Unit 3- Kin
Limbic system
"emotional brain"- structures surrounding diencephalon emotions (pain, pleasure, affection, anger); smell (olfactory)
heart
"hollow" muscular pump with 4 chambers
Chambers of the heart
"inner rooms" atria- upper chambers, recieve blood from superior/inferior vena cava and pulmanary veins (4) ventricles- lower chambers, pumb blood to pulmanary trunk (arteries) and aorta right heart- carries oxygen-poor blood left heart- carries oxygen-rich blood
Vagus nerve (Cranial nerve X)
10th cranial nerve sensory function- visceral sense heart, lungs, most abdominal organs, external acoustic meatus, eardrum, laryngopharynx, and larynx motor function- pharynx and larynx muscles nerve damage-hoarseness, monotone voice, loss of voice, difficulty swallowing, impaired gastrointestinal system
Accessory nerve (Cranial nerve XI)
11th cranial nerve sensory function-none motor function-pharynx, trapezius, sternocleidomastoid nerve damage- paralysis trapezius, SCM
cranial nerves
12 pairs of nerves (anterior 1-posterior 12) that carry messages to and from the brain
Hypoglossal nerve (Cranial Nerve XII)
12th cranial nerve sensory function-none motor function-tongue muscles nerve damage-swallowing and speech difficulty
Olfactory Nerve (cranial nerve I)
1st cranial nerve, sensory function- smell motor function- none nerve damage- partial or full loss of smell
dura mater (cranial meninges)
2 outermost layers subdural space- interstitial fluid
optic nerve (Cranial nerve II)
2nd cranial nerve sensory function- vision motor function- none nerve damage- visual defects
spinal nerves
31 pairs (62 total); motor & sensory axons split into anterior and posterior rami
oculomotor nerve (cranial nerve III)
3rd Cranial nerve sensory function- none motor function- eye movement nerve damage- upper eyelid droop, paralysis of most eye muscles, double vision, focusing difficulty
Ventricles
4 cerebrospinal fluid CSF filled cavities 2 lateral third above hypothalamus fourth (b/t stem and cerebellum)
Erythocytes
44% of blood 4.2-6.2 million per cubic mm
Trochlear nerve (cranial nerve IV)
4th cranial nerve sensory function- none motor function-move eye inferiorly, laterally nerve damage- paralysis of the eye, double vision
plasma
55% of blood
Trigeminal nerve (cranial nerve V)
5th cranial nerve Ophthalmic branch- cornea, nose, forehead, anterior scalp, meninges maxillary branch- nasal mucosa, palate, gums, cheek, meninges mandibular branch- tongue, meninges, skin of chin, lower jaw, lower teeth, ear sensory function- touch, temp, pain motor function- mastication, swallowing nerve damage- intense, pulsating pain
Abducens Nerve (Cranial Nerve VI)
6th cranial nerve sensory function- none motor function- eye abduction nerve damage- limits lateral movement, double vision
facial nerve (cranial nerve VII)
7th cranial nerve sensory function- taste from anterior 2/3 of tongue motor function- facial expression, eye and salivary gland secretion nerve damage- decreased tearing, decrease saliva production, loss of taste, facial nerve palsy (Bell palsy)
Vestibulocochlear nerve (cranial nerve VIII)
8th cranial nerve sensory function- balance, hearing motor function- none nerve damage- loss of balance, nausea, vomiting, dizziness, loss of hearing
Glossopharyngeal nerve (cranial nerve IX)
9th cranial nerve sensory function-sensation and taste posterior 1/3 tongue, sensation pharynx, monitor O2 and CO2 motor function- pharynx muscle; salivary secretion nerve damage- reduced saliva, loss of taste
cranial nerve 9, glossopharyngeal nerve, controls secretion of saliva through what types of neurons?
Autonomic motor
rami communicantes
Autonomic nervous system branches that connect spinal cord to sympathetic chain ganglia
aortic arch ascending branches
Brachiocephalic trunk (right side only) *R. common carotid *R. subclavian L. common carotid L. subclavian
with practice, a golfer can duplicate their swing hundreds of times with the assistance of which major part of the brain?
