular veins, artery and bile duct

internal anal sphincter and external anal sphincter

internal = smooth muscle with involuntary control external = skeletal muscle with voluntary control

Movement

internal and /or external

Trabeculae carneae

internal walls of ventricles

Agranulocytes

lack cytoplasmic granules

SI enzymes on microvilli

lactase = lactose into glucose and galactose peptiasite = peptides into amino acids maltase = maltose to glucose

prolactin causes?

lactation

Surgical Anatomy

landmarks for surgical procedures

mass movement in the colon

large movements of material through 2nd hard of large intestine

Lymphatic ducts

larger-diameter lymphatic vessels

knee joint (8)

largest and most complex joint in the body HINGE joint

frontal plane (coronal plane) (8)

lateral-medial axis; Divides the body into front and back portions.

Funny Channels

leaky ion channels, let Na+ in

Posterior surface

left atrium, small portion of right atrium

Diapedesis

leukocytes squeeze between endothelial cells to leave capillaries

Areolar Tissue function

light connection that allows movement between skin & muscle

Pectinate muscles

line auricles of atria

forms of rotation

linear, rotation, angular, circumduction

Parietal peritoneum

lines cavity

Parietal pleura

lines cavity

parietal layer of serous pericardium

lines cavity

Pericardium:

lines pericardial cavity; covers heart

Peritoneum:

lines peritoneal cavity; covers enclosed organs

Pleura:

lines pleural cavity; covers lungs

stratified cuboidal epithelium

located in lining of ducts of sweat & mammary glands

stratified squamous epithelium

located in the lining of orifices & on the surface of the skin

simple cuboidal epithelium

located in the thyroid gland, renal tubules & ducts

Cilia

long , can move ; move substances over apical surface ; line respiratory tract

Stereocilia

long , rigid ; inner ear & male reproductive tract

longer muscles = (9)

longer contraction distance

columnar epithelium

longer than wide; columns

chromatin

loose coils of chromosomes

(Metabolic) Acidosis

low pH, low HCO3-

the interstitial endocrine cells are produces due to?

luteinizing hormone (LH)

Prone

lying face down

Supine

lying face up

Other fluids

lymph, cerebrospinal, synovial, serous

Mucosa-associated lymphoid tissue (MALT)

lymphatic nodules associated with digestive tract

Aggregated lymphoid nodules (Peyer's patches)

lymphatic nodules associated with small intestine

Lymphatic tissue characteristics

lymphocytes that are loosely aggregated within connective tissue -no capsule

Cartilage

made of chondrocytes; Have a fibrous perichondrium; Most cartilage cannot repair severe damage; avascular

Cutaneous Plexus

main arteries & veins ( #2 )

osmotic gradient is the ________________ of the filtration

main driving force

Yellow Marrow

mainly adipose, energy store - medullary cavity

Osteocytes

maintains matrix Mature bone cells - maintain protein & mineral content of matrix - controls release & deposition of Ca2+ in/out of bone

cellular layer of cartilage

maintenance

parietal and visceral pleura aid in?

maintenance of pressure

nucleoli

make ribosomes

Sebaceous Glands:

make sebum sebum: lipid mixture - Lubricate epidermis & hair - Antimicrobial properties - No glands on palms & soles - High concentrations on forehead, face, & upper back - If ducts become blocked: Acne may occur & furuncles may develop Sebaceous follicles: large sebaceous glands; no hair Holocrine secretion

sperm is?

male gamete

floor of oral cavity (10)

mylohyoid and geniohyoid and genioglossus *moves hyoid, larynx and tongue * depresses mandible

types of micro muscle (9)

myofilament -> sarcomere -> muscle fiber -> fascicle -> muscle ******** on test!

middle muscular layer of the uterine wall?

myometrium; longitudinal and circular smooth muscles

hypertrophy can help with? (9)

myosatellites aid in growth, increased mitochondria, increased glycolytic enzyme concentration, increased glycogen reserves

cross bridge formation happens when? (9)

myosin head is "cocked" and attaches to actin

power stroke (contraction) (9)

myosin reverts back to resting position and drags actin

nasal cavity in the respiratory defense system

nasal conchae and paranasal sinuses. it produces mucus to trap inhaled debris. SNEEZING will remove the debris. incurrent air is also warmed and humidified

superficial

near the surface

Ultra Violet (UV) Radiation

needed for Vit D synthesis; can damage cells

Hair Papilla

nerve & blood supply; supports matrix

Osteogenesis

new bone formation via calcification of osteoid leading to ossification

does the reproductive system have a homeostatic role?

no

smooth muscle tissue

non-striated, reflex arcs or myogenic

Hair Shaft

nonliving, visible portion of hair Medulla : soft keratin Cortex: hard keratin Cuticle: outer layer

Diffusion across endothelial cells

nonpolar solutes; gasses; water via aquaporins

what is tidal volume?

normal breathing

The respiratory epithelium - pseudo-stratified ciliated columnar cells

not in the pharynx, smaller bronchi or alveoli. cilia moves mucous up to the pharynx

parasympathetic nerve fibers are __________ abundant in kidney

not very abundant

papillary layer

nourishes & supports epidermis

Attached Ribosomes

on endoplasmic reticulum

Cardiac cycle

one complete heartbeat -atrial systole begins --> atrial systole ends, atrial diastole begins --> ventricular systole: first phase --> ventricular systole: second phase --> ventricular diastole: early --> ventricular diastole: late

simple epithelium

one layer of cells ; protected internal compartments of body

sperm

one of the few cells the moves on it's own

anti-Rh antibodies

only produced when Rh- individuals are exposed to Rh antigens

when urinary bladder nears capacity, both urethral sphincters will?

open based off pressure

external urethral orifice

opening of the urethra to the outside

kidney

orange

Visceral

organ

dense irregular connective tissue

organ sheaths

Produce osteoid

organic mix dumped into matrix

Hair Follicle

organs that form hair

Muscles that position the pectoral girdle (11)

originate on the axial skeleton and insert on the clavicle and scapula

Muscles that move the arm (11)

originate on the pectoral girdle and the thoracic cage and insert on the humerus

Which of the following cells are found within lacunae?

osteocyte

Lamella

osteocytes matrix

renal cortex?

outer region of the kidney with large vessels and glomeruli

Periosteum

outer surface of bone -fibrous layer & osteogenic layer (complete, multi cell layer) - Isolates & protects bone from surrounding tissue - Attachment for circulatory & nervous supply - Actively participates in bone growth & repair - Perforating fibers: anchors periosteum to bone & other connective tissues - Attachment site for tendons & ligaments

Adventita

outermost layer of blood vessel -anchor blood vessels in place

puberty sets off what?

ovarian cycle and uterine cycle due to increased FSH

gonads?

ovaries and testes that produce gametes and hormones

Right side of heart

oxygen poor blood

Left side of heart

oxygen rich blood

pH calculation

pH = -log [H+] = log 1/[H+]

mammary glands (breasts)

pair of milk-producing glands of the female

Muscles of the tongue (10)

palatoglossus, genioglossus, styloglossus, hyoglossus ** glossus = tongue **

Dermis breaks into 2 layers ...

papillary layer & reticular layer

high frequency stretch-activated spinal reflexes stimulates?

parasympathetic activity -detrusor contracts (smooth muscle wall of bladder) -internal urethral sphincter relaxes (smooth muscle)

appendix

part of lymphatic system and reservoir of microbiota

haustra of the large intestine

pocketlike sacs on the wall of large intestine caused by tone of teniae coli

hilum of kidney

point of entry/exit for blood vessels, nerves, lymphatic vessel and ureter

Hair Root

portion of hair in follicle being formed; anchors hair

describe Cerebrospinal Fluid:

provides Protection, Support, and Nourishment to - A) Bones of the Skull - Parietal, Frontal, Occipital, & Temporal B) Cranial Meninges - Dura Mater, Arachnoid Mater, & Pia Mater - Blood Brain Barrier - RICH Blood Supply - to the brain AND the spinal cord

The shoulder is _________ to the wrist

proximal

renal tubule of kidney

proximal convoluted tubule, nephron loop/loop of Henle, distal convoluted tubule

the tibiotalar joint is supported by what joints? (8)

proximal tibiofibular joint, distale tibiofibular joint and fibulotalar joint

spermatic cord

purple arrow

what depresses the ribs and lateral flexion? (10)

quadratus lumborum

wrist joint (8)

radiocarpal joint and intercarpal joints

buffers in pancreas

raises pH

Respiratory system & blood

rapid pH regulation -release CO2 and/or bind CO2 to Hb

J =

rate of diffusion

descending limb of Loop of Henle (nephron loop)

reabsorption of water, ONLY permeable to water

muscle tissues - elasticity (9)

rebound toward its original length

dendrite

receives stimuli

cremaster muscle

red

ductus deferens

red

Urethra

red arrow

body of penis

red arrow

pupil

red arrow

urinary bladder

red arrow

interlobar vein

red box

minor calyx

red box

segmental arteries

red box

vasa recta

red box

simple squamous epithelium functions

reduces friction ; absorbs & secretes material

atrophy (9)

reduction in muscle size, tone and power, due to disuse, age or disease

skeletal muscle stimulated via? (9)

reflex arcs and voluntary motor units

Thoroughfare channels

regulate blood flow through capillaries; fairly consistent flow

Arteriovenous anastomoses

regulate flow to capillary beds, can bypass a capillary bed

intrinsic laryngeal muscles

regulate tension in the vocal folds and open and close the glottis

squamous epithelium

relatively flat ; "pancakes"

What is ovulation?

release of secondary oocyte from tertiary follicle & ovary

Exocytosis

release of substances out a cell by the fusion of a vesicle with the plasma membrane.

