Anatomy - Semester 1 Final

Stratified squamose epithelium

+2 layers of square cells

Oxytocin

-Pituitary gland targets: Uterus causes: contraction

Adrenocorticotropic hormone (ACTH)

-Pituitary gland targets: adrenal cortex causes: release in mineral/glucocorticoids

Growth hormone (GH)

-Pituitary gland targets: bone/muscle causes: increases density of tissue

Antidiuretic hormone (ADH)

-Pituitary gland targets: kidneys causes: Na+/H2O retention in blood (pee lots)

Thyroid stimulating hormone (THS)

-Pituitary gland targets: thyroid causes: release in T3/T4 (metabolism)

Calcitonin

-Thyroid gland targets: kidneys -secreted when high calcium in blood

T3/T4

-Thyroid gland tells tissue to absorb glucose and convert to ATP

Natural killer cells

-makes pores in pathogen membrane -kill our own cells so infected cells cannot reproduce (Innate immunity)

Muscle fiber

-many nuclei -many mitocondria

Nasal cavity

-moist/warm inhale -dry/cool exhale -increased blood supply (vascularization)

Glucagon

-pancreas targets: liver causes: break down of glycogen releasing glucose (when BG is low)

Insulin

-pancreas targets: liver triggers: absorption of sugar (when BG is high)

Esophagus

-passageway from mouth to stomach - peristalsis allows travel

Rugae

-ridges in stomach -increases SA for nutrients absorption

Mineralocorticoids

-secreted by adrenal cortex -long term stress response targets: kidneys causes: retention of Na+ in blood and return H2O (blood pressure increases)

Glucocorticoids

-secreted by adrenal cortex -long term stress response targets: liver causes: fat to break down to sugar (glycogen - to - glucose)

Epinephrine

-secreted by adrenal medulla -fight or flight (short term stress response)

Melatonin

-secreted by pineal gland targets: brain causes: drowsiness

Simple cuboidal epithelium

1 layer of cube shaped cells

Simple squamose epithelium

1 layer of squished cells

Simple columnar epithelium

1 layer of tall skinny cells

Duodenum

1st region of small intestine -digests

Hair follicle

2 cells, keratinocytes and melanocytes

Papillary/Reticular layers

2 regions of dermis

Bronchi

2 tubes that reach out (one to the left and one to the right) from the trachea

Active transport

ATP moves substances against the concentration gradient

Cell extensions

Cilia and flagellum

Connective tissue

Function: connects, supports, binds and protects (ex. fat, cartilage, ligaments, bone, and blood)

Sweat

H2O, naci (waste), and antibacterial

Pepsin

HCI + Pepsinogen = active form of enzyme that digests protein

Peyer's patches

Lymphatic (WBC) in intestine

Passive transport

No energy; diffusion to osmosis

Ventricles

Pump blood out

Erythrocytes

RBC -carry O2 throughout body

Formed elements

RBC and WBC

Leukocytes

WBC

Microglia

WBC of CNS (neuroglia)

Diapedesis

WBC squeeze through vessels into tissue leaving blood stream (Innate immunity)

Superior/inferior

above/below

Lacteal

absorb lipids -extra screening in villi (SI)

Pancreas

active with sugar consumption (regulates Blood Glucose levels)

Neutrophil (Leukocyte)

acute infection (right now/short lasting)

Alveoli

air sacs in lungs off of bronchioles -wrapped in capillaries -increases SA for gas exchange

Tidal volume

amount of air in normal breath

Blood brain barrier

astrocytes

Chemotaxis

attraction of WBC to infection (Innate immunity)

Glomerulus

ball of capillaries -where non-cellular components/filtrate are forced out of blood

Bolus

ball of food

Perforating canal

big/horizontal; holds blood vessels

Central canal

big/vertical; holds blood vessels

B lymphocytes

bind directly to antigen -make mem cells -secrete antibodies (adaptive immunity)

T lymphocytes

bind to infected cells -destroy infected cells (adaptive immunity)

Astrocytes

blood brain barrier; wrap around capillaries (neuroglia)

Platelets (Leukocyte)

blood clots

Hemocytoblast

blood stem cells -inside red marrow (divide and create blood cells)

Homeostasis

bodies ability to maintain stable internal conditions even though outside is continuously changing