Cerebellum
chordae tendinae
Fibers (heart strings) attached to the tricuspid and mitral valve
Spinal Cord
Foramen magnum to L2 Cervical C1-C8 Thoracic T1-T12 Lumbar L1-L5 (cord stops at L2) Sacral (Spinal nerves) Coccygeal (Spinal nerves)
conducting system pathway of the heart
Sinoatrial SA node-Atrioventricular node-atrioventricular bundle- right/left bundle branches- Purkinje fibers (conduction myofibers)
veins
TO heart typically oxygen-poor blood smaller venules before reaching veins capacitance vessels blood resovoirs, one way valves
aorta
The large ARCH arterial trunk that carries blood from the heart to be distributed by branch arteries through the body.
pia mater (cranial meninges)
adheres to brain
head and neck arteries in order
aorta-brachiocephalic-carotid (internal), subclavian (vertebral)-circle of willis
which is higher in pressure between a vein or artery? which can hold more blood?
artery because there is less space in the lumen veins because they have more space in the lumen and less muscle around the walls
atrioventricular valves
atria-ventricles right (tricuspid, left (bicuspid, mitral)
temporal lobe
auditory processing (hearing) language comprehension (Wernike's area) memory/info retreival
Cerebellum
balance and coordination 1/2 of brains neurons, vermis (center)/ hemispheres (R/L)/lobes (ant. posterior) outer gray, middle white (arbor vitae), deep gray matter
capillaries
basic functional units of CV system cellular nutrient and waste exchange microscopic, allow nutrient/waste exchange tunica intima branch into beds precapillary sphincters- control distribution
systematic circulation
body-venae cavae-right atrium-right av tricuspid valve- right ventricle- pulmonary semilunal trunk- pulmonary trunk- pulmonary arteries- lungs
vertebral artery
brain blood supply transverse foramina-foramen magnum-brain
Central Nervous System (CNS)
brain: 100 billion neurons spinal cord: 100 million neurons
superior and inferior vena cava
bring blood back into right artium of heart
arteries
carry blood AWAY from the heart (typically oxygen-rich blood) smaller arterioles before reaching capillaries
gray matter
cell bodies, dendrites, unmyelinated axons superficial cerebral cortex deep cerebral nuclei
Epithalamus (Diencephalon)
circadian rhythm (pineal gland)
cranial meninges
connective tissue separates brain from bone, contain blood vessels
tunica externa (blood vessel)
connective tissue, anchors vessel
Cerebrum
conscious thoyght/intellect- 80% 5 lobes Gyrus-convolution sulcus-groove fissure-deep separations
Pons (brainstem)
contains nuclei for CN V-VIII
medulla oblongata (brainstem)
contains nuclei for CN VIII-XII
Midbrain
covered by cerebrum; contains nuclei for cranial nerves III, IV
insula lobe
deep to lateral sulcus taste (gustatory cortex) interoceptive awareness, emotion, empathy
sensory nervous system
detects stimuli and transmits info from receptors to CNS Somatic sensory- sensory input that is consciously perceieved from receptors Visceral sensory- sensory input that is not consciously perceived from receptips of blood vessels and internal organs
Limbic System
emotional brain
Tunica intima (blood vessel)
endothelium, thinnest layer
heart wall layers
epicardium myocardium- muscle, thickest endocardium- internal chamber surface
Circle of Willis (cerebral arterial)
equalizes BP, circulates blood in brain
Amygdala (Limbic System)
fear and aggression
arachnoid mater (cranial meninges)
fiber web arachnoid trabeculae subarachnoid space- cerebrospinal fluid protects/supports
carotid artery
head, neck, measure pulse
CV order
heart-arteries-arterioles-capillaries-venules-veins-heart
Lumbar Plexus (L1-L4)
hip girdle and thigh anterior division- femoral nerve posterior division- obturator nerve (runs through obturator foramen (hole in pectoral girdle))
motor nervous system
initiates and transmits information from the CNS to effectors Somatic motor- motor output that is consciously or voluntarily controlled Autonomic motor-motor output that is not consciously controlled
autorhythmicity
initiates it's own rhythmic impulses, atria- ventricles
cardiac muscle tissue
initiates own muscle impulses (involuntary) rhythmic, smooth contractions intercalated discs- fibers contract in concert
serous layer of pericardium
inner lining (several different portions) parietal layer visceral layer (epicardium) pericardial cavity- serous fluid