Fossa ovalis

remnant of fetal R/L bypass

Excretion

removal of waste , CO2, excess ions

kidney lobe consists of

renal pyramid, overlying area of renal cortex, adjacent tissues of renal columns

no gas exchange until ____________ __________

respiratory bronchioles

apneustic and pneumotaxic centers adjust what?

respiratory pace

Hemoglobin

respiratory pigment -found in erythrocytes

Responsiveness

respond to changes via acute or chronic adjustments

muscle tissues - excitability (9)

respond to stimuli and undergo action potentials

Function of lymphocytes

responds to: -invading bacteria & viruses -abnormal body cells such as cancer cells -foreign proteins such as bacterial toxins travel throughout body: -exit bloodstream to enter interstitial spaces -re-enter bloodstream via lymphatic vessels

extrinsic laryngeal muscles

responsible for elevating and lowering the larynx in the neck during respiration, phonation, and swallowing

Parasympathetic

rest and digest -works with acetylcholine -reduce CO

Stretch marks

reticular fibers break - due to pregnancy or weight gain - skin DN recoil, wrinkles & creases

Diaphragmatic surface

right & left ventricles

Anterior surface

right atrium, right ventricle, left ventricle

pivot joint (8)

rotating bone turns around an axis; i.e. connection between radius/ulna and humerus

Hemolysis

rupture of RBCs

enzymes in saliva

salivary amylase = breaks starch and glycogen into maltose lingual lipase = breaks down fats

Cytoplasm = ____________ Cell membrane = ____________

sarcoplam; sarcolemma

tertiary follicles?

secondary follicles enlarged due to fluid production (antrum) - primary oocyte undergoes meiosis I to become a secondary oocyte (haploid)

what do the primary ovarian follicles develop?

secondary ovarian follicles

Osteolysis

secrete acids, dissolving bones causing release Ca2+ & PO4 3- into blood

acinar cells of pancreas

secrete digestive enzymes

accessory glands of reproductive system?

secrete fluids

simple cuboidal epithelium functions

secretion & absorption

stratified cuboidal epithelium functions

secretion & absorption

Multicellular

secretory sheets & clusters; mixed

proximal convoluted tubule (PCT)

segment of the nephron between the glomerular capsule and the nephron loop *lined w/ cuboidal epithelium containing microvilli *major site of reabsorption

distal convoluted tubule (DCT)

segment of the nephron between the nephron loop and the collecting duct

accessory glands of male reproductive system?

seminal vesicles, prostate gland, bulbourethral glands

Systemic circuit

send blood to rest of body

Bodies

sense ph, CO2, O2 -Carotid & Aortic

Merkel cells

sensory cells ; touch

Parts of a reflex arc in order (9)

sensory receptor, afferent neuron, integrating centers, efferent neuron, effector organ

Interatrial septum

separates left & right atria

Interventricular septum

separates left & right ventricles

the peritoneum

serosal membrane (visceral and parietal)

What is the serosa in GI tract?

serous membrane

types of exocrine in the secretory sheet

serous, mucous, & mixed

Diaphysis

shaft of long bones

cuboidal epithelium

shaped like cubes

Synapomorphies

shared derived traits ; all members of a group have that trait

Microvilli

short, can move ; increases surface area ; line urinary & digestive tracts

excitable cells may secrete what due to an action potential? (9)

signaling molecule

describe the Brainstem & Visual Processing: - Special Senses - Vision

signals from the Lateral Geniculate Nuclei synapse in either - - SUPERIOR COLLICULUS -- controls subconscious eye, head, and neck movements associated with visual stimuli - Suprachiasmatic Nucelus of the HYPOTHALAMUS -- establishes the Circadian Rhythm

2 types of layering

simple epithelium & stratified epithelium

both limbs of the loop of Henry are made of?

simple squamous epithelium

structure of ducts

simple: no branching compound: repeating branches

amplification of sound occurs where?

sinus cavities

Mitochondria

site of ATP synthesis ; oxidative phosphorylation

external urethral sphincter?

skeletal muscle, voluntary/conscious control

Deep Lymphatics

skeletals muscles, neck, limbs, trunk, visceral organs

Amphiarthrosis (8)

slightly movable joint ex: between radius and ulna; between tibia and fibula; intervertebral discs

Renal system

slow pH regulation -retain or release H+ and HCO3-

Atrioventricular (AV) node

slows the electrical impulses when it arrives from the internodal pathways -interatrial septum near right atrium -delays signal to ventricle

Most enzymes function within ______ pH range

small

Canaliculi

small channels from osteocytes to bone capillaries

Diffusion through gaps between adjacent endothelial cells

small solutes; water; large solutes (in sinusoids)

Subpapillary plexus:

smaller blood vessels (#1)

nephrons are what in the kidney?

smallest functional unit of kidney

Cellular Level

smallest living unit ; have organelles

what is the GI tract made of?

smooth muscle * longitudinal muscle and circular muscle *

What is the detrusor muscle in the bladder?

smooth muscle in wall of bladder

Diffusion through pores

solutes; water

Purkinje fibers

specialised conducting fibers composed of electrically excitable cells that conduct cardiac action potentials more quickly and efficiently than any other cells in the heart

Conductive pathway

specialized noncontracting cardiac muscle

Nuerons

specialized to conduct electrical signals (action potential); longest cells in the body , incapable of cell reproduction

Spermiogenesis

spermatids mature to form physically mature sperm cells - during this stage, spermatids are embedded in nurse cells - upon maturation, sperm cells enter into lumen of seminiferous tubules - not yet "activated"

epididymis stores what?

spermatozoa for further maturation - takes 2 weeks to pass through epididymis

appendicular musculature (10)

stabilize/move appendicular skeleton

nurse cells are stimulated by and support what?

stimulated by testosterone and follicle-stimulating hormone and support spermatogenesis and spermiogensis

function of gallbladder

stores and concentrates bile

extension (8)

straightening at the joint so that the angle between the bones is increased

vagina is lined with?

stratified squamous epithelium and when relaxed, forms rugae

Epidermal layers of the skin

stratum corneum, stratum lucidum, stratum granulosum, stratum spinosum, & stratum basale

muscle spindles (9)

stretch receptors in muscles, role in tone and growth

erectile tissue?

stretchy sponge like tissue that engorges with blood to increase in size and become rigid - 2 posterior corpora cavernosa - 1 anterior corpus spongiosum = urethra passes through this portion

Reticular fibers

structural mesh within organs

Cytology

study of microscopic structures of cells & tissues

excessive UV can result in ...

sunburn , skin cancer, & damage to fibrocytes (premature wrinkling & abnormal connective tissue "leathery" skin)

The Skin is ___________ to underlying structures

superficial

adrenal glands are ________ to each kidney?

superior

left kidney is ________ to the right?

superior

Base

superior border of heart

sagittal plane (8)

superior inferior axis; vertical division of the body into right and left portions

intrinsic tongue muscles

superior longitudinal, inferior longitudinal, transverse, vertical **movements associated with speech; finer movement

mesangial cells?

support the entire glomerular network and lie between capillaries; mesenchymal origin

appendicular muscles in the back of body (10)

support, move, and brace limbs

appendicular muscles in the front of body (10)

support, move, and brace limbs

Neuroglia

supporting cells of neural tissue; can divide

spermatic cords?

supporting each testicle and encasing the vas/ductus deferens, nerves, lymphatic tissue and cremaster muscles

mesovarium

supports ovary

A=

surface area for diffusion

Serous pericardium

surrounds heart -inner layer of pericardium -secreted pericardial fluid

Fibrous Pericardium

surrounds heart -outer layer of pericardium -attaches to diaphragm

high frequency stretch signals also decrease what?

sympathetic activity -internal urethral sphincter relaxes

Anabolism

synthesis of complex molecules ( making muscle & fat )

Ribosomes

synthesis proteins using RNA template

Medulla

t cells that remain inactive until they enter circulation

flagella of sperm?

tail

what is ingestion?

taking food into the mouth

joints in foot (8)

tarsometatarsal, metatarsophalangeal, and interphalangeal joints

scrotum (male)

testis and epididymis

juxtaglomerular complex?

the DCT comes up next to the vascular pole of the renal corpuscle; a collection of cells surround this area including smooth muscle cells; function is to control the diameter of the afferent arteriole thereby controlling BP inside the glomerulus

