chapter 18
which cranial nerves lets your eyes do tricks?
NIII (oculomotor), NIV (trochlear), & NVI (abducens)
cranial nerves pseudonym
Some Say Money Matters But My Brother Says Big Brains Matter More
NVI
abducens nerve; abducts eyeball; innervates lateral rectus; origin= pons; foramen= superior orbital fissure
falx cerebri
anchors brain in crista galli; between right & left hemispheres of cerebrum along the longitudinal fissure
visual cortex
anything you see
periosteal layer of dura mater
attaches to inner surface of skull; felt within anterior fontanel of baby; only in brain stem- not spinal cord
association fibers
connects areas of the cerebral cortex within the same hemisphere; arcuate fibers (short) & longitudinal fasciculi (long)
infundibulum
connects hypothalamus to pituitary gland; contains axons of specialized neurons (neurosecretory cells) that produce hormones like ADH & oxytocin --> transported to the pituitary gland --> released into bloodstream
longitudinal fissure
divides right & left hemispheres of cerebrum
brain ventricles
have CSF because of choroid plexus
where is CSF found?
in central canal, inside ventricles, & surrounding brain & spinal cord
brainstem
mesencephalon/ midbrain, pons, and medulla oblongata
insula
part of temporal lobe; contains gustatory cortex
gustatory cortex
perception of taste
frontal lobe anatomical landmarks
precentral gyrus/ primary motor cortex, premotor cortex, prefrontal cortex
meningitis
problem w/ reabsorption of CSF; no communication between where CSF is made & where CSF is reabsorbed; increases intracranial pressure which is fatal
prefrontal cortex
thinking, trouble-solving, concentration, behavior, personality, morality, judgement
epicranial aponeurosis
tough layer of dense fibrous tissue which covers the upper part of the cranium
lateral ventricles
a set of paired ventricles located in the cerebral hemispheres mostly in parietal lobes & don't communicate w/ each other; anterior, posterior, & inferior horns
NXI
accessory nerve; only nerve w/ cranial & spinal root; origin= spinal cord & medulla oblongata; foramen= jugular foramen; internal branch destination= muscles of palate, pharynx, & larynx; external branch destination= sternocleidomastoid & trapezius
somatosensory association area
allows recognition of texture, size, & shape
tentorium cerebelli
along the transverse cerebral fissure; separates the cerebrum from the cerebellum
temporal lobe anatomical landmarks
auditory association area, auditory cortex, olfactory cortex; associated w/ hearing & smell
why is the hypothalamus affected by emotional state?
because it's wired to the limbic system (center of emotions of the brain); ex. upset state= increased heart rate & blood pressure, relaxed state= decreased heart rate & blood pressure
what is the reason why a patient may survive an injury to the cerebrum?
because of the brain stem
central sulcus
between frontal and parietal lobes
fourth ventricle
between pons and cerebellum
superior sagittal sinus
between right & left cerebral hemispheres; where CSF gets back into the bloodstream from arachnoid granulations; receives blood from cerebral veins
cerebrum
biggest area of brain; conscious thought processes, intellectual functions; memory storage & processing; conscious & subconscious regulation of skeletal muscle contractions
tight junction
blocks passage of material between cells; only lipid-soluble compounds are capable of passing the lipid bilayer
mandibular division
both sensory & motor functions; innervates muscles of mastication; sensation of lower teeth
what does paralysis of NIV do?
causes deviation of eye
what does damage to NVI do?
causes eye to deviate medially
capillary endothelial cells
cells that line the inside of capillaries
hypothalamus
centers controlling emotions, autonomic functions in internal organs, & hormone production (ex. temperature control, thirst, internal balance, salivation, heart rate); main visceral control center of body; connects to pituitary gland to nervous system
which of the following separates the motor information from sensory information? -occipitoparietal sulcus -temporoparietal sulcus -lateral sulcus -central sulcus
central sulcus
which part of the brain is responsible for fine motor movements?
cerebellum
cerebellar peduncles
cerebellum communication w/ other regions of the brain; superior, middle, & inferior
6 major regions of the brain
cerebrum, diencephalon, mesencephalon, pons, medulla oblongata, & cerebellum
where is the blood brain barrier absent & why?
choroid plexus: filtered plasma forms CSF so a weak barrier is needed between the capillaries & the brain; hypothalamus: have receptors that need to sense chemical content of blood & needs easy access to blood content; pituitary & pineal gland: secrete hormones that need to release directly into bloodstream
inferior cerebellar peduncle
communicates cerebellum to the medulla oblongata
superior cerebellar peduncle
communicates cerebellum w/ mesencephalon, diencephalon, & cerebrum
middle cerebellar peduncle
communicates cerebellum with pons
commissural fibers
connect hemispheres; corpus callosum & anterior commissure
cranial meninges
connective tissue layers that separates soft tissue of brain from skull; continuation of spinal meninges; dura, arachnoid, & pia mater
interthalamic adhesion
connects right and left thalamus
postcentral gyrus/ primary somatosensory cortex
consciously feel sensations of skin, muscles & joints
epithalamus
contains the pineal gland
cerebellum
coordinates complex somatic motor patterns & skeletal muscle movements; adjusts output of other somatic motor centers in brain & spinal cord; second largest part of the brain
what protects the brain?
