Neuroscience Meninges Ventricles Lecture 1

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embryological origin of meninges: mesoderm
Endosteal layer of cranial dura: adherent to inner surface of cranium Not continuous w/ dura of spinal cord
Meningeal layer of dura: Continuous w/ dura of spinal cord
Dura mater septa: Septa: inward reflections of dura 4 locations in brain: Falx Cerebri Tentorium cerebelli Falx cerebelli Diaphragma sellae
Falx cerebri: Located in longitudinal fissure b/t cerebral hemispheres Ends just above corpus callosum
Tentorium cerebelli: Horizontal b/t the occipital lobes and cerebellum Attached to falx cerebri olong median plane posteriorly Lateral borders attached to skull Tent-like--> "tent"orium
tentiorium incisure: opening in anterior tentorium cerebelli for midbrain
posterior cranial fossa: space inferior to tentorium cerebelli
supra and infra tentorial lesions: refer to lesions above or below tentorium cerebelli
Falx cerebelli: dural fold between the two hemispheres of the cerebellum
diaphragma sellae: forms roof of hypophyseal fossa, stalk of pituitary passes thru this dural sheath
venous sinuses: endothelium lined blood channels b/t two layers of dura found b/t endosteal and meningeal layers or two meningeal layers
superior sagittal sinus: located within attaced borders of falx cerebri formed b/t endosteal and meningeal layers of dura Receives: branches from the superior cerebral veins on convexity of cerebral hemispheres veins from the meninges, bone, scalp, nose--providing route for infecting CNS site where cerebrospinal fluid is returend to systemic circulation
inferior sagittal sinus: extends along inferior free margin of falx cerebri, formed b/t two meningeal layers of dura drains medial aspect of brain
straight sinus: posterior continuation of the inferior sagittal sinus Empties into transverse (lateral) sinus Formed by great vein of galen and inferior sagittal sinus Supratentorial space-occ lesion can block and impede venous outflow from brain--> perivenous compression hemorrhage
Transverse sinus: Also called lateral sinus continuation of straight sinus around lateral aspect of hemispheres
Arachnoid villi: Protrusions of meningeal dura into venous sinuses; main site of CSF passage into systemic circ.; large numbers of arachnoid villi found in sagital sinus
Arachnoid granulations: macroscopic structures formed by groups of arachnoid villi which often calcify w/ age.
Pia: innermost meningeal layer, thin vascular membrane that adheres closely to the surface of brain and spinal cord. Covers ventricals
vasculature of pia: blood vessels in subarachnoid space on surface of pia.vessels pass into brain w/ sleeve of pia and perivascular space
choroid plexus: structure primarily involved in production of CSF; pia is part of it. Telachoroidea + ependyma = choroid plexus.
ventricles: CSF filled cavities in the brain
ependyma: thin, one layer of lining epithelium (called cuboidal epithelium b/c of appearance)
telachoroidea: vascular tufts of pia invaginated into ventricles
Locations where CSF is found: ventricles, subarachnoid space, cisterns
function of CSF: cushioning of brain in solid vault
CSF protein content: 15-45mg/100ml
CSF glucose content: 40 - 80 mg/100 ml, 2/3 of blood glucose level
CSF cell content: 0-5 lymphocytes per mm^3
CSF volume: 125-175 ml
ion content of CSF relative to blood: more Na and CL, less glucose and K, very little protein
pink CSF significance: blood in CSF, usually bleeding aneurysm in subarachnoid space
yellow, clotting CSF significance: increased protein content (sometimes b/c tumor), also may be from lysis of red blood cells w/ hemoglobin --> bilirubin
cloudy CSF significance: cloudy white --> bacterial meningitis (neutrophils), increased protein & dec glucose. Slightly Cloudy--> viral meningitis (lymphocytes) near normal protein and glucose
Gram's stains/cultures on normal CSF: negative
Mechanism of CSF secretion: cuboidal cells secrete Na; glucose and protein not very diffusable; low K b/c possible active K transport in opposite direction
brain-CSF barrier: barrier of tight junctions of ependymal cells, but CSF diffuses into parenchyma. Alcohol and other lipid solubles enter brain from CSF. Hangover from toxic effect on meninges and neurons, maybe swelling and stretching of meninges w/ dehydreation
CSF rate of production: continually produced, 500-750 mls/day. 4-5 x Volume at any time (125-175 ml)
Sites of CSF production: formed by choroid plexus primarily in lateral ventricles, also in fourth ventricle
CSF circulation: 1) produced in lateral ventricles, passes trhu septum pellucidum (interventricular foramen of Monro) 2) Enter 3rd ventricle, passes posteriorly thru cerebral aqueduct (aqueduct of sylvius) 3) Enters 4th ventricle, thru two lateral foramina of Luschka and medial foramen of Magendie in roof of 4th vent. 4) Enters subarachnoid space, around brain, central canal of spinal cord (small hole in middle of spinal cord) which is continuous w/ 4th ventricle
Return of CSF to circulation: 1) thru arachnoid villi which project from the subarachnoid spaces into the dural venous sinuses (primarily the superior saggittal sinus) 2) arachnoid villi contain trabeculae and CSF 3) one way valves for CSF
Subarachnoid hemmorage causes: usually from aneurysm, most common aneurysm is berry (saccular) aneurysm at arterial jx's in circle of willis--often during exertion. Also subarachnoid hemm from trauma, leakage of AVM, angiomas
Symptoms of subarachnoid hemmorhage: sudden headache, stiff neck (nuchal rigidity), altered level of consciousness
nuchal rigidity: stiff neck seen in number of neurological conditions. From irritation of meninges in posterior fossa and cervical canal, stimulating nerve roots resulting in reflex spasm and contraction of posterior neck muscles
Types of hydrocephalous: non-communicating hydrocephalous, communicating hydrocephalous
Non communicating hydrocephalus characteristics: 1) fluid flow out of ventricles or 4th ventricle is blocked
most common cause of non-communicating hydrocephalous in adults: blockage of canal of sylvius (from supratentorial space occupying lesion) causes fliuid to build up in lateral and 3rd ventricles
Common cause of non-communicating hydrocephalous in children: aqueductal stenosis in infants whose mothers had mumps or rubella
Dandy Walker malformation: from developmental arrest of hindbrain; cyst develps producing grossly enlarged posterior fossa and hydrocephalou
Arnold Chiari malformation: displacement of brainsten and/or cerebellum into cervical canal closing off foramina in the roof of 4th ventricle
manifestations of brain damage from non-communicating hydrocephalous in infants and adults: infants:head enlarges, may or may not be brain dammage 2) adults brain is flattend against skull w/ brain dammage. Brain herniation and death follow.
