Lectures 6 + 7 - Brain and Environs

Question 1

What are foramina?

Answer 1

Holes in the skull, through which cranial nerves, blood vessels and the spinal cord enter and leave the cranial vault.

Question 2

What is the largest foramen?

Answer 2

Foramen Magnum.

This is where the brain stem and spinal cord sits.

It is at the base of skull.

This is also where the medulla and spinal cord meet - cervicomedullary junction

Question 3

Which fossa contains the frontal lobes?

Answer 3

Each side of the anterior fossa

Question 4

Which fossa contain the temporal lobes?

Answer 4

Middle fossa

Question 5

Which fossa contains the brainstem and cerebellum

Answer 5

Posterior fossa

Question 6

What is the sphenoid bone?

Answer 6

It divides the anterior fossa and the middle fossa (just the lesser wing)

Question 7

What divides the middle and posterior fossa?

Answer 7

ridge of temporal bone and sheet of meninges.

Question 8

What are the three layers of the meninges.

Answer 8

from outside the inside

Dura
Arachnoid
Pia

Question 9

What is the dura?

Answer 9

It is the outermost layer of the meninges.

It is composed of two layers which are fused together, except for in two cases where they seperate.

Question 10

Where are the two areas where the two dura layers are un-fused?

Answer 10

• Falx cerebri - sheet of dura that seperates the right and left hemispheres in the interhemispheric fissure.
• Tentorium cerebelli - tent-like sheet of dura that covers the upper surface of the cerebellum

Question 11

What is the falx cerebri?

Answer 11

sheet of dura that seperates the right and left hemispheres in the interhemispheric fissure.

This is one of two areas where the two dura layers seperate.

Question 12

What is the tentorium cerebelli

Answer 12

ent-like sheet of dura that covers the upper surface of the cerebellum

This is one of two areas where the two dura layers seperate.

Question 13

What are the two layers of the dura called?

Answer 13

• Periosteal layer (adhered to inner surface of skull) & Meningeal Layer

Question 14

What are cerebral sinuses?

Answer 14

The dural venous sinuses lie between the periosteal and meningeal layers of the dura mater. They are best thought of as collecting pools of blood, which drain the central nervous system, the face, and the scalp.

All the dural venous sinuses ultimately drain into the internal jugular vein. Unlike most veins of the body, the dural venous sinuses do not have valves.

main one would be the superior sagittal sinus.

Question 15

Describe the arachnoid

Answer 15

spidery meningeal layer that adheres to the inner surface of dura

CSF trickles through this

Question 16

What is the pia

Answer 16

it is the innermost layer of the meninges.

It is a thin layer of cells that adheres very closely to the surface of the brain, follows along the gyri and deep into the sulci.

Question 17

What supplies the dura mater blood?

Answer 17

middle meningeal artery.

runs through the epidural space.

Question 18

Describe the subdural space

Answer 18

The subdural space is between the dura and arachnoid.

• Bridging veins go through this subdural space.
• These veins drain cerebral hemispheres and pass through subdural space to several dural venous sinuses.

Question 19

What is the superior sagittal sinus?

Answer 19

It is a dural venous sinus that lies between the two layers of dura, and drains deoxygenated blood mainly via the SIGMOID sinuses to reach the INTERNAL JUGULAR VEINS.

Question 20

What is the subarachnoid space

Answer 20

This is the space between the arachnoid and pia.

It is filled with CSF.

Also has major arteries travelling through it, and send smaller penetrating branches through the pia.

Question 21

Where can you find the three meningeal layers?

Answer 21

It covers the entire CNS.

This includes the brain, and the entire spinal cord.

Question 22

What are the inner walls of ventricles lined by?

Answer 22

ependymal cells

these keep the CSF from leaking out onto the surface of the brain.

Question 23

Where is CSF produced?

Answer 23

by the choroid plexus, which is inside the ventricles.

Question 24

Describe what the ventricles consist of.

Answer 24

• 2 lateral ventricles
• 3rd ventricle which is in the diencephalon
• 4th ventricle which is surrounded by the medulla, pons and cerebellum.