Osteocytes

bone cells; secretes calcium into GCM

Bronchiole

branches off 2 bronchi

Atrioventricular valve (AV)

btw atria and ventricles -prevents back flow

Esophageal sphincter

btw esophagus and stomach

External intercostals

btw ribs -contracts: widens (fills with air) -relaxes: narrows

Pyloric sphincter

btw stomach and small intestine

Semilunar valves

btw ventricles and vessels leaving ventricles

Myocardium

cardiac muscle of heart

Aorta

carries blood (oxygenated) from heart to body

Vena cava

carries blood from body to the heart

Pulmonary arteries

carry blood from heart to lungs

Pulmonary veins

carry blood from lungs to heart

Plasma membrane

cell membrane made up of phospholipid bilayer

Monocyte (Leukocyte)

chronic infection (long term)

Ependymal cells

circulate cerebrospinal fluid (csf) -ciliated (neuroglia)

Lymphatic vessels

circulate lymph

Proximal/distal

closer/farther from origin of attachment of limb to body trunk

Epiglottis

closes over trachea while swallowing

Fascicle

collection of myofibrils

Iris

colored pigment part of eye; controls pupil

Synapse

connection of nerve and muscle

Pericardium

connective tissue around the heart

Endocardium

connective tissue lining heart chambers

Periosteum

connective tissue; surrounds each bone

Systole

contraction

Tympanic membrane

converts sound waves into vibrations

Tropomyosin

covers spots on actin where myosin attaches (blocks myosin from pulling on actin)

Neurotransmitters

cross the synapse and relay message from brain to cell

Stratum Basale

deepest cell layer of epidermis/connects to dermis

Salivary amylase

digestion of carbs in mouth (chemical; first site of digestion of carbs)

Pancreatic amylase

digests carbs (in small intestine)

Lipase

digests fat (in small intestine)

Trypsin

digests protein (in small intestine)

Parietal pleura

directly against chest

Solvent

does the dissolving

Semicircular canals

dynamic equilibrium (horizontal spinning) -fluid in cupula spins and pulls hair cells (inner ear)

Bile

emulsifier; improves solubility of fat -helps lipase digest fat

Positive feedback

end result amplifies process; gets worse and worse (ex. giving birth contractions)

Negative feedback

end result of process stops process from occurring further

Epiphysis

ends of long bone

Glycogen

extra sugar storage in liver

Keratin

fills epidermis function: protects body from water loss

Kidney

filters waste out of blood and releases through urine

Reabsorption

filtrate going back into blood

Tubules

filtrate winds through nephrons through tubules

Cartilaginous joints

flexible; btw 2 bones (ex. vertebras and ribs)

Cupula

fluid in semicircular canals (inner ear); detect spinning

Antigen

foreign/antigen receptors they don't recognize

Oligodendrocytes

forms CNS myelin sheath (neuroglia)

Schwann cells

forms PNS myelin sheath (neuroglia)

Cerebrospinal fluid

found in subarachnoid space

Secretion

from blood into filtrate -eventually peed out

GI tract

function: digestion/absorption -tube connecting mouth to anus -gastrointestinal

Nephron

functioning unit of kidney (1 mil in each kidney)

Sarcomere

functioning unit of muscle

Acid chyme

gastric juice + food = all digested food

Parietal cells

gastric pit cell -secrete hydrochloric acid (HCI)

Mucus cells

gastric pit cell -secrete mucus

Chief cells

gastric pit cell -secrete pepsinogen (inactive enzyme to digest protein)

Troponin

gate keeper

Pituitary gland

gland in brain; secretes many hormones

Parathyroid gland

gland in neck; controls blood Calcium levels

Arrector pilus

goosebumps; when cold, pulls on hair follicle (thermoregulation, but vestigial in humans)

Epiphyseal line/plate

growth plate, hardens when growth stops

Myocardial infarction

heart attack -blockage in coronary artery

Slow oxidative fibers

high endurance, low output (ex. good for long distance runners)

Junctions

holds cells together

Pupil

hole under smooth muscle control in the eye

Anterior/posterior

in front/behind

Pepsinogen

inactive enzyme to digest protein

Bronchitis

inflammation of bronchi d/t infection and mucus

Arthritis

inflammation of joint

Adrenal medulla

inner core of each adrenal gland

Endoneurium

inner most connective tissue in the nervous system -surround each axon (many axons in a fascicle)