cranium, cranial meninges, CSF, blood brain barrier, & rich blood supply by carotid arteries
optic chiasm
crossing of nerves; located in anterior margin of diencephalon on top of pituitary gland; allows our visual sensory information from each eye to be received on both sides of the brain simultaneously
corpus callostomy
cutting corpus callosum to prevent seizures from both sides of body
what happens if the brain stem is damaged?
death
fissure
deep depression
sulcus/ sulci
depression or groove in the surface of the cerebral cortex; between gyri; gives us different lobes of the brain
periosteum
double-layered connective tissue that covers and nourishes the bone
spinal cord
end has opening where CSF comes out & enters subarachnoid space
pineal gland
endocrine gland that produces melatonin (helps regulate sleep/wake cycle)
diencephalon
epithalamus, thalamus, & hypothalamus
folia of cerebellum
equivalent to cerebrum gyri
dura septa
extensions of dura mater that go deep inside brain; the folds subdivide the cranial cavity, supports the brain, & limits brain movement
arachnoid granulations
extensions of the arachnoid mater that allow excess CSF to be absorbed by the superior sagittal sinus & gets recycles
which of the following is not a cranial nerve that innervates the eye? -facial - CN VII -oculomotor - CN III -abducens - CN VI -trochlear - CN IV
facial - CN VII
NVII
facial nerve; carries information from anterior 2/3 of tongue; controls most muscles of facial expression; sensory origin= taste buds; motor origin= pons; innervates lacrimal, submandibular, & sublingual glands; foramen= internal acoustic meatus; sensory destination= pons
olfactory bulb
form neuronal masses on either side of crista galli
anterior horn of lateral ventricle
frontal lobe
corpus callosum
gives hemispheres ability to communicate; commissural fiber
NIX
glossopharyngeal nerve; sensory= taste information of posterior 1/3 of tongue & special receptors found within major blood vessels (baroreceptors & chemoreceptors); motor= controls parotid salivary glands (visceral) & pharyngeal muscles for swallowing (somatic motor); motor origin= salivary gland; foramen= jugular foramen; sensory destination= medulla oblongata
projection fibers
group of axons link cerebral cortex w/ other regions of the brain stemlike the diencephalon, brainstem, cerebellum, & spinal cord
interventricular foramen
how lateral ventricles communicates w/ the third ventricle
NXII
hypoglossal nerve; controls tongue movement; origin= medulla oblongata; foramen= hypoglossal canal; destination= tongue muscles
hydrocephalus description & treatment
increased amount of CSF from obstruction within ventricular system or problems w/ reabsorption; occurs in newborns because their skull bones are not fused yet which increases pressure & results in an enlarged head; in adults, the pressure is kept within because of the rigidity of the skull & results in potential brain damage because of the compression of brain blood vessels & crushing of soft nervous tissue; treatment= drain CSF by making a hole in a ventricle w/ a tube & placing it in the abdominal cavity
choroid plexus
inside all 4 ventricles; contains blood vessels surrounded by ependymal cells; have capillary endothelial cells but no astrocytes
what happens once CSF comes out of the spinal cord & enters the subarachnoid space?
it reaches arachnoidvilli/ arachnoid granulations --> if CSF is greater than the venous pressure of the superior sagittal sinus, the CSF gets squeezed out of the subarachnoid space flowing into the bloodstream to get reabsorbed (involves meninges) if CSF is less than the venous pressure, the arachnoidvilli/ arachnoid granulations will not let blood pass into the ventricular system
pyramidal cells
large neurons that allow conscious control of skeletal muscle movements
directionality of CSF
lateral ventricle --> 3rd ventricle --> 4th ventricle; due to ciliated movement of ependymal cells
olfactory receptors
located in dendrites of olfactory sensory neurons in roof of nasal cavity
third ventricle
located in the diencephalon between thalami
arachnoid trabeculae
made of collagen fibers; give arachnoid mater weblike appearance; helps anchor cerebral blood vessels in place
pituitary gland
master endocrine gland of body;
visual association area
matching faces
pia mater
most pliable; delicate connective tissue that attaches to brain; contours every gyri of cerebral cortex; helps nourish brain cells due to blood vessels
posterior horn of lateral ventricle
occipital lobe
NIII
oculomotor nerve; helps to move upper eyelid & intrinsic eye muscles; controls all extrinsic eye muscles except superior oblique & lateral rectus; changes diameter of pupils by adjusting the amount of light entering the eye; changes shape of lens to focus images from retina; origin= mesencephalon; foramen= superior orbital fissure; destination= extra-ocular eye muscles
NI
olfactory nerve; only cranial nerve exposed to exterior; shortest cranial nerve; inside nasal epithelium; where the 5% of sensory information from thalamus is missing; axons from olfactory epithelium form bundles that pass through olfactory foramina within cribriform plate --> synapse w/ secondary neuron within olfactory bulb --> axons of secondary order neurons travel within olfactory tract taking information to cerebrum
ophthalmic division
only sensory function
maxillary division
only sensory function; sensation of upper teeth/ jaw
lateral & median apertures
openings that communicate w/ subarachnoid space; how 90% of CSF leaves the ventricular system & bathes entire surface of CNS
NII
optic nerve; only nerve that comes together, crosses, & splits again; origin= retina; foramen= optic canal of sphenoid bone; destination= diencephalon --> occipital lobe
premotor cortex
planning of motor movement of skeletal muscles(ex. thinking of grabbing pen to write); sends information to precentral gyrus/ primary motor cortex
astrocytes
plays a role in providing nourishment for neurons
parietal lobe anatomical landmarks
postcentral gyrus/ primary somatosensory cortex, somatosensory association area
a psychological disorder happens when something goes wrong in which anatomical landmark?