Question 25

Where is the atrium in the ventricles?

Answer 25

also known as trigone

This is the triangular area, at the junction of the body, temporal and occipital horn of the lateral ventricle.

Question 26

Name some c shaped structures in the brain

Answer 26

lateral ventricles
corpus callosum
fornix
caudate nucleus 
stria terminalis

Question 27

What are the walls of the third ventricle made of

Answer 27

the thalamus and hypothalamus

Question 28

What are the walls of the fourth ventricle made of

Answer 28

top is made of the cerebellum, the bottom is made of the pons.

Question 29

What connects the lateral ventricles to the 3rd ventricle

Answer 29

intraventricular foramen

OR

formen of monro

Question 30

What connects 3rd and 4th ventrices

Answer 30

cerebral aqueduct

or

aqueduct of sylvius.

Question 31

Where does CSF leave the ventricular system?

Answer 31

via various foramen in the fourth ventricle.

These are the foramen of lushka and midline foramen of magendie.

Question 32

Where does CSF go after it leaves the ventricular system?

Answer 32

It percolates the subarachnoid space of the spinal chord and the brain., until it is ultimately absorbed by the arachnoid granulations, into the superior saggital sinus, then back into the bloodstreams.

Question 33

where is most of our CSF

Answer 33

cranial subarachnoid space

Question 34

What are cisterns

Answer 34

This is where the subarachnoid space opens wider to form larger pools of CSF.

Question 35

Name the two main cisterns

Answer 35

cisterna magna - located beneath the cerebellum near the foramen magnum

Quadrigeminal cistern - posterior to midbrain, and beneat the posterior park of corpus callosum.

Question 36

What creates the blood brain barrier?

Answer 36

The endothelial cells that form the capillary walls in the brain have tight junctions, which restricts the metabolites which can get through to the brain.

Cannot pass things through from blood supply to brain.

Question 37

Describe the Blood-CSF Barrier

Answer 37

this is in the choroid plexus.

The epithelial cells form a barrier between capillaries and the CSF

Question 38

What can cross the blood brain barrier

Answer 38

lipid solubles, such as oxygen, CO2

Question 39

What are circumventricular organs?

Answer 39

These are organs or areas whereby the blood brain barrier is interrupted.

These are mostly hormonal brain regions

They need to respond to changes to the chemicals in the rest of the model in order to secrete the appropriate modulatory neuropeptides into the bloodstream.

eg. Median eminence -

Question 40

Where ist he blood brain barrier interrupted?

Answer 40

Circumventricular organs

eg. median eminence.
neurohypophysis of pituitary
area postrema - for detecting toxins that cause vomiting.

Question 41

What is an intracranial mass lesion

Answer 41

anything that occupies volume within the cranial vault.

Question 42

What is a mass lesion?

Answer 42

this causes local tissue damage and remove effects due to mechanical distortion

mass effect

Question 43

What happens when there is a space occupying or mass lesion within the skull?

Answer 43

• Something must leave to accomodate for the extra volume.
• small lesions can be accomodated for by decreasing CSF and blood
• larger lesions will cause raised intercranial pressure, ultimately leading to herniation and death.

Question 44

Describe what herniation is.

Answer 44

This occurs when mass effect is severe enough to push brain structures from one compartment into another.

3 most common herniation syndromes are:

1. herniation through tentorial notch
2. central herniation
3. herniation down through the falx cerebri (subfacine herniation)

Question 45

What are signs of raised intercranial pressure?

Answer 45

 Headache
 Altered mental status, especially irritability & depressed
level of arousal & attention
 Nausea and vomiting
 Papilloedema
 Visual loss
 Diplopia (double vision)
 Cushing’s triad: hypertension, bradycardia, and irregular respirations

• optic cup becomes convex.

Question 46

What is cushing’s triad?

Answer 46

It is a sign of ICP

hypertension, bradycardia, and irregular respirations

Question 47

What is normal intracranial pressure?

Answer 47

less than 20cm h20

or less than 15 mm hg.

usually measuring during lumbar puncture.
do not do lumbar puncture if severely elevated ICP is suspected.

