Pathology if the CNS

Question 1

what two conditions can cause a significant loss of function to the CNS

Answer 1

• ischemia

- infection

Question 2

why may a small injury from ischemia or infection to one cell cause loss of function to the whole CNS

Answer 2

because the cells in the CNS are connected

Question 3

list the order of cells of the CNS which are susceptible to injury from most to least

Answer 3

• neurons
• oligodendrocytes
• astrocytes

Question 4

what are the roles of astrocytes in the CNS

Answer 4

they maintain the homeostasis of ion channels and ions of the CNS and regulating ionic composition & neurotransmitters

Question 5

how do astrocytes work in order to maintain homeostasis of components within the CNS

Answer 5

by picking up metabolites released in the CNS & picking up GABA & glutamate

Question 6

what is the role of microglia in the CNS

Answer 6

act as macrophages in the CNS by removing infectious elements within the CNS

Question 7

what is the role of oligodendrocytes in the CNS

Answer 7

involved in myelination around the nuclei

Question 8

list the things which causes actions of neurons to injury in the CNS

Answer 8

• acute neural injury - ‘red neurons’
• sub-acute and chronic - ‘degenerations’
• ageing - inclusion bodies, lipofuscin
• neurodegeneration - alzheimer’s (neurofibrillary tangles)

Question 9

what is acute damage in the CNS neurons caused by

Answer 9

ischemia

Question 10

which areas of the brain tend to get infarcts and ischemia

Answer 10

areas between the main arteries e.g. the anterior cerbral artery - ACA & MCA or between the MCA & PCA
or
in the deeper structures e.g. basal ganglia & thalamus

Question 11

why are the deeper structures such a basal ganglia & thalamus at risk to ischemia and stroke

Answer 11

as there is not any collateral supply to the deeper structures as around the brain you have the meninges surrounding it

Question 12

what is the ACA, MCA & PCA areas known as

Answer 12

the watershed areas

Question 13

what do the neurons appear as following an infarct with H and E staining

Answer 13

damaged cells are stained red (ischemic neurons under stress)

Question 14

what do the neurons undergo following an infarct

Answer 14

necrosis & macrophages/microglia scavenge debris

Question 15

which structure of the CNS is not as susceptible to ischemia compared to neurons

Answer 15

oligodendrocytes

Question 16

what is the appearance of the nuclei of oligodendrocytes

Answer 16

small & round

Question 17

what is the name of a tumour of the oligodendrocytes

Answer 17

oligodendoglioma

Question 18

what happens as a result of a oligodendoglioma (tumour)

Answer 18

proliferation/increase in the number of oligodendrocytes compared to that of normal tissues

Question 19

what is it called when there is an increase of the number of cells following a oligodendoglioma

Answer 19

hyperplasia

Question 20

what is multiple sclerosis (MS)

Answer 20

a demyelinating disease (myelin loss - oligodendrocytes)

Question 21

over which structure do oligodendrocytes have darker rounder nuclei

Answer 21

astrocytes (in H and E staining)

Question 22

what are astrocytes

Answer 22

metabolic buffers and detoxifiers in the brain

Question 23

what do astrocytes have a similar function to

Answer 23

fibroblasts (healing)

Question 24

what do astrocytes form

Answer 24

part of the blood brain barrier

forms a protective structure within the choriocapillaris

Question 25

why do astrocytes form part of the blood brain barrier

Answer 25

to protect the CNS from drugs (which is why it can be very hard to reach the brain)

Question 26

why is it not useful to carry out chemotherapy if someone has a brain tumour, and what is a more effective alternative

Answer 26

astrocytes prevents the job of chemotherapy drugs to reach the CNS in the brain, brain surgery is more effective at removing the tumour

Question 27

what is gliosis

Answer 27

the hypertrophy and hyperplasia of astrocytes in response to stress

Question 28

what do you get an increase of in astrocyte hyperplasia

Answer 28

gliosis

Question 29

what is the increase in astrocyte as response from

Answer 29

ischemic GFAP (glial fibrillary acidic protein)

Question 30

what happens to the microglia in response to injury

Answer 30

proliferates, aggregates around foci of necrosis (as any other macrophage would, i.e. moves to the site of damage to initiate wound healing & repair), phagocytose apoptotic/necrotic neurons