prefrontal cortex
functions of CSF
prevents contact of neural tissue w/ surrounding bones; gives buoyancy to CNS structures (helps brain float in skull); reduces weight of brain; protects brain & spinal cord from trauma; nourishes brain & removes metabolic waste out of CNS
mesencephalon/ midbrain
processing of visual & auditory data, and associative reflex (reacting to loud sound); generation of reflexive somatic motor responses; maintenance of consciousness; moves eyes because almost all extrinsic eye muscles are innervated by cranial nerves that leave mesencephalon
antidiuretic hormone (ADH)
reaches kidneys to retain water when there is low blood pressure
precentral gyrus/ primary motor cortex
region that sends nerve impulses down spinal cord toward muscle for movement; contains pyramidal cells
blood brain barrier
regulates substances between blood & brain tissue; biochemical isolation of brain from main circulation; made of capillary endothelial cells attached to each other through tight junctions surrounded by astrocytes; allows for nutrients (glucose & oxygen) to pass through & nourish brain tissue; allows carbon dioxide and waste to get out
thalamus
relay and processing centers for sensory information that comes up from the spinal cord, eyes, & ears; separated into right & left; screens what's important or not to send to cerebral cortex; where 95% of sensory information comes in; largest mass of cell bodies found within CNS
medulla oblongata
relay station between spinal cord & rest of brain stem & spinal cord w/ thalamus; autonomic centers for regulation of visceral function (cardiovascular, respiratory, and digestive system activities such as heart rate, blood pressure, & breathing pattern)
pons
relays sensory information to cerebellum & thalamus; relay station between cerebellum & cerebrum; subconscious somatic and visceral motor centers; works w/ cerebellum in coordinating skeletal muscle activity; has role in breathing pattern through centers regulating activity of respiratory reflex center in medulla oblongata
gyrus/ gyri
rounded elevation on the surface of the cerebral hemispheres; increases surface area
diaphragm sellae
seals pituitary gland to sella turcica; anchors dura mater to sphenoid bone
vermis
separates cerebellar hemispheres
transverse cerebral fissure
separates cerebrum and cerebellum
septum pellucidum
separates lateral ventricles
parieto-occipital sulcus
separates parietal and occipital lobes
lateral sulcus
separates temporal lobe from all others
primary fissure
separates the lobes of the cerebellum
falx cerebelli
separates the two hemispheres of the cerebellum
duralvenous sinus
separation of meningeal & periosteal layer of dural mater; blood-filled space where majority of blood from the brain drains into --> then jugular veins get the blood supply in the neck
inferior horns of lateral ventricle
temporal lobe
cranium
the bones of the skull that protect the brain to a certain extent due to soft consistency of brain; frontal, parietal, occipital, & temporal
what are the most protected parts of the body?
the brain & spinal cord
dura mater
toughest; has 2 layers (periosteal & meningeal)
NV
trigeminal nerve; branches into ophthalmic, maxillary, & mandibular divisions; sensation of entire face & voluntary control of chewing muscle (masseter)
NIV
trochlear nerve; goes to superior oblique; origin= mesencephalon; foramen= superior orbital fissure
meningeal layer of dura mater
true layer that covers the brain; extends into vertebral canal as spinal dura mater
NX
vagus nerve; goes to thoracic & abdominal cavities of the body & has autonomic control of its organs; sensory + motor functions of internal organs; innervates the respiratory, cardiovascular, & digestive organs; longest cranial nerve;slows down heart rate
NVIII
vestibulocochlear nerve; carries sensory information about equilibrium, balance, & hearing; origin= receptors of inner ear (vestibule and cochlea); foramen= internal acoustic meatus; destination= pons & medulla oblongata
balls palsy
virus affecting facial nerve that causes paralysis of facial expressions; mostly on left branch
occipital lobe anatomical landmarks
visual association area, visual cortex
arachnoid mater
weblike layer that encloses and protects blood vessels that supply brain; contains & circulates CSF
central canal of spinal cord
where remaining 10% of CSF flows through; communicates w/ the fourth ventricle
cerebral aqueduct
where third ventricle communicates w/ the fourth ventricle