Question 48

Name the three most common herniation syndromes.

Answer 48

central herniation - the brainstem is displaced downwardly.

transtenorial herniation - herniation of the temporal lobe, especially the uncus. This causes a clinical triad of blown pupil (due to CN III being comperssed, ipsilateral), hemiplegia (usually contralateral, except for when big herniation and it compresses the other side of the corticospinal tract) and coma (due to reticular formation compression).

subfalcine herniation - herniation under the falx cerebri, going from one side of the cranium to another.
no clear clinical signs are attributed to this.

Question 49

Describe central herniation

Answer 49

downward shift of brainstem.

usually occurs through the foramen magnum

tonsillar herniation is associated with the medulla being compressed leads to respiratory problems, BP instability and eath.

Question 50

Describe subfalcine herniation

Answer 50

Herniation under then falx cerebri.

This is caused by unilateral mass lesions and can mostly cased the cingulate gyrus to herniate from one side to other side.

Question 51

What are some reason hydrocephalus can occur?

Answer 51

1. excess csf production
2. obstruction of flow - most common
3. decrease in reabsorption via subarachnoid granulations.

excess csf production is very rare and only occurs in certain tumurs.

Question 52

What are the types of hydrocephalus

Answer 52

1. communicating hydrocephalus, which is caused by impaired CSF reabsorption, obstruction of flow in the subarachnoid space or excess CSF prduction
2. noncommunicating hydrocephalus - caused by obstruction of flow WITHIN THE VENTRICULAR SYSTEM.
3. normal-pressure hydrocephalus - chronically dilated ventricles, usually in elderly. usually have gait difficulties, urinary incontinence and mental decline. FORM OF COMMUNICATING hydrocephalus.
4. hydrocephalus ex vacuo .- excess csf in a region where brain tissue was lost as a result of stroke, surgery, atrophy, trauma etc.

Question 53

What are symptoms of hydrocephalus?

Answer 53

• depends on acuteness or chronicity.
• headache, vomitting, cog impairment, decreased cnsciousness, papilloedema, decreased vision and nerve palsies.
• ventricular dilation could compress descending white matter pathways in frontal lobes, leading to unsteady magnetic gait and incontinence.

Question 54

Where does the lumbar puncture occur?

Answer 54

Into the subarachnoid space of the lumbar cistern.

This is at L4.

Question 55

What is CSF?

Answer 55

clear, colourless fluid.

• chemical buffer to maintain constant ionic enviro
• modular pressure change
• protects cranial contents
• around 150 ml in adult
• 400-500ml produced daily
• Cells are believed to actively secrete Na+ into the ventricular system in exchange for K+. Sodium ions electrically attract Cl- and osmotically draw water from the blood vascular system to constitute the CSF.

Question 56

describe the circulation of CSF

Answer 56

• Due to pulsation of blood in choroid plexus
• Due to pulsation of ependymal cells
• Lateral ventricles > interventricular foramen of Monroe >third ventricle >mesencephalic aqueduct (aqueduct of
  Sylvius) >fourth ventricle >spinal cord central canal; also, out the lateral apertures to the subarachnoid space to the venous system

Question 57

What can cause blockage of CSF absorption?

Answer 57

• Subarachnoid hemorrhage.
• brain tumour
• debris from hemorrhage
• infection, inflammation of meninges.

Question 58

Describe bacterial infections in the CNS

Answer 58

• cocci, bacilli –> bacterial meningitis, brain abscess and epidural abscess.
• occurs through blood stream, usually through having infections in order areas of the body.
• oral nasal passages or surgery, trauma.

Question 59

Describe infectious diseases in the CNS

Answer 59

• infectious meningitis is an infection of the CSF in subarachnoid space
• caused by bacteria, viruses, fungus or parasite.

usually symptoms are signs of meningeal irritation

Question 60

What are the signs of meningeal irritation

Answer 60

• headache
• lethargy
• sensitivity to light
• sensitivity to noise
• fever
• nuchal rigidity.

Question 61

What is nuchal rigidity

Answer 61

the neck muscles contract involuntarily resulting in resistance to active or passive neck flexion and neck pain