Question 31

what type of nuclei do microglia have

Answer 31

elongated rod like

Question 32

what is a cerebrovascular disease e.g. stroke caused from

Answer 32

hypoxia, ischemia and infarct or haemorrhage

Question 33

what is the cause of hypoxia, ischemia and infarct of cerebrovascular disease

Answer 33

impairment of blood supply and oxygenation of tissue (e.g. from heavy smoking reduces the amount of blood to the CNS)

Question 34

what is the cause of a haemorrhage of cerebrovascular disease

Answer 34

resulting from rupture of CNS vessel e.g. blood vessel can cause aneurysm of the brain

Question 35

what does the type of cerebrovascular disease injury depend on

Answer 35

• presence of collateral blood supply (e.g. if it was the watershed region or deeper within the structures or if its more peripheral)
• duration of ischemia
• magnitude and time-course of the reduction in flow (acute vs chronic) i.e. how long the amount of oxygen to the brain was restricted, determines how much damage was done to the brain

Question 36

what is global cerebral ischemia

Answer 36

general reduction in cerebral perfusion (i.e. blood supply is cut off via):

• cardiac arrest - brain dead
• shock - loss of blood = fall in BP and volume (decreased capacity to get oxygen to brain)
• severe hypotension - watershed infarcts

Question 37

what is focal cerebral ischemia caused by

Answer 37

• embolus (travel in the blood & get lodged in a BV)
• thrombosis of artery (thinning of artery)
• vasculititis (inflammation of the artery)

Question 38

what is the appearance of an acute infarct in the brain under the microscope

Answer 38

pale region = blood supply is reduced there

Question 39

what happens as a first sign in tissues 12-24 hours following an infarct under the microscope

Answer 39

appearance of ‘red nuclei’ due to necrosis
releasing glutamate, GABA and calcium as they lose the ability to maintain/regulate their own homeostasis, neurotransmitters, ions become toxic to surrounding tissues

Question 40

what happens 1-2 days following an infarct to the CNS under the microscope

Answer 40

neutrophils marginate/emigrate from blood vessels in the surrounding areas and perfuse the area to deal with the acute inflammation (clearing it up)

Question 41

once neutrophils have approached the area of infarction in the CNS, what do they recruit

Answer 41

macrophages

Question 42

10-14 days following an infarction to the CNS, what occurs

Answer 42

macrophages & microglia will come into the area & initiate wound healing

Question 43

how do macrophages and microglia initiate wound healing following an infarct to the CNS

Answer 43

by laying down collagen fibres and phagocytosing necrotic tissues

Question 44

which cell of the CNS deals with scarring and repairing the wound from an infarct to the CNS and how

Answer 44

astrocytes, by laying down collagen granulation tissue & trying to reorganise the damaged area

Question 45

what is the result of scarring of the damaged area of the brain following infarction

Answer 45

the scarred part of the brain won’t function too well

Question 46

what causes a haemorrhagic infarct ‘red’ in the CNS

Answer 46

• an embolus
  either a cardiac or thrombus set free from the artery (from the heart) to create an embolism which causes an infarct
• fat or bone marrow embolism secondary to fracture
• blood leaks from collateral vessels or through necrotic capillaries

Question 47

what causes a non haemorrhagic infarct ‘pale/bland/anaemic’

Answer 47

• a thrombosis (thinning of the arteries)
  arterial block
  thrombosis of atherosclerotic plaque

Question 48

which therapy is warranted < 3 hours following a non haemorrhagic infarct to the CNS and why

Answer 48

thrombolytic therapy (drug can be given to break down the thrombosis & restore function to the area)
to preserve the penumbra

Question 49

what is the penumbra region and why is it at risk following a non haemorrhagic infarct to the CNS

Answer 49

region on border of infarct that is as risk of necrosis (due to release of neurotransmitters & microglia & astrocytes to the area)

Question 50

which type of infarct can be given treatment and which one cannot

Answer 50

a white non haemorrhagic infarct caused by a thrombosis can be given treatment
but a haemorrhagic infarct caused by an embolis cannot

Question 51

what are the two classes of infarct to the CNS

Answer 51

• haemorrhagic ‘red’

- non haemorrhagic ‘white’

Question 52

what are retinal microglia

Answer 52

surveyors of the environment of the retina and check for any diseases or pathology by dynamic movements of their processes, allowing the neural parenchyma to be completely sampled every few hours with very little movement of the microglial somata