treatment of noncommunicating hydrocephalous: shunt made b/t lateral ventricle and cistern, or lateral ventricle to peritoneal cavity. w/ adults hydrocephalous secondary to another disorder
communicating hydrocephalous: caused by either impaiired return of CSF (i.e. excess protein block arachnoid villi) to circulation or increased CSF
communicating hydrocephalous treatment: medication to reduce CSF production or surgically destroying choroid plexus
cerebral edema definition: swelling of the brain due to increase in fluid
three major types of cerebral edema: 1) vasogenic edema, 2) cytotoxic edema 3) interstitial edema
vasogenic edema: cerebral edema caused by increased permeability of brain capillary endothelial cells, causes extracellular volume increase
cytotoxic edema: cerebral edema with increased intracellular fluid volume
interstitial edema: CSF movement from ventricles into surrounding brain tissue due to increased CSF tissue
meningitis: inflammation of meninges
common symptoms of meningities: high fever, irritability, lethargy, severe headache, vomiting, extreme sensitivity to light (photophobia), nuchal rigidity, and "twitching"
routes of infection of CNS: cardiopulmonary system, nasopharynx and sinuses (including dural venous sinuses), middle ear, skull fracture, scalp and face, and along nerves
Meningeal space involved in meningitis: commonly arachnoid/subarachnoid space/ pia
leptomeninges: arachnoid and pia
adhesions (CNS): adhesion b/t pia and arachnoid, complication of meningitis, interferes w/ circulation of CSF in the subarachnoid space, can impede return of CSF, causes communicating CSF
cause of severe head and neck headache of meningitis: due to inflammation and stretching of dura, which receives trigeminal (supratentorially) and cervical (infratentorially) innervation, results in pain being referred to forehead and face, head and back of neck
meningoencephaloyentriculitis: encephalitis and ventricular inflamation, west nile virus may cause this
hygromas: pooling of CSF, may result in arachnoid tearing from trauma
types of brain herniation: tonsillar (tonsil into foramen magnum) and uncal (uncus into tentorial incisure)
signs of uncal herniation: decreased consciousness, dilation of the pupil of the eye on the side of herniation (from compression of parasympathetic fibers w/in CNIII)
signs of tonsillar herniation: may be unconscious (neurons in the medullary reticular formation control conciousness), abnormalities in heart rate and breathing (medullary portion of reticular formation controls vital functions)
hemorrhage involving meninges/sinuses in infants description: tearing of veins as they enter the superior sagittal sinus or from tearing of venous sinuses, rapid compression may tear attachments of falx cerebri from tentorium cerebri
epidural hemorrhage: between the endosteal and menigeal layers of dura, or between bone and endosteal dural if fracture rips dura from bone; side of the head--> middle meningeal artery
brodmann area compressed by hemmorahage of midle meningeal artery: compression of primary motor cortex (area 4), difficulty performing volantery motor movement contralaterally
subdural hemorrhage: bleeding between dura and arachnoid, most commonly from tearing of superior cerebral veins at point of entrance into superior sagittal sinus (bridging veins), usually blow to front or back of head, more comon in elderly
contusion CNS: bruise of surface of brain, usually hemorrhages of variable size
concussion: transient disruption of brain function
contents of subarachnoid space: trabeculae, CSF, Blood vessels
Trabeculae of subarachnoid space: bridge arachnoid and pial membranes, resemble spiderweb
CSF: fluid which bathes the brain tissue and helps to distribute and equalize pressure w/in the skull
Blood vessels location in meninges: all major blood vessels of brain lie in subarachnoid space before entering brain parenchyma
cistern definition: regions of subarachnoid space where pia and arachnoid are widely separated, contain pools of CSF
major cisterns: 1 cerebomedullary cistern (cisterna magna),
2 pontine cistern,
3 interpeduncular cistern,
4 lumbar cistern
cerebellomedullary cistern: cistern which spans the space over the cerebellum and the part of the brainstem called the medulla
pontine cistern: cistern which lies over the pons
interpeduncular cistern: cistern which lies over the interpeduncular fossa (ventral brain surface)
lumbar cistern: extends from vertebral levels L1/L2 to S2

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