Neuropathology

Question 1

What stain does Nissl use and what does it stain for?

Answer 1

Cressyl violet

Stains neuronal cell bodies

Question 2

What can we use to stain astrocytes?

Answer 2

GFAP
S100beta
Glutamine synthetase
Holzer

Question 3

What is isomorphic gliosis?

Answer 3

Gliosis refers scarring that occurs when the processes of fibrous astrocytes extend to cover and repair the damaged tissue; it is also called fibrillary gliosis.

Question 4

What are microglia?

Answer 4

The brain’s immune cells

In a disease state microglia begin to express HDA-DR or CD68
They also change shape in disease, have fewer processes but the processes they do have become thicker and shorter

When they are very reactive they become a round blobby shape and this is called AMOEBOID MICROGLIA

Question 5

What are the 4 elements of the BBB?

Answer 5

Endothelial cells- bound together by tight junctions which stop molecules getting out between the edges between endothelial cells

Basement membrane- lacks fenestrations (holes)

Astrocyte- fine processes which wrap around the blood vessel and use their endfeet to seal the vessel. They are another layer which prevent molecules getting out of the blood circulation

Pericytes- their activity regulates the permeability of the whole system

Question 6

What does the internal carotid supply?

Answer 6

The carotid splits into two main branches

The external branch- supplies blood to a lot of the head and neck

The internal carotid branch- forms the middle cerebral artery which supplies blood to the side of the brain.
It also has branches coming off of it such as the anterior cerebral artery which deals with the front of the brain and the bits between the two hemispheres . The two anterior cerebral arteries are joined by the anterior communicating artery.

Together these form the anterior circulation

Question 7

What do the vertebral arteries supply?

Answer 7

They join together to form the basilar artery which goes on to split into the two posterior cerebral arteries and these supply the back of the forebrain, the back of the medial surfaces of the forebrain and some of the inferior parts

Question 8

How is the circle of Willis helpful in stroke?

Answer 8

It means there is a collateral circulation, a set of blood vessels that will get blood into a particular part of tissue whilst going around a blockage, it can help to minimise the damage, but you still can’t get enough blood in to prevent tissue death and damage but it does compensate a little

Question 9

What are the two broad ways to compromise the blood supply to the brain?

Answer 9

1. Block off an artery –> this will take out an entire territory of the brain depending on how far down the blockage goes
2. Fail to perfuse your whole brain adequately –> e.g. when you have a heart attack you get a different pattern of brain tissue that starts to die off, the ischemic change caused by reduced blood supply

Question 10

What is watershed infarcts/stroke?

Answer 10

Defined as brain ischemia that is localised to vulnerable border zones between tissues which are supplied by all 3 arteries (anterior, posterior and middle arteries)

When looking at a brain slice you lose the interface between grey/white matter which shows hypoxic ischemic changes to the brain, it appears dusky and squishy

Question 11

What is a sinus?

Answer 11

A large venous structure that has blood coming away from the brain heading back towards the heart

Question 12

What will you see if you lay someone with heart disease back by 45 degrees?

Answer 12

You will see the pulse from the jugular vein in the neck

Question 13

What is the blood supply to the spinal cord?

Answer 13

Running up the front of the spinal cord is the anterior spinal artery

Up the back of the spinal cord is a complex plexus of different arteries

Question 14

What is in a spinal cord cross section picture? (H)

Answer 14

The white matter is around the outside and the grey matter which is the information processing is on the inside

Inside it are two horns- the ventral horns which is where motor neurons live and the dorsal horns which deal with sensory information

Question 15

In general stuff in the spinal cord goes in through the back and out through the front. What type of information goes in and what type of information goes out of the spinal cord?

Answer 15

Sensory information comes in through the back

Motor information comes out through the front

Question 16

What neurons are in the anterior horn?

Answer 16

Motor neurons which have really big axons and big cell bodies

They are completely decimated in MND- when you lose motor neurons, the spinal nerve rootlets begin to atrophy and shrink

Question 17

How does the spinal cord white and grey matter change depending on the level?

Answer 17

Higher up there is more white matter- you’ve got white matter up here that us sending axons to and from the whole of the cord

Down at the bottom there is less white matter- only sending axons to and from that little bit of the cord at the bottom

Grey matter is different- it varies depending on the amount of motor neurons there are, its more a reflexion of the complexity of movement in that area- areas controlling arms and legs will have more neurons in these areas

Question 18

What is anterolateral cordotomy?

Answer 18

It is done for the treatment of intractable pain

It is a surgical procedure that disables selected pain-conducting tracts in the spinal cord, in order to achieve loss of pain and temperature perception

side effects:
sleep apnoea

Question 19

What is the spinothalamic tract?

Answer 19

Carries pain and temperature sensation

Ascending pathway (up)

Pathway is across then straight up

It synapses at the thalamus and this then projects up to the cortex to the postcentral gyrus

Question 20

What is the dorsal column-medial lemniscus pathway

a.k.a. Posterior column–medial lemniscus pathway

Answer 20

About joint position sense and vibration

Ascending pathway (up)

The sensation comes in and goes straight up the medulla where it decussates to the medial lemniscus (white matter at the bottom of the medulla). Then it goes up through the pons and the midbrain, synapsing into the thalamus and then it projects to the postcentral gyrus

Question 21

What is the corticospinal (pyramidal) tract?