Question 53

what do microglial cells of the retina react to

Answer 53

injury

Question 54

what appearance do the RPE cells have in a young retina

Answer 54

hexagonal shape cells

Question 55

in a younger retina, where is the microglia located

Answer 55

limited to the outer plexiform layer and above in the inner plexiform layer & ganglion cell layer, maybe one odd microglia cell found in the RPE

Question 56

in an older/aged retina, where is the microglia located

Answer 56

more microglia found at the RPE as it breaks through the OPL, as also found at the sub retinal space as well as in the outer segments of the retina

Question 57

what do microglia secrete

Answer 57

neuroprotective substances (implicated in alzheimer’s & ARMD through reduced surveillance & protection)

Question 58

what are neuroprotective substances which the microglia secretes important for

Answer 58

the maintenance of the health of the neural retina

Question 59

as well as microglia not remaining in the OPL and migrating to the RPE, what does an old retina lack in compared to a young retina and what does this result in

Answer 59

ramification (is reduced)
therefore not able to protect the retina as well as there are less branches of the microglia and therefore less able to search & touch surrounding neural tissues

Question 60

in order to carry our surveillance, what has to occur in the microglia structure over time

Answer 60

growth and extension of the microglia axons which occurs in young and old microglia

Question 61

although both young and old microglia axons can grow and extend the same over time, what difference is there with the axons which has an advantage in surveillance in younger microglia

Answer 61

younger microglia axons have larger movements which are also more frequent and older microglia axons have slower movements so are slower at detecting movements

Question 62

at what rate does a laser burn in a young compared to an old microglia accumulate

Answer 62

both accumulate at the same rate

Question 63

as the young and old microglia can accumulate at a laser burn at the same rate, what difference to they have following the accumulation

Answer 63

dispersal and healing in a younger microglia is quicker, and slower in an aged microglia i.e. slower to phagocytose & repair the damaged tissue

Question 64

what does a crush of the optic nerve cause

Answer 64

glaucoma

Question 65

what does a crush of the ONH cause a loss of

Answer 65

RGCs

Question 66

what is identified as the ending of the disc of the ONH

Answer 66

limit of bruch’s membrane found my modern imaging

Question 67

what can finding the limit of bruch’s membrane help with

Answer 67

finding the cup disc ratio much better as it promotes the disc margins

Question 68

what does the ophthalmic artery branch down to

Answer 68

central retinal artery

Question 69

where does the ONH get their supply from

Answer 69

central retinal artery

Question 70

whittles branched off the ophthalmic artery

Answer 70

short & long posterior ciliary arteries

Question 71

where does the long posterior ciliary artery go to and why

Answer 71

to the front of the eye, to supply that region

Question 72

what is the lamina cribrosa

Answer 72

holes in the sclera through which axons of the RGCs pass in sheaths

Question 73

what type of fit do the sheaths of RGCs that go through the lamina cribrosa have

Answer 73

tight fit

Question 74

how does IOP cause damage to the sheaths of the RGCs in the lamina cribrosa

Answer 74

by creating more pressure

Question 75

which theory does the damage of the sheaths of the RGCs in the lamina cribrosa created by IOP =

Answer 75

trauma/mechanical theory of glaucoma

Question 76

what strengthens the lamina cribrosa

Answer 76

collagen

Question 77

what is the type of collagen fibres we have in our lamina cribrosa important for

Answer 77

mechanical strength & how flexible the lamina cribrosa is

Question 78

in relation to the collagen fibres of the lamina cribrosa, how can a rigid lamina cribrosa cause more trauma to RGCs which pass through

Answer 78

eye movements around the rigid lamina cribrosa

Question 79

what factor determines the type of collagen we have in our lamina cribrosa which can determine susceptibility to glaucoma

Answer 79

genetic factor

Question 80

how can the ONH be more vulnerable to hypoxia, inflammation & glaucoma

Answer 80

if a smoker or diabetic

Question 81

list the potential things which can cause glaucoma

Answer 81

• pathogenesis
• age
• hypoxia
• trauma
• genetics (afro Caribbean/diabetes)

Question 82

what does early signs of glaucoma show in visual fields

Answer 82

small isolated/localised scotomas