Endomysium

inner most; surrounds each cell/muscle fiber

Visceral pleura

innermost layer of connective tissue in lung

Hypodermis

innermost layer, made of adipose function: protects and insulates

Hemoglobin

inside RBC -bind to O2

Lymph

interstitial fluid btw tissue and cells

Cardiac muscle

involuntary; branch like, striations, single nuclei, intercalated discs

Smooth muscle

involuntary; flattened look, no striations, single nuclei

Solute

is dissolved

Sebum

keeps skin moist

Colon

large intestine -only absorbs water

Macromolecules

large; protein, lipid, carbs, nucleic acid

Gastric pits

lined with 3 cells; produce gastric juice

Plasma

liquid, water, nutrients and hormones

Gall bladder

liver; stores bile

Dermis

living layer; thickest layer, middle layer (contains blood vessels and nerves, glands and hair)

Osteoporosis

low calcium so ECM breaks down (brittle bones)

Fast glycolytic fibers

low endurance, high output (ex. good for sprinting and weight lifters)

Synovial fluid

lubricant for synovial joints

Histamine

make blood vessels porous (inflammation) (Innate immunity)

Tonsils

masses of lymphatic tissue in the back of the oropharynx catch bacteria

Hormones

messenger molecules

Perinurium

middle connective tissue in the nervous system -surrounds each fascicle

Perimysium

middle layer; surrounds fascicles

Otoliths

mineral deposits in vestibule (inner ear) -stop you from falling over when you look up or down

Solution

mixture of both (solvent and solute)

Embolus

mobile clot

Fast oxidative fibers

moderate endurance and output

Peripheral nervous system (PNS)

motor and sensory nerves

Osmosis

movement of H2O from LOW concentration to HIGH concentration

Diffusion

movement of solute from HIGH concentration to LOW concentration

Alveolar sac

multiple alveoli

Retina

nervous tissue in back of eye -rods = grey (peripheral) -cones = color

Acetylcholine (ACh)

neurotransmitter released during muscle contraction

Creatine Phosphate

no glucose -15 sec burst of ATP -max output (in steroids)

Fibrous joints

no movement (ex. skull- keeps brain in place)

Fused tetanus

no relaxation btw stimuli (max output)

Pseudostratified columnar epithelium

offset layer of tall cells

Olfactory receptor cells

originate from bulb; have special hair receptors

Epinurium

outer most connective tissue in the nervous system -surrounds entire nerve

Epidermis

outer most layer of skin; mostly dead - high potency - single cell layer (cells= keratinocytes, melanocytes, and merkel)

Adrenal cortex

outer section of each adrenal gland

Epimysium

outermost layer, surrounds entire muscle

Myofibril

overlapping layers of 2 proteins (myosin and actin)

Sinoatrial node

pacemaker (above right atria)

Eosinophil (Leukocyte)

parasitic infection (ex. melaria)

Phagocytes

perform phagocytosis= engulf pathogens then destroy them -large category (Innate immunity)

Hydrophobic/hydrophilic

phobic= repels water; philic= can disolve in water

Melanin

pigment that shades DNA from UV light

Spongy bone

porus and light (stores bone marrow)

Reflex

pre-programed neurological response (reliable)

Ossification

process in which most bones develop using hyaline cartilage structures as models

Keratinocytes

produce keratin

Red Marrow

produces formed elements

Melanocytes

produces melanin

Villi

projections in small intestine wall -increase surface area for absorption

Microvilli

projections of cell membrane on villi

Articular cartilage

provides cushion

Action potential

rapid change in charge across membrane

Atria

receive blood

Nervous tissue

receive, process, and send info (ex. brain, spinal cord, and nerves)

Dendrite

receives info from other neurons and relays it to the cell body

Trigone

region btw 2 ureter enteries and urethra exit

Diastole

relaxation

Unfused tetanus

relaxation btw stimuli

Cochlea

responsible for hearing and sending it to cochlear nerve (inner ear)

Sebaceous glands

secrete sebum into hair follicle (causes acne)

Antibody

secreted version of antigen receptor -kills antigens

Basophil (Leukocyte)

secretes histamine -triggers inflammation

Apocrine glands

secretes protein/fat mixture in armpits and groin

Neuron

send, receive, and process

Neurons

send/receive info (brain and nerves)

Axon

sends info -sticks off of neuron

Cochlear nerve

sends sound to temporal lobe (inner ear)