Glomerular Filtration Rate (GFR) with diagram

the amount of filtrate formed per minute by the two kidneys combined

muscle twitch (9)

the response of a muscle to a single brief threshold stimulus

Sarcomere (9)

the smallest contractile unit of muscle; extends from one Z disc to the next

muscle tone (9)

the state of balanced muscle tension that makes normal posture, coordination, and movement possible

mesosalpinx

the upper portion of the broad ligament that encloses the fallopian tubes

adjacent stroll cells become what?

thecae endocrine cells, which surround granulosa cells

sliding filament theory (9)

theory that actin filaments slide toward each other during muscle contraction, while the myosin filaments are still

brown fat

thermogenesis

Blood flow regulated

thermoregulation & flow to other tissues of body

ascending limb of loop of henle

thick segment moves ions out into interstitial spaces for reabsorption, IMPERMEABLE to water

Ground substance

thick syrupy consistency; mix of proteins & carbohydrates

Skin Color

thickness of stratum corneum ; thick skin is lighter in color

simple squamous epithelium

thin delicate layer; lining body cavities, heart, & blood vessels ; alveoli

vestibular ligaments and vocal ligaments

vestibular ligaments protects vocal ligaments and the vocal ligaments are involved with making noises

the colon lacks?

villi

Vasculature and blood pressure are controlled by what?

visceral reflexes and/or hormones

vocal fold = ?

vocal cord

what is alveolar dead space?

volume of alveoli where no gas exchange takes place

what is anatomical dead space?

volume of non-gas exchange surface in the respiratory system (trachea, bronchi, bronchioles)

external genitalia of female

vulva (region enclosing external genitalia), vestibule (opening into vagina by labia minora), clitoris (erectile tissue and is covered by prepuce), and lib majora/mons pubis (forms lateral and superior edges of vestibule)

langerhans cells

wandering macrophages

Vesicular transport

water; targeted molecules (bound & unbound)

serous

watery fluid & enzymes

Fluid Connective Tissue

watery matrix of dissolved proteins

Matrix

watery mixture of dissolved proteins ; extracellular component of protein fibers & "ground substance" (fluid portion); Matrix of is calcified

first urge to urinate is?

~ 200 mL

knee ligaments prevent (8)

•Hyperextension or Hyperflexion •EXTENSIVE Add / Abd Allow Locking / unlocking knee •Stand for long periods

In the figure above letter "___" is the Golgi apparatus and letter "___" is the Mitochondrion. A. I; H B. O; N C. O; H D. I; N

A. I; H

Serous Membranes

provide lubrication to organs

naming skeletal muscles (9)

* specific body regions/location * shape of muscle * orientation of muscle fibers * specific/unusual features * origin AND insertion site * primary function * references to occupational/habitual action

Collagen fibers

provide tensile strength

Fibers of Connective Tissue Proper

Collagen fibers, Reticular fibers & Elastic fibers

Organ Level

Combination of tissues

Organ System Level

Combination of various organs

Osseous tissue types

Compact bone & Spongey Bone

Pelvic Cavity

Contains urinary bladder, reproductive organs, and rectum

functions of large intestine

*Reabsorption of water *Compaction of intestinal contents into feces *Absorption of important vitamins produced by bacteria *Storage of fecal material prior to defecation

Ovary

13

Vagus nerve

13

renal pyramid

13

temporal lobe

13

Mammillary body

14

Pineal gland

14

fimbrae of uterine tube

14

hypoglossal nerve

14

renal papilla

14

Cervix

15

accessory nerve

15

corpora quadrigemina

15

Pons

16

Vagina

16

Abducens nerve

17

fourth ventricle

17

hypoglossal nerve

18

glossopharyngeal nerve

19

Midbrain

2

Retina

2

Urethra

2

pineal gland

2

renal pelvis

2

round ligament

2

septum pellucidum

2

urinary bladder

2

pupil

2 L and R

What determines blood flow?

Contracting or relaxing smooth muscle

Muscles of the Face and Mouth (10)

* orbicular oris = opens and clothes the mouth * buccinator = sucking * orbicularis oculi = closes the eyelids ; "winking"

circular muscles (9)

* regulate opening and closing of an orifice * can be found in sphincters * some are active until relaxed

pennate muscles (9)

* shortest contraction distance * produce more force than parallel due to HIGHER fiber * tendons go DEEP into the muscle

Epicardium

External surface -visceral pericardium

Apex

F

Carina of trachea

F

Dorsum of tongue

F

cell adhesion molecules

" Velcro " ; mechanically link cell to extracellular material

Hemidesmosome

" sewn " ; allows cells to stick together to form tissues

Areolar Tissue

" stuffing " of body

what are tracheal rings?

"C" shaped hyaline cartilage

what is capacitation for sperm?

"activation", enables their motility and ability to fertilize an egg; happens outside of epididymis

Somatic

"body cells"

Pinocytosis

"cell drinking" ; in which the cell ingests extracellular fluid and its dissolved solutes

Pagocytosis

"cell eating" ; the movement of solids into a cell with the membrane

Epiphyseal Line

"growth line"

Organelles

"organs" of cell

elastic tissue

"rubbery" ; springy & resilient

Gametes

"sex cells" - sperm - Oocyte

Tight Junctions

"staples" ; water proof junction ; prevent the diffusion of fluids & solutes between the cells

Gap Junctions

"straws" ; permit the free diffusion of ions & small molecules between 2 cells ; tubes running from cell to cell allows cells to run from one to the other

reticular tissue

"structural sponge " ; matrix is stiffest of loose CT

Heart Rate

# of heart contractions per unit time

Hematocrit

% of blood sample volume made of erythrocytes

Spongey Bone

( trabecular bone) - Open network of plates - multidirectional or light strain - Surrounds medullary cavity (open space) - has extensive cross- bracing - supports marrow - trabeculae are oriented along stress lines A in the picture

semen release and ejaculation

* Emission: Sperm mixed with semen by peristaltic actions of smooth muscle in : -Ductus deferens -Seminal glands -Prostate -Bulbo-urethral glands * Ejaculation: powerful contractions of skeletal muscles push semen toward external urethral orifice

secretory phase of uterine cycle

* Progestins & estrogen stimulate endometrial glands to grow & secrete * Functional layer is now ready for a fertilized egg to implant

convergent muscles (9)

* not as strong as parallel muscles and direction of tension can vary

Pyloric sphincter

F

Root of tongue

F

what happens in the respiratory system?

*gas exchange between air and blood *moves air to and from exchange surfaces of the lungs *protects respiratory surfaces from dehydration and keeps them moist *produces sound involved in verbal communication *assists in regulation of blood volume, BP and body fluid pH

what excitable cells have APs? (9)

*muscle *sensory cells *neurons *some endocrine cells

mechanical digestion diagram

*no propulsion, only circular

abdominal muscles (10)

*on test*

urogenital triangle (10)

*open and closes the urethra *supports engorgement of erectile tissue *ejaculation *tighten vaginal opening

skeletal muscle purpose (9)

*produce movement *maintain posture *support soft tissue *regulate entering and exiting of material; found in some sphincters *maintain body temp; shivering - thermogenesis

anatomical pulleys (9)

*redirect tension!! *boney structures that change the direction of applied forces

anal triangle (10)

*supports pelvic floor *open/close anus

medial and lateral menisci (8)

*the shock absorbers of the knee found between the condyles of the upper and lower leg bones *lateral stability *increase surface area of the joint *changes shape to support articular surface

list the Spinal Nerves:

- 31 PAIRS of Spinal Nerves - - 8 Cervical Nerves - 12 Thoracic Nerves - 5 Lumbar Nerves - 5 Sacral Nerves - 1 Coccygeal Nerves

describe the components of the Spinal Cord:

- 31 Spinal Segments - Dorsal Roots - Dorsal Root Ganglia - Ventral Root - Spinal Nerve - mixed nerves consisting of Afferent Fibers AND Efferent Fibers

describe the REPAIR of Neurons:

- ADULT NEURONS DO NOT DIVIDE - Individual Neurons - CAN repair themselves - repair is VERY limited in the Central Nervous System due to - A) Generate Scar Tissue - limiting Axon Re-Growth B) can Secrete Chemicals that impede Axon Re-Growth

describe Action Potential in Neurons:

- Action Potential - the rapid change in Membrane POTENTIAL ever the surface of the cell - Axon Propagation - the Action Potential will travel the length of the Axon - Speed is determined by - 1. MYELINATION 2. Thickness of Axons - a neuron allows action potential to occur very rapidly across a nerve cell! - Myelination allows small axons to have the same Conduction Velocity as Un-Myleinated Axons, up to 125x THICKER - SALTATORY CONDUCTION

describe Adaptation:

- Adaptation - reduction in sensitivity, due to a constant stimulus 1. Peripheral Adaptation A) Fast-Adapting Receptors - respond strongly at first and then decline - PHASIC - "on / off" ; odor, temp, and touch B) Slow-Adapting Receptors - show little to no adaptation - TONIC - intensity ; pressure & light 2. Central Adaptation - within the CNS - initial conscious awareness of a stimulus that quickly disappears

describe MOTION in the Semicircular Ducts: - Special Senses - Hearing & Equilibrium

- Anterior = "YES" - Lateral = "NO" - Posterior = HEAD TILT - each Semicircular Duct senses Motion in a particular axis! -- endolymph movement along the length of the duct moves the ampullary cupula and stimulates the hair cells

mammary glands located within fat pads of each breast

- Apocrine cells in lobules secrete milk into ducts; apocrine secretion - Lactiferous ducts expand to lactiferous sinuses near nipple

describe the flow of blood through the Brain:

- Arterial Blood Supply via Internal Carotid Arteries and Vertebral Arteries - how the blood receives blood - Venous Blood leaves the brain mostly via Internal Jugular Veins - Astrocytes - wrap capillaries in the Central Nervous System

describe the Vestibulocochlear Nerves: - Cranial Nerves

- Balance and Hearing (sensory) - Receptors of the Vestibule and Cochlea (origin) - consists of the Vestibular Nerve AND the Cochlear Nerve - A) Vestibular Nerve - axons travel to the vestibular nuclei of the medulla oblongata B) Cochlear Nerve - axons synapse in the cochlear nuclei of the medulla oblongata

definition of Neuroglia:

- CAN divide - Supporting Cells - FUNCTIONS of Neuroglia - -- Protect, Regulate, Repair, and Enable Neurons - supporting cells that interact with neurons to regulate the extracellular environment, defend against pathogens, and repair the nervous tissue

describe the FUNCTIONS of Motor Neurons:

- CNS TO PERIPHERY - Efferent 1. Somatic Nervous System / SNS - consists of Somatic Motor Neurons - efferent fibers to skeletal muscles 2. Autonomic Nervous System / ANS - consists of Motor Neurons - also consists of Pre-Ganglionic Fibers and Post-Ganglionic Fibers

describe the CIRCULATION of Cerebrospinal Fluid:

- CSF is formed from the Choroid Plexus of the Lateral Ventricles, the Third Ventricle, and the Fourth Ventricle - CSF eventually enters the Venous Return via ARACHNOID GRANULATIONS 1. CSF enters the Subarachnoid Space via the Lateral Aperture and the Median Aperture 2. CSF travels through the CNS 3. CSF eventually enters Venous Return via Arachnoid Granulations 4. then CSF drains into the Dural Sinuses

What all dose the plasma membrane do?

- Cell to cell communication, structural support, adhesion - Regulates exchange w/ extra cellular fluid - Physical barrier - senses extracellular stimuli

Autonomic Centers of the _____ have a direct connection to the Adrenal _____, where Epinephrine and Norepinephrine are released - Chapter 19 Quiz

1. Hypothalamus 2. Medulla

1. ____ Transduction is very rapid, and it is where the stimulus directly opens an ion channel 2. ____ receives stimuli from inside the body - one example are ____ that sense the stretching of organs due to pressure - Chapter 18 Quiz

1. Ionotropic 2. Enteroceptors 3. Baroreceptors

describe the Ventricles in the Brain:

1. Lateral Ventricles / Ventricles 1 and 2 - separated by the Septum Pellucidum - main portion in the Parietal Lobes - Anterior Horn - Frontal Lobe - Posterior Horn - Occipital Lobe - Inferior Horn - Temporal Lobe - connects tp the Third Ventricle via the Interventricular Foramen 2. Third Ventricle - connects to the Fourth Ventricle through the Cerebral Aqueduct of the Midbrain 3. Fourth Ventricle - connects to the central canal of the Spinal Cord - Numerous Foramina - root of the fourth ventricle and connects with the subarachnoid space of the brain / spinal cord - where CSF leaves!

1. Accommodation is when the shape of the ___ is changed to focus an image onto the retina 2. the ____ is the fluid found in the posterior cavity of the eye - Chapter 18 Quiz

1. Lens 2. Vitreous Humor

1. the Ultricle and Saccule both have ___ that contain hair cells that are attached to Otoliths 2. the Anterior Semicircular Duct senses motion when you use your head to ____ - Chapter 18 Quiz

1. Maculae 2. "say Yes"

1. the ventral portion of Spinal Gray Matter contains ___ Nuclei 2. in Spinal White Matter, ascending tracts relay ____ information - Chapter 14 Quiz

1. Motor 2. Sensory

Types of Nodules

1. Mucosa-associated lymphoid tissue (MALT 2. Tonsils 3. Aggregated lymphoid nodules

Steps for muscle contraction (9)

1. Neuron action potential arrives at end of motor neuron 2. ACH is released 3.ACh binds to receptors on motor end plate 4.Permeability of sarcolemma changes (Na rushes in)(an action potential is produced) 5.Muscle action potential sweeps into the T tubules triggering 6.release of Ca from the cisternae of the sarcoplasmic reticulum 7.CA binds to troponin 8.Troponin changes shape and shifts tropomyosin to expose binding sites of actin 9.myosin binds to actin (cross bridge is formend)(ADP released from myosin) 10.Myosin head pivots (pulling actin) 11.Myosin releases from actin (cross bridge is broken)(another ATP binds to myosin) 12.Myosin re-extends into "ready" position (ATP->ADP+Pi)(ADP is bound to myosin)

describe the COMPONENTS of the Olfactory Epithelium: - Special Senses - Smell

1. Olfactory Sensory Neurons - interacts with odorants 2. Supporting Cells - metabolic & physical support 3. Basal Epithelial Cells - stem cells 4. Developing Sensory Neurons - Receptors CAN BE REPLACED 5. Olfactory Glands - produce Mucus

1. sound waves enter Cochlea via the _____ 2. the Hair Cells that will sense the sound waves are activated by ____ - Chapter 18 Quiz

1. Oval Window 2. Ionotropic Transduction

1. the ___ matter is the meningeal layer that contains blood vessels 2. the ___ matter is the meningeal layer that forms a mesh of connective tissue that creates a space where cerebrospinal fluid flows through - Chapter 14 Quiz

1. Pia 2. Arachnoid

Different types of B Cells

1. Plasma cells: produce antibodies that react with antigens 2. Memory B cells: become activated if the same antigen reappears

TRUE statements: - Chapter 18 Quiz

1. Polymodal Sensors can detect multiple types of stimuli 2. Bitter Taste Receptors use Metabotropic Transduction 3. Cone Photoreceptors sense color 4. the Medial Retinal Signal from the left eye is sent to the right cerebral hemisphere 5. Small Receptive Fields have high acuity

describe the Pathway of Sound / Hearing: - Special Senses - Hearing & Equilibrium

1. stimulation of Hair Cells at a specific location along the Basilar Membrane activates Sensory Neurons 2. Sensory Neurons carry the sound info in the Cochlear Nerve to the Cochlear Nuclei 3. info ascends from each Cochlear Nucleus to the Superior Olivary Nuclei of the Pons and the Inferior Colliculi of the Midbrain 4. the Inferior Colliculi direct a variety of Unconscious Motor Responses to sounds 5. ascending sound info goes to the Medial Geniculate Nucleus 6. Projection Fibers then deliver the info to specific locations within the Auditory Cortex of the Temporal Lobe

Afferent Arterioles

10

Cerebellum

10

Testes

10

cochlea

10

facial nerve

10

labium minus

10

Vestibulocochlear nerve

11

bulbourethral gland

11

fornix

11

labium majus

11

stapes

11

How many organ systems are humans composed of ?

11 organ systems

Efferent Arterioles

12

Malleus

12

Olfactory Bulbs

12

ductus deferens

12

glossopharyngeal nerve

12

infundibulum of uterine tube

12

spermatic cord

12

Lifespan of erythrocytes

120 days

prostate gland?

A gland in males that contributes to the seminal fluid.

Actin (9)

A globular protein that links into chains, two of which twist helically about each other, forming microfilaments in muscle and other contractile elements in cells.

skeletal muscle (9)

A muscle that is attached to the bones of the skeleton and provides the force that moves the bones. *multinucleated *pulls on bones *voluntary/reflex arcs *hypertrophy

vagina?

A muscular, elastic passageway that extends from the uterus to the outside of the body

bulbourethral glands

A pair of exocrine glands near the male urethra. They secrete fluid into the urethra. Also called Cowper glands - contents empty into spongy urethra

Tropomyosin (9)

A protein of muscle that forms a complex with troponin regulating the interaction of actin and myosin in muscular contraction

Troponin (9)

A protein of muscle that together with tropomyosin forms a regulatory protein complex controlling the interaction of actin and myosin and that when combined with calcium ions permits muscular contraction

what is urine?

A watery fluid produced by the kidneys that contains urea and other wastes

Which of the following statements are true: A. All of the listed statements are false. B. Cartilage is capable of extensive repair after severe damage. C. Areolar tissue acts as a site for energy storage. D. Plasma is the portion of lymph that acts as the matrix for this tissue type. E. The matrix of bone is a mixture of calcium salts and elastin fibers.