Brainstem
involuntary responses
Sacral Plexus (L4-S4)
knee, ankle, foot sciatic nerve (body's longest); 2 divisions; tibial and common fibular tibial nerve- hamstrings (minus Short Head biceps femoris), plantar flexors, toe flexors common fibular nerve- short head biceps femoris, splits to deep and superficial when it crosses the knee
elastic arteries
largest aorta/pulmonary trunk
buffy coat
less than 1% of blood platelets- 150-400 thousand per cubic mm leukocytes-4.5-11 thousand per cubic mm
Peripheral Nervous System (PNS)
links the CNS to the body's sense receptors, muscles, and glands cranial nerves-12 pairs-branch from brain, supply sensory and motor neurons to head, neck, trunk spinal nerves- 31 pairs- branch from spinal cord to sensory receptors, muscles, glands
pulmonary circulation
lungs- pulmonary veins- left atrium- left AV bicuspid valve- left ventricle- aortic semilunar valve- aorta- body
hemispheres connected by corpus callosum
main areas: cerebrum diencephalon brainstem cerebellum
Hypothalamus (Diencephalon)
major homeostasis regulator; temp, appetite, emotion, endocrine control (pituitary gland)
muscular arteries
medium-sized (femoral/brachial)
Hippocampus (limbic system)
memory
frontal lobe
motor control (premotor cortex) problem solving (prefrontal area) speech production (Broca's area)
anterior root of spinal cord
motor neurons send info out from the anterior root lateral---autonomic to cardiac, smooth muscle anterior ---somatic to skeletal muscle
white matter
myelinated axons, bundled in tracts deep to gray matter of cortex
Cervical Plexus (C1-C5)
neck muscle, skin, head and shoulders phrenic nerve-diaphragm
plexus
network of anterior rami serve specific body part cervical, brachial, lumbar, sacral down the spine
Valves of the heart
one-way blood flow, open/close to pressure changes: contraction/relaxation
lumen of blood vessels
open space between blood vessels occupied by flowing blood
Spinal cord tissue
outer white, inner gray
spinal cord matter
outer white, inner gray matter
sinoatrial (SA) node
pacemaker of the heart
Brainstem
pathway for tracts b/t cerebrum and spinal cord
Brachial Plexus (C5-T1)
pectoral girdle and upper limb axillary nerve- deltoid, teres minor musculocutaneous nerve- anterior arm muscles flex the humerus and forearm median nerve- most anterior forearm, lateral lumbrical ulnar nerve- medial flexor digitorum profundus, flexor carpi ulnaris, hand radial nerve- triceps brachii, anconeus, posterior forearm, brachioradialis
spinal meninges
pia mater- deepest *blood vessels (arteries/veins) in between *cerebrospinal fluid for protection arachnoid mater- middle dura mater- superficial epidural delivered between dura and spinal cord
Pericardium of the heart
protective heart covering fibrous layer- tough outer lining serous layer- inner lining
upper limb veins
radial ulnar brachial axillary
thalamus (diencephalon)
receiving and relaying sensory information to the cerebrum
occipital lobe
sight visual reception and visual interpretation
head and neck veins
sinuses- most cranial blood jugular
venules
small veins that receive blood from the capillaries
arterioles
smallest arteries, microscopic regulate flow to tissues
tunica media (blood vessel)
smooth muscle, vasoconstriction
posterior root of spinal cord
somatic and visceral sensory neurons come into posterior root
interatrial/interventricalseptum
splits chambers and doesn't allow blood from opposite sides to mix.
upper limb arteries
subclavian *right from brachiocephalic trunk, left from aorta, after 1st rib become axillary axillary *shoulder and thoracic axillary region, after scapula becomes brachial brachial *humerus *take bp and pulse *branches at anterior elbow radial/ulnar *forearm to palm to digital arteries
thoracic veins
superior vena cava *subclavian *brachiocephalic Inferior vena cava
anterior ramus
thicker; ant/lat trunk, upper/lower limbs
posterior ramus
thinner; back skin and deep muscles
parietal lobe
touch perception body orientation and sensory discrimination
blood functions
transportation- O2, CO2, hormones, waste, nutrients regulation- temp, pH, fluid levels immunity
Cytology
two types of cells: Neurons: 3parts Glial cells: support/protext neurons
semilunar valves
ventricles-arteries (pulmanary, aortic)