Diaphragm

separates thorax (chest) and abs -contracts: long chest (fills with air) -relaxes: pushes agains lungs (forces air out)

Fibrillation

shuddering heart -irregular node activity

Synovial joints

slight movement, 3 parts: - ligaments (stability) - synovial fluid (lubricant) - cartilage (cushion)

Canaliculi

small/horizontal; connects osteocytes

Lacunae

small/vertical; holds osteocytes

Peristalsis

smooth muscle contractions to move food to stomach

Chemoreceptors

specialized cells that bing to chemicals in air/liquid/food

Ligaments

stabilize joints

Vestibule

static equilibrium (vertical) -otoliths (mineral deposits) pull fluid witch pulls the hair cells (inner ear)

Thrombus

stationary blood clot

Hematopoiesis

stem cells dividing into RBC/WBC and platelets

Bladder

storage chambers for urine (smooth muscle)

Nucleus

stores DNA

Yellow Marrow

stores adipose and contains stem cells

Sarcoplasmic reticulum

stores/releases calcium; smooth ER of the muscle

Optic nerve

structure in eye that sends signals to the brain

Neuroglia

support neurons

Meninges

surround CNS -dura matter -arachnoid -pia matter

Lymph nodes

swollen nodules on vessels; contain WBC - high concentration in neck, armpit and groin

Thyroid gland

targeted by THS (thyroid stimulating hormone)

Parathyroid hormone

targets: bone causes/tells: bone to break down to release calcium into blood

Central nervous system (CNS)

the brain and spinal cord; job=processing

Olfactory bulb

the first brain structure to pick up smell information from the nose, sends smell to olfactory nerve and then temporal lobe

Pleural fluid

the fluid between parietal and visceral pleura -helps reduce friction

Reticular layer

the rest of the dermis; contacts hypodermis

Myosin

thick filament; have heads

Actin

thin filament; contains troponin/tropomyosin

Pharynx

throat

Vital capacity

total volume of air (not including residual volume)

Total lung capacity

total volume of air lungs can hold

Medial/lateral

towards/away from middle

Superficial/deep

towards/away from surface

Lens

transparent disc behind pupil -changes shape to focus light on retina

Arterioles

tube from artery to capillary

Venules

tube from capillary to vein

Ureter

tube that carries urine from the kidney to bladder

Urethra

tube that carries urine out of body

Aerobic Respiration

uses O2 and glucose to make ATP -slow process

Anaerobic Respiration

uses glucose for ATP -fast (used when working out) -produces lactic acid

Hair matrix

very bottom of hair follicle; stratum basale (stem cells - regeneration)

Compact bone

very dense; strong and protective (surrounds spongy bone)

Vasoconstriction

vessels close/contract -decreases blood flow

Cardiac veins

vessels transporting blood from cardiac muscle to vena cava

Coronary arteries

vessels transporting blood to cardiac muscle

Larynx

voice box -contains vocal cords and epiglottis

Skeletal muscle

voluntary; long and cylindrical, striations, multi-nuclei

Papillary layer

wavy/increases SA of border (epi/derm) - provides blood access to stratum basale

Lymph capillaries

when pressure in capillaries push fluid out, lymph vessels collect lymph (bring to heart)

Thymus

where T-cells mature; fatty

Spleen

where WBC filter bool (lymphoid organ)

Collecting Duct

where filtrate/urine ends up after nutrients have been reabsorbed into blood

Bowman's Capsule

where filtration takes place

Neuromuscular junction

where nerve meets muscle

Optic disc

where the optic nerve exits the eye

Trachea

wind pipe (hyaline cartilage) -passage from lungs to pharynx -ciliated cells

Myelin

wraps around axon; protects and insulates

Muscle tissue

Contracts/shortens to produce movement - no cell potency - voluntary and involuntary

Epithelial tissue

Covers skin, lines GI tract and glands Functions: protects, absorbs, filtrates, and secretes (Simple/pseudo/stratified AND squamose/cube/column)

Lymphocyte (Leukocyte)

T and B cells -attacks dangerous pathogens

Tachycardia/bradycardia

T- increased heart rate B- low heart rate

Atrioventricular node

Sends SA node impulse to heart

Diaphysis

Shaft of long bone

Eccrine glands

Sweat; helps thermoregulation (cools body)