A. All of the listed statements are false.

What are organelles subdivided into ?

Nonmembranous organelles & Membranous organelles

pancreas

An organs in the abdominal cavity with two roles. The first is an exocrine role: to produce digestive enzymes and bicarbonate, which are delivered to the small intestine via the pancreatic duct. The second is an endocrine role: to secrete insulin and glucagon into the bloodstream to help regulate blood glucose levels.

Comparative Anatomy

Anatomical similarities & differences between types of animals typically vertebrates

Tarsal

Ankle

Fontal Plane

Anterior & Posterior

Pubic

Anterior Pelvis

which of the following hormones is NOT produced by the Anterior Pituitary Gland?: - Chapter 19 Quiz A) Thyroid-Stimulating Hormone B) Growth Hormone C) Prolactin D) Follicle-Stimulating Hormone E) Luteinizing Hormone F) Antidiuretic Hormone

Antidiuretic Hormone - produced by the POSTERIOR Pituitary Gland produced by the Anterior Pituitary Gland - A) Thyroid-Stimulating Hormone B) Growth Hormone C) Prolactin D) Follicle-Stimulating Hormone E) Luteinizing Hormone

Ligand

Any substance that binds to the enzyme or protein

sternoclavicular joint (8)

Articulation between the clavicle and the sternum *only joint for axial/upper appendicular 2 synovial cavities 2 plane joints!!!

Intrinsic muscles of the hand (11)

Assist flexors and extensors of the forearm ; Assist in making finger movements precise.

Superficial

At, near, or relatively close to the body surface

deep

Away from the body surface; more internal

Cuneiform cartilage

B

Inferior lobe

B

Larynx

B

Longitudinal muscle layer

B

Molars

B

Palatoglossal arch

B

Thrombocyte

B

Antibody-mediated immunity

B cells generate antibodies that tag specific antigens

Which tissue type is not correctly paired with its function. A. Serous membrane: lubricate organs B. All of the pairings listed are correct C. Adipose: energy storage D. Neural: transmit information E. Dense regular connective: high tensile strength which works with muscles to move limbs

B. All of the pairings listed are correct

Which of the following pairs of tissue types have the ability to repair themselves after major damage? A. Bone & Elastic cartilage B. Bone & Smooth muscle C. Cardiac muscle & Smooth muscle D. Elastic cartilage & Smooth muscle E. Neurons & Cardiac muscle

B. Bone & Smooth muscle

Which organelle is not properly paired with its function: A. Golgi apparatus: renewal of the plasma membrane B. Flagella: increase surface area C. Nucleus: stores genetic information D Peroxisomes: neutralize toxic compounds E. Lysosome: digest foreign materials F. Mitochondria: ATP synthesis

B. Flagella: increase surface area

Thoracic

Chest

Proximal

Closer to the point of attachment

Hemostasis

Blood clotting

Dermal Blood Supply

Blushing , overheating : red color hemoglobin Pallor: anemia , drop in BP Bruise : hematoma in skin

B cells

Bone marrow-derived cells -produce plasma cells that secrete antibodies -library of immunity -originate & become immunocompetent in bone marrow -mature B cells enter bloodstream & migrate to peripheral tissues

Gluteal

Buttock

Canines

C

Circular muscle layer

C

Eosinophil

C

Middle lobe

C

Opening of parotid duct

C

Trachea

C

Vestibular fold

C

Nails provide protection to the tips of the _______ phalanges. Humans use deodorant to the mask the smells generated by their _______ glands. A. Proximal; Apocrine B. Distal; Eccrine C. Distal; Apocrine D. Proximal; Eccrine

C. Distal; Apocrine

Your fingertips are _______ to your wrist and your nose is ________ to your ears. A. Proximal; medial B. Proximal; lateral C. Distal; medial D. Distal; lateral

C. Distal; medial

Proximal

Closer to the point of attachment to trunk

has a double - layered membrane

Nucleus & Mitochondria

Sural

Calf

Myocardium

Cardiac tissue -including cardiac muscle cells, connective tissue, blood vessels, & nerves

Clinical Anatomy

Changes during illnesses

Developmental Anatomy

Changes over time

frontal plane

Divides the body into front and back portions.

reproductive tract?

Ducts that receive, store, and transport gametes

Subpapillary layer

Due to location of vessels: - Hypodermic needles - Subcutaneous injections - Hypodermis (subcutaneous) layer is deep to dermis - Not technically considered a part of integument - Helps stabilize integument

Cheek

E

Epiglottis

E

Lesser curvature

E

Tracheal cartilages

E

Plasma membranes engage in all of the following functions except: A. Cell to cell communication B. Cell adhesion C. Cell structural support D. Regulating exchange with extracellular fluid E. All of the choices listed are functions of the plasma membrane F. Sense extracellular stimuli

E. All of the choices listed are functions of the plasma membrane

Choose the option that correctly pairs each organ system with a main homeostatic function: A. Lymphatic: water balance; Skeletal: support; Integument: sensory B. Cardiovascular: pH balance; Skeletal: protection; Digestion: water absorption C. Lymphatic: immunity; Nervous: relay information; Integument: thermoregulation D. None of the sets shown are correct. E. Lymphatic: water balance; Cardiovascular: gas transport; Skeletal: support

E. Lymphatic: water balance; Cardiovascular: gas transport; Skeletal: support

For the image above select the group of terms that correctly identifies each tissue: A.) A: Stratified Cuboidal; B: Skeletal Muscle, C: Areolar B.) A: Stratified Columnar; B: Smooth Muscle, C: Areolar C.) A: Stratified Cuboidal; B: Smooth Muscle, C: Adipose D.) A: Stratified Columnar; B: Skeletal Muscle, C: Adipose E.) A: Stratified Columnar; B: Smooth Muscle, C: Adipose

E.) A: Stratified Columnar; B: Smooth Muscle, C: Adipose

describe the Peripheral Nerves:

EACH PERIPHERAL NERVE - 1. Epineurium - OUTER layer that becomes continuous with the Dura Mater 2. Perineurium - layer surrounding a Fascicle / Fascicules - bundle of axons - STRONGEST layer 3. Endoneurium - layer surrounding a SINGLE axon

describe the Endocrine System:

Endocrine System - produces LONG-TERM, general responses that may have MULTIPLE target organs, tissues, or cells - uses HORMONES - compounds emitted into the blood stream -- hormones bind to target cells that have receptors specific to that hormone! -- the binding of the hormone elicits a response - the Nervous System AND the Endocrine System work together to maintain Homeostasis - Nervous System - produces SHORT-TERM, very SPECIFIC responses with specific target organs, tissues, or cells

Veins

Enter heart -carries blood to

Mechanisms of Glandular Secretion

Exocytosis, Can be continuous, Fastest secretion rate

spongy urethra (penile urethra)

Extends through the penis to the external urethral orifice

Superior

Higher on the body, nearer to the head

annular and quadrate ligament (8)

Hold the head of the radius in position

What are the uterine tubes?

Hollow muscular tubes that transport oocyte from ovary to uterus.

What maintains pH in normal range?

Homeostatic mechanisms

skeletal muscle tissue

Hypertrophy not hyperplasia via myosatellites; multinucleate ; voluntary or reflex arcs

What are the 3 parts of Growth & Development ?

Hypertrophy, Hyperplasia , and Differentiation

hypertrophy vs hyperplasia (9)

Hypertrophy: bigger cell (more cellular proteins). Hyperplasia: more number of cells.

Base

I

Oral vestibule

I

Pylorus

I

Superior lobar bronchus

I

parallel muscles = when contracting, they ______ in diameter (9)

INCREASE

Nodule vs Node

Nodule: less organized than a node Node: very organized, acts as a filter for lymph

Cardia

N

Entrance to auditory tube

N

Root of left lung

N

describe Neurons in the CNS AND Neurons in the PNS:

NEURONS IN THE CNS - - Center - collection of Cell Bodies - Nucleus - center with a distinct boundary - White Matter - bundles of Axons -- tracts and columns NEURONS IN THE PNS - - Ganglia - bundles of Cell Bodies - Nerves - bundles of Axons

Immune surveillance

NK cells attack foreign & cancer cells

Are erythrocytes like normal cells?

NO -lack most organelles -anucleated (only cell in human body without nucleus) -no mitochondria (use anaerobic metabolism) -lacks ER & ribosomes (cannot repair or replicate)

epithelial tissue characteristics

NO INTERCELLULAR SPACE POLARITY - exposed apical surface - have an attached basal surface - apical / basal surfaces are structurally & functionally different

Are thrombocytes cells?

NO!

pseudostratified ciliated columnar epithelium

Nasal cavity, trachea, bronchi, Male repro tract; have cilia & actually simple epithelium

NK cells

Natural Killer cells -attack abnormal cells; immune surveillance -take out rogue cells -attack cancer cells

Cervical

Neck

2 types of Neural

Neuroglia & neurons

how is the synovial membrane different than other membranes ?