Answer 21

The output pathway- responsible for voluntary movement of the limbs and trunk and also for fine movement

Descending (down)

From the precentral gyrus upper motor neurons project down though a big white matter pathway, through the peduncles, down the pyramids, down through the right front end of the medulla where 80% of fibres decussate and project down the lateral corticospinal tract and then communicate with lower motor neurons in the spinal cord

the other % do not decussate at the medulla but continue down via the anterior corticospinal tract to the skeletal muscle

Question 22

What is the superior colliculus?

Answer 22

Talks to the lateral geniculate of the thalamus, its the visual part of the brainstem

(superior colliculus is higher than the inferior colliculus so superior is sight and inferior is hearing- eyes are higher than ears)

Question 23

What is the inferior colliculus?

Answer 23

Projects to the muddle geniculate of the thalamus, its the auditory part of the brainstem

Question 24

What is the rhomboid fossa?

Answer 24

Floor of the 4th ventricle, its the space between the cerebellum and the brainstem

Question 25

What are the two fibre pathways coming back up the back of the medulla?

Answer 25

Fasciculus cuneatus
Fasciculus gracilis

Together these two form the dorsal columns

Question 26

What is the locus coeruleus?

Answer 26

The locus coeruleus is a nucleus in the pons of the brainstem involved with physiological responses to stress and panic.

It is badly affect in PD

Question 27

What attaches the cerebellum to the brainstem?

Answer 27

Middle cerebellar peduncle

Question 28

How does the wiring in the cerebellum work via granule cells and purkinje cells etc?

Answer 28

Across folia are large dendritic trees of purkinje cells, in between them the cerebellar granule cells send a process up that forms an axon that runs along the length of the folia and this axon synapses onto multiple different purkinje cell dendritic trees.
1 granule cell can synapse onto multiple purkinje cells.
Purkinje cells are the main output pathway of the cerebellum, they project down to the deep cerebellar nuclei and then on from there, the input comes from these mossy fibres that connect onto these cerebellar granule cells from the vestibular nucleus, the spinal cord etc to coordinate movement, then there is also some interaction there regulating the interplay between these climbing fibres from the inferior olivary nucleus

Question 29

What does the cerebellum look like after alcoholism?

Answer 29

Somewhat healthy at the bottom but completely shrivelled away and wasting at the top

Question 30

What is the brown pigmentation in the substantia nigra?

Answer 30

It is neuromelanin, the by product of natural dopamine

Question 31

What happens to dopaminergic neurons in PD?

Answer 31

They die

Question 32

What does cutting the corpus callosum do in epileptic patients?

Answer 32

It reduces the number of excitatory processes occurring and thus reduces seizures

Question 33

What is the intraventricular foramen also referred ti as?

Answer 33

The foramen of monroe

Question 34

What is on either side of the 3rd ventricle?

Answer 34

The basal ganglia and the thalamus

Question 35

How does CSF drain out of the 4th ventricle?

Answer 35

Through the foramen of magendie and the foramen of luschka

Question 36

What cells line the ventricles?

Answer 36

Ependymal cells- they have wavey things on top of them called cilia which beat and are motile, and help move CSF through the system.

Question 37

What is CSF produced by?

Answer 37

choroid plexus

Question 38

What is the striatum made up of?

Answer 38

caudate, putamen and globus pallidus

Question 39

What is the lentiform nucleus made up of?

Answer 39

Putamen and Globus Pallidus

Question 40

What is the massa intermediate?

Answer 40

A connection between the two halves of the thalamus across the third ventricle

It does not provide any useful functional connectivity - some people don’t even have one

Question 41

What does damage to the thalamus cause?

Answer 41

Loss of sensation, pain or movement disorders, plus some potential memory problems

Question 42

What structures are in the basal ganglia?

Answer 42

The basal ganglia consist of five pairs of nuclei: caudate nucleus, putamen, globus pallidus, subthalamic nucleus, and substantia nigra

Question 43

What are striatum inputs?

Answer 43

Inputs from cortex, input from thalamus and input from substantia nigra

Question 44

In PD what happens to the dopaminergic neurons?

Answer 44

They shed their neuromelanin (brown pigment) into the surrounding tissue. You lose the pigment and the substantia nigra becomes pale

Question 45

What happens to the head of caudate in Huntington’s Disease?

Answer 45

It withers away, its concaved

Question 46

What is the genetic mutation in Huntington’s Disease?

Answer 46

An expanded polyglutamine repeat

Question 47

What is the main source of Acetylcholine input to the whole brain?

Answer 47

Nucleus Basalis of Meynert

Question 48

What disease has huge reductions in acetylcholine?

Answer 48

Alzheimer’s Disease

Question 49

What does the drug Aricept do?

Answer 49

Boosts acetylcholine in the brain - although its not particulalry effective

Question 50

What is the main input to the limbic system?

Answer 50

The olfactory system

Question 51

What are Betz cells?

Answer 51

Classic archetype of pyramidal cells, they’re really big

Question 52

What are the 3 broad systems of fibres?

Answer 52

Association fibres- within a hemisphere, take impulses from one part of cortex to another

Commisure fibres- allow cortical regions to communicate between different hemisphere

Projection fibres- go from cortex down to deeper structures, mostly the brain stem and spinal cords