No basal lamina or reticular lamina & Has gaps between cells

Do capillaries function as individual units?

No! Capillaries are never alone

zygapophysial joints (facet joints) (8)

Plane synovial joints between the superior and inferior articular processes of the vertebral arches are?

Plasma vs. Interstitial Fluid

Plasma: - Higher oxygen - Lower carbon dioxide - Higher dissolved protein Interstitial Fluid - Lower oxygen - Higher carbon dioxide -Lower dissolved protein

Thrombocytes

Platelets; not true cells

Serous Membranes in Cavities

Pleural Cavity, Pericardial Cavity, & Peritoneal Cavity

Synovial membrane

Produces synovial fluid, reduces friction within joints; Different than other membranes

Nails

Provides protection for distal-most phalanges made of keratin -- Nail body covers nail bed Nail root: deep in dermis near bone

Greater curvature

Q

Palatine tonsil

Q

Oogenesis?

the production, growth, and maturation of an egg, or ovum

Glands in Skin

Sebaceous glands Sweat glands - Apocrine glands - Ceruminous glands - Mammary glands - Eccrine glands

Brachial

Segment of the upper limb closest to trunk ; the arm

accessory glands to semen?

Seminal glands (vesicles) Prostate Bulbo-urethral glands

what are nurse cells?

Sertoli cells

Skeletal System

Skeleton --- Axial: skull, spine, thoracic cavity --- Appendicular: limbs, pectoral girdle, pelvic girdle Cartilage Ligaments

Integumentary system is composed of:

Skin, Hair, Sweat glands, Sebaceous glands, & Mammary glands

Plantar

Sole region of foot

Connective Tissues (CT)

Specialized cells, Extracellular protein fibers

Surface Anatomy

Superficial anatomical markings & relationship to deeper structures

Transverse Plane

Superior & Inferior

Skeletal System Functions

Support: framework for attachment of other organs Movement / locomotion: muscles use bones as levers Storage of minerals: - Calcium ions - Phosphate ions Blood cell production: bone marrow produces erythrocytes, leukocytes, & platelets Protection - Ribs protect heart & lungs - Skull protects brain - Vertebrae protect spinal cord - Pelvic bones protect reproductive organs

What are the 3 parts of Gross Anatomy ( Macroscopic Anatomy )

Surface Anatomy , Clinical Anatomy & Surgical Anatomy

Thoracic Cavity

Surrounded by chest wall and diaphragm

Left Pleural Cavity

Surrounds the Left Lung

list the RESPONSES of the Sympathetic Division and the Parasympathetic Division:

Sympathetic Division - - "Fight OR Flight" Parasympathetic Division - - "Rest AND Digest"

Oropharynx

T

Femoral

Thigh

Parts of the juxtaglomerular complex

The juxtaglomerular apparatus consists of three cells: 1. macula densa, a part of the distal convoluted tubule of the same nephron 2. juxtaglomerular cells, which secrete renin 3. extra glomerular mesangial cells

large intestine

The last section of the digestive system, where water is absorbed from food and the remaining material is eliminated from the body

semen is?

The sperm and secretions of the seminal vesicles, prostate, and bulbourethral gland

Physiology

The study of how the body functions

glenohumeral joint (8)

The synovial *ball-and-socket* joint of the shoulder *greatest range of motion TRIAXIAL

minor calyx, major calyx, renal pelvis

The urine collecting system in the kidneys consists of these three structures.

podocytes?

These cells form a porous membrane surrounding the endothelial cells of the glomerulus. "Feet" form filtration slits

which of the following is NOT a Spinal Nerve Plexus?: - Chapter 14 Quiz A) Cervical Plexus B) Thoracic Plexus C) Lumbar Plexus D) Sacral Plexus E) Brachial Plexus

Thoracic Plexus options that ARE a Spinal Nerve Plexus - A) Cervical Plexus B) Lumbar Plexus C) Sacral Plexus D) Brachial Plexus

T cells

Thymus-dependent cells -enter tissues to directly attack pathogens -originate in bone marrow but travel to thymus gland & become immunocompetent (activated) by the thymus -mature t cells leave thymus & migrate to red bone marrow, spleen, & other lymphatic tissues

buccal phase

Tongue collects food compacts it and pushes it back to the oropharynx

Cranial or Cephalic

Toward the head

Deep

Toward the interior of the body ; further from the surface

Caudal

Toward the tail (coccyx)

What do the ureters do?

Transport urine to the urinary bladder, where urine is stored before urination through the urethra to the outside.

Active Transport uses ATP to move solutes concentration gradient ; push uphill : T or F

True

All channel proteins are integral proteins but not all integral proteins are channel proteins : T or F

True

All discussion of anatomy is in reference to anatomical position : T or F

True

All organ systems have multiple homeostatic functions that can overlap, but each has unique primary function(s) for homeostasis (except for one) : T or F

True

Anatomy dictates physiology : T or F

True

Every single hair follicle on the body is a little tiny organ : T or F

True

Golgi & ER work to make products for in & out of cell : T or F

True

Int bone covered in endosteum : T or F

True

L/R based on specimen : T or F

True

Melanin shields nuclei from UV : T or F

True

Most ext. bone surfaces are covered with periosteum: T or F

True

Organelles are either membranous or non membranous : T or F

True

Osteoblast & osteoclast activity is equal in bones that aren't changing shape: T or F

True

Osteocytes in lacunae : T or F

True

Some channel proteins are gated & will open due to a ligand or stimulus : T or F

True

condylar joint (8)

a shallow ball-and-socket joint with limited mobility

muscle fiber (9)

a single muscle cell

What is the hepatic portal vein?

a vein conveying blood to the liver from the spleen, stomach, pancreas, and intestines.

muscle tissues - contractibility (9)

ability to shorten and exert tension

once the bladder has "completely voided", how much mL of urine is left?

about 10mL

Superior

above, at higher level (in the human body ,toward the head)

Reabsorption

absorption, transport, & use of oxygen

seminal fluid (semen)

activates and transports sperm cells - high concentration of fructose - prostaglandins = suppress female immune response - clotting factors = help semen initially stay in vagina

Inhalation is an _____ process.

active *it requires energy/ATP

Apocrine glands

active at puberty -- High density in armpit & areola -- Produce an odorous secretion -- Secretions can contain pheromones (mother/offspring bonding, kin recognition) Eccrine secretion

distal convoluted tubule (DCT) has?

active, regulated secretion of ions, acids and toxins. selective of Na & Ca ions! reabsorption of H2O.

Subpapillary layer consists of ...

adipose tissue & major blood vessels

somatic reflex arc (9)

affects muscles

Freckles

aggregations of melanin

Tension lines

collegen & elastic fibers organized in a parallel pattern

Auricles

anterior portion of both atria -expand to accommodate incoming blood

Ventral

anterior, front

transverse plane (horizontal plane) (8)

anterior-posterior axis; divides the body into upper and lower portions

what is dead space?

areas where air is conducted but does not contribute to gas exchange

what are liver lobules?

arrangement of hepatocytes, framed by 6 portal triads

what are baroreceptors used for in the respiratory system?

arterial stretch receptors

distal tibiofibular joint (8)

articulation between the distal fibula and the fibular notch of the tibia *fibrous syndesmosis

root of penis?

attaches the penis within the pelvic cavity

reflex arc (9)

automatic pathway that mediates a response to a stimulus

Lateral

away from the midline

Posterior

back of body

tidal volume < physiological dead space = ?

bad!

hip joint (8)

ball and socket joint

Femur joint (8)

ball and socket; fat pad absorbs shock

Hair Matrix

basal cells that divide to become hair

Hair Shape

based on follicle shape

flexion vs extension (8)

bending a body part (flexion) VS straightening of a body part (extension)

Flexion (8)

bending a joint to decrease the angle between two bones or two body parts

Collateral arteries

come together to form arterial anastomosis

Flagella

cell movement ; only found on sperm

Tissue Level

cells & some surrounding material

Pacemaker cells

cells in SA that will initiate an action potential on their own

Differentiation

cells with particular functions

lumen

center of duct/ tube

Bohr effect

changes in Hb (hemoglobin) O2 affinity due to pH changes -DECREASED pH = Hb releases O2 -INCREASED pH = Hb takes up O2

urine production is controlled mainly my auto regulation

changes in diameter of nephron arterioles, due to sympathetic autonomic system

Metabolism & Excretion

chemical reactions

Chemotaxis

chemical signals that attract leukocytes to infections

What are bile salts?

cholesterol derivatives that function in fat emulsification and absorption made I n the liver. it allows lipase to work and allows micelles to form and stay separate

Gel matrix made of ...

chondroitin sulfate

stomach musculature does what?

churns ingesta

urethra lining?

circular smooth muscle and mucous producing cells in epithelium

describe the types of the General Senses:

classification scheme is based on sensory location - 1. Exteroceptors - external environment 2. Proprioceptors - position of body 3. Interceptors - inside of the body types of stimulus - 1. Nociceptors - sensation of pain ; tissue damage 2. Thermoreceptors - changes in temp 3. Mechanoreceptors - physical distortion of cell membranes 4. Chemoreceptors - chemical composition of body fluids

Agglutination

clumping of RBCs & antibodies

cross bridge cycle step 4 (9)

cocking of the myosin head: attached ADP is hydrolyzed by myosin ATPase into ADP + Pi, bringing it back to a high-energy state

Z disc (line) (9)

coin-shaped sheet of proteins on midline of light I band that anchors thin filaments and connects myofibrils to one another *form endplates for each sarcomere *z-discs contract TOWARDS M-line

Coronary sinus

collects blood from cardiac veins -Right Atrium ONLY

Anticoagulant

compounds that prevent fibrin formation

renal pelvis (of kidney)

compromises most of renal sinuses, collects urine from major calyxes and empties to ureter

bones that form the wrist and hand and their joints (8)

condylar, hinge and plane joints

Chordae tendineae

connect cusps & papillary muscles

Connecting tubules and collecting duct in kidneys

connecting = DCT of each nephron empties filtrate to this collecting = several connecting tubules train into this tube ** BOTH will reabsorb water; secrete/reabsorb ions

fibrous layer of cartilage

connection to other structures

Bone Marrow

connective tissue in medullary cavity

vocal folds are sheets of what?

connective tissue that cover their respective ligaments

tunica albuginea

connective tissue that surrounds testes

Ring of connective tissue

connects to heart tissue; part of fibrous skeleton

Membrane transport

consists of Osmosis & Diffusion ; moves from high to low concentration

body (shaft) of penis?

consists of erectile tissue

Nucleus

consists of nuclear envelope (outside) & nucleoplasm (inside)

tracheal muscle

constricts rings; posterior "gap" in the rings

Visceral peritoneum

contact with abdominal organs

visceral layer of serous pericardium

contact with heart

Visceral pleura

contact with lungs

secretions of bulbourethral glands

contain a mucus like fluid which helps to neutralize remaining urinary acids in the urethra and/or vagina -provides lubrication for tip of penis

Nuclear envelope

contain nuclear pores

Nucleoplasm

contain nucleoli & chromatin

head of sperm?

contains DNA and chromosomes - acrosome = filled w/ enzymes used in fertilization

Pericardial cavity

contains Visceral layer of serous pericardium & parietal layer of serous pericardium

Abdominal Cavity

contains many digestive glands and organs

middle piece of sperm?

contains mitochondria that make ATP for locomotion of the sperm

kidney in the urinary system

contains nephrons and produces urine

Sinoatrial (SA) node

contains pacemaker cells that initiate the electrical impulse that results in a heartbeat -top of Right atrium -initiates conduction pathway

Pleural cavity

contains the Visceral pleura & Parietal pleura

Abdominopelvic Cavity

contains the peritoneal cavity

Mediastinum

contains the trachea , esophagus, and major vessels

Peritoneal cavity

contains visceral peritoneum & Parietal peritoneum

what is the adventitia of the uterine wall?

continuous w/ fibrous capsule and parietal peritoneum

muscle tissues - extensibility (9)

contract over a range of resting lengths

neural intervention serves to?

control vasoconstriction/vasodialation of arterioles, regulates renal blood flow and pressure, stimulate renin release AND stimulate water/sodium ion reabsorption

what is the dorsal respiratory group?

controls the diaphragm and external intercostals

what is amino acid transamination in the liver?

convert amino acids to different types and essential amino acids to non-essential amino acids

if pregnancy does not occur, corpus luteum decomposes and becomes?

corpus albicans

if no zygote implantation occurs, what happens?

corpus luteum degrades

cross bridge cycle step 3 (9)

cross bridge detachment: ATP attaches to myosin, breaking the cross bridge

cross bridge cycle step 1 (9)

cross bridge formation: phosphorylated myosin head attaches to an actin myofilament

Where are organelles found ?

cytoplasm

Where is the Cytosol found ?

cytoplasm

What gives the cell shape?

cytoskeleton

Cell-mediated immunity

cytotoxic T cells enter tissues & attack targeted cells

Dilation

decrease R = decrease MAP

The bone of the thigh is __________ to the surrounding skeletal muscles

deep

what is compaction?

dehydration and compaction of waste material. feces formation

Supporting Connective Tissue

dense matrix of fibers & may have insoluble calcium salts

P-wave

depolarization from SA node

muscles of the neck (10)

depress the mandible, move larynx, hyoid and head

Lacunae

depressions where osteocytes reside

the colon has what kind of cells?

goblet: large amount of mucin

Afferent

going towards a spot

Medial

going towards the midline

Distal

furthest from point of attachment to trunk

Erythrocytes (red blood cells)

gas transport

what happens in the third stage of breathing? (internal respiration)

gases flow into and out of the body tissues and are exchanged with circulatory system BLOOD GAINS CO2 & DUMPS O2

what happens in the second phase of breathing? (external respiration)

gasses diffused from air in lungs into the blood through alveoli and capillary beds. BLOOD GAINS O2 & DUMPS CO2

gastric folds = ?

gastric rugae

Intercellular connections

give epithelium strength & stability

Lymphatic stem cells

give rise to: -NK cells -T cells -B cells

Myeloid stem cells

give rise to: -neutrophils -basophils -eosinophils -macrophages -megakaryocytes -erythrocyte (basically every other cell)

seminal glands?

glands that produce up to 70% of the volume of semen; seminal vesicles

plane joint (gliding joint) (8)

gliding movement surfaces are flat or slightly convex surfaces glide over one another ex: intercarpal, intertarsal joints

renal corpuscle in kidney

glomerular capillaries and glomerular capsule

What is the renal corpuscle?

glomerulus and bowman's capsule and vascular pole

air passing through ____________ vibrates vocal folds and creates sound

glottis

Endocrine

into ECF then to blood stream or lymph; hormones

Cytosol

intracellular fluid of cell

urine storage and voiding reflexes involve?

involve the spinal cord and pontine centers of brain (in pons)

Visceral layer of serous pericardium

is the inner layer actually touching the heart

Parietal layer of serous pericardium

is the outer layer not actually touching the heart

Endocytosis

is the packing of extracellular materials into a vesicle ( a membrane- bound sac) for importation into the cell

Parts of the uterine tube

isthmus (connection to uterus), ampulla (typical site of fertilization), infundibulum (lined w/ cilia to move oocyte along), fimbriae (drapes ovary to "catch" oocyte) and uterine part (opens to uterus)

what is the ventral respiratory group?

it functions only during forced ventilation (accessory muscles)

fibulotalar joint (8)

joint between the lateral malleolus and the lateral edge of the talus *fibrous syndesmosis

tibiotalar joint (8)

joint between the tibia and the talus *main joint of ankle *bears body mass

monoaxial joint (8)

joint has one degree of freedom or axis of rotation Interphalangeal joint, elbow joint

synovial fluid (8)

joint-lubricating fluid secreted by the synovial membrane; nourishes chondrocytes of particular cartilages; acts as shock absorber

slightly intraplular press (Pip)

keeps lungs "inflated"

Epidermis includes...

keratinocytes, melanocytes, Merkel cells, & langerhans cells

muscles of mastication (chewing) (10)

masseter and temporalis * elevates the mandible * biting muscles

plasma

matrix

Osseous tissue

matrix of bone consists of: Hydroxyapatite crystals: mainly calcium phosphate will resist compression, but inflexible ( calcium phosphate makes up ~ 2/3 of bone mass ) Collegen fibers : - make up ~1/3 of bone mass - contribute to tensile strength of bones - imparts limited flexibility to matrix Bone Cells - contribute only 2 percent of bone mass

Connective Tissue Proper:

matrix of loose fibers & dense fibers

urinary system aids the liver with what?

metabolic functions: gluconeogenesis, transamination and deamination of amino acids

urinary system eliminates?

metabolic wastes: urea, uric acid and drugs

oblique and rectus muscles (10)

muscles that lie between the vertebral column and the ventral midline

What are the 3 apical surface structures ?

microvilli, stereo cilia, & cilia

Media

middle layer of blood vessel -smooth muscle; used in vasoconstriction & vasodilation

Lamellae (matrix):

mix of collagen fibers & calcium salts

sperm cells becomes motile when?

mixed with secretions from seminal glands

smooth muscle around terminal bronchioles does what?

modulates resistance to ventilation

hinge joint movement (8)

monoaxial

pivot joint movement (8)

monoaxial

plane joint movement (8)

monoaxial

joints can be? (8)

monoaxial, biaxial and triaxial

keratinocytes

most common cell ; produce keratin

elastic cartilage

most flexible

sympathetic nerve fibers are ____________ in kidney

most plentiful

Hormones

most work to regulate plasma Ca2+ levels

motor note (9)

motor neuron and muscle fibers it innervates

Muscles of the vertebral column (10)

move neck and head, ribs and move/stabilize the spine

production of distant sounds depends on what?

movement of lips, tongue and cheeks

Diffusion

movement of solutes

Osmosis

movement of water

Membrane Transport

moves form high to low

Blood

moves via cardiovascular system

lymph

moves via lymphatic system; Monitors for signs of infection; mainly lymphocytes (T & B cells), but some phagocytic cells

Efferent

moving away from a spot

What is saliva?

mucin based mixture that lubricates and buffers food

unicellular

mucins - mucous cells & goblet cells

mucous

mucins + water = mucus

what are gastric cells?

mucous (mucin), parietal (HCl), chief (pepsinogen) and enteroendocrine (hormones: gastrin)

mixed exocrine gland

multicellular glands ; mixed ( serous & mucous )

Osteoclasts

multinucleated cells

insertion of muscle (9)

muscle attachment point that moves *shaded blue*

origin of a muscle (9)

muscle end attached to the bone that does not move when the muscle contracts *shaded red*

the 3 types of Endocytosis

pinocytosis, phagocytosis, & receptor-mediated endocytosis

prostatic urethra (male)

passes through the prostate gland

membranous urethra (male)

passes through urogenital diaphragm

tidal exhalation is?

passive, does not use energy

external genitalia

penis and scrotum

secretion of inhibin?

peptide hormone that controls rate of sperm formation

luteal phase of ovarian cycle

period of corpus luteum activity (days 14-28)

bolus movement down esophagus via?

peristalsis

what moves the urine towards the urinary bladder?

peristaltic contractions and gravity

what is the stellate macrophages in liver?

phagocytic cells

stratified squamous epithelium functions

physical barrier; some surfaces keratinized; muscosal linings are nonkeratinized

melanocytes

pigment cells; produce melanin

Scrotum

pink

Cornea

pink arrow

Vagina

pink arrow

ora serrata

pink arrow

prepuce

pink arrow

tapetum lucidum

pink arrow

ureter

pink arrow

right ureter and urinary bladder

pink arrow (2 answers)

macula densa

pink box

peritubular capillaries

pink box

podocytes

pink box

renal cortex

pink box

The scapula (shoulder blade) is located __________ to the rib cage.

posterior

Dorsal

posterior, back

Metarterioles

precapillary sphincter

negative pressure breathing

pressure = 1/volume

maintenance of blood testis barrier?

prevent autoimmune destruction of sperm cells

Absorption

process of bringing material into body / into the bloodstream

Sinuses function

produce mucus, resonate sound, lighten skull and humidifies air

Osteoprogenitor Cells

produce osteoblasts

interstitial endocrine cells (Leydig cells)

produce testosterone; space between coils of seminiferous tubules

functions of the urinary system

produce urine, regulates plasma ion concentrations, blood volume, BP and blood pH, prevents loss of valuable nutrients

What does the liver do?

produces bile, regulates plasma nutrient levels, degradation of RBC's, inactivate toxins and store fat soluble vitamins

ovary

produces eggs

female reproductive system

produces eggs for reproduction and provides place for growing baby. * ovaries, uterine tubes, uterus, vagina, external genitalia (clitoris, labia minora/majora, breasts)

Osteoblasts

produces matrix immature bone cells - found on inner & outer surfaces of bones

what is the function of the reproductive system?

produces, stores, nourishes and transports gametes. males produce sperm and females produce oocytes

Red Marrow

production & storage of leukocytes, erythrocytes, & thrombocytes -in epiphysis or spaces between trabeculae

what is duodenal ampulla?

products from liver and pancreas

cells of corpus luteum produce?

progesterone - this is used to prepare body for pregnancy

decline in what starts a new cycle?

progesterone, estrogen and inhibin

what is the muscular layer of the GI tract?

propels ingesta and forms sphincters

stratified columnar epithelium functions

protection ; high activity areas

Elastic fibers

protein called elastin; "rubbery" ; lines vasculature

Acetylcholinesterase (9)

the enzyme that breaks down acetylcholine in the synaptic cleft *degrades ACh in synaptic cleft

pharyngeal phase

the epiglottis closes over the glottis and swallowing begins *involuntary

motor end plate (9)

the flattened end of a motor neuron that transmits neural impulses to a muscle *ACh binds

What is the micturition reflex?

the internal sphincter relaxes and the detrusor muscle contracts; URINATION

ileum?

the last and longest portion of the small intestine *some absorption, immune function and Peyer's patches

second class lever (9)

the load is between the fulcrum and the effort *CALF RAISES*

uterine cycle?

the monthly cycle of changes that the uterus undergoes to prepare for implantation of fertilized embryo

angular motion (8)

the motion of a body about a fixed point or fixed axis

jejunum?

the part of the small intestine between the duodenum and ileum *chemical/mechanical digestion, secretion of SI enzymes and major absorption site

cross bridge cycle step 2 (9)

the power stroke: 1) ADP and Pi are released from the myosin head 2) Myosin head changes to bend, low-energy state 3) Shape change pulls the actin towards the M line

Capillaries

thin vessels between arteries & veins; sites of exchange

teniae coli of the large intestine

three bands of longitudinal smooth muscle in muscularis

what happens in the first phase of breathing? (pulmonary ventilation)

tide-like movements of air into and out of the lungs

renal papillae in renal medulla

tips of pyramids where urine is excreted into calyxes and bands of cortical tissue between pyramids

(Respiratory) Alkalosis

too little CO2

(Respiratory) Acidosis

too much CO2

prepuce

top left arrow

what is inspiration capacity?

total air that can be inhaled

What is vital capacity?

total amount of exchangeable air

Cranial

toward the head

Medial

toward the midline

Caudal

toward the tail

Metaphysis

transition

Conducting cells

transmit contractile stimulus

Axon

transmits a signal; action potential

Albumins

transport fatty acids, steroid hormones, & thyroid hormones

urinary tract in the urinary system

transports and stores urine. urine is store in the bladder until urination

respiratory epithelium mucus in the respiratory defense system

traps inhaled debris. mucociliary escalator: moves debris upward toward pharynx. COUGHING/SWALLOWING will remove this debris

Stratified epithelium

two or more layers of cells; areas of mechanical or chemical stresses

type 1 alveolar cells vs type 2 alveolar cells

type 1 = sites of GAS exchange type 2 = produces surfactant

saddle joint (8)

type of joint found at the base of each thumb; allows grasping and rotation

Glandular epithelium is classified based on ...

type of secretion , structure of gland, & mode of secretion

excretion is?

ultimate voiding of filtrate as urine

collecting system

ultimately produces urine from filtrate

what is excretion?

unabsorbed ingesta, undigested food, metabolic waste, sloughed cells of GI lining and bacteria

proximal and distal radio-ulnar joints (8)

uniaxial syndesmosis allows for rotation NO synovial fluid

esophageal phase

upper esophageal sphincter opens and the bolus begins moving down the esophagus steps: opening of upper esophageal sphincter -> esophagus -> opening of lower esophageal sphincter -> stomach

where does urine enter bladder?

ureteral orifice

neural cells (9)

used for communication and signaling

Muscles of the Pharynx (10)

used in swallowing, move soft palate and the larynx

Connecting tubules and collecting duct

variable reabsorption of water and reabsorption or secretion of sodium, potassium, hydrogen, and bicarbonate ions

Alter Total Peripheral Resistance (TPR)

vasoconstriction / vasodilation of muscular arteries -vary resistance to flow leaving heart

Alter CO, Particularly SV

venoconstriction of medium veins -capacitance of venous system -increases volume of blood that shifts to arterial system

what is the respiratory rhythmicity center?

ventilatory pace and depth

QRS Complex

ventricular depolarization

T-wave

ventricular repolarization

Peroxisome

vesicle filled with "house keeping" enzymes ( oxidase & catalase )

Lysosomes

vesicle filled with digestive enzymes

Cross-reaction

when antibody meets specific antigen

GFR will be altered?

when the arteriole BP changes

Heme Units

where O2 and CO2 will bind to hemoglobin -hemoglobin has 4 heme units

blood air barrier

where gas exchange occurs between blood and alveolar air *alveolar cells *basement membrane *capillary endothelium

vascular pole of renal corpuscle

where the afferent and efferent arterioles enter and leave the renal corpuscle

esophageal hiatus

where the esophagus passes through the diaphragm

what is a joint? (8)

where two bones meet * fluid, cartilage or fibrous tissue

purpose of juxtaglomerular complex?

will alter arteriole BP and systemic BP - monitor arteriole BP - monitor DCT filtrate ion concentration

prostate gland

yellow

Carotene

yellow - orange ; dietary (can be converted into Vit. A)

Retina

yellow arrow

Sclera

yellow arrow

Testes

yellow arrow

ciliary body

yellow arrow

inguinal canal

yellow arrow

right adrenal gland

yellow arrow

urogenital opening

yellow arrow

major calyx

yellow box

penis

yellow box

Is the Peritoneal Cavity apart of the Abdominopelvic Cavity ?

yes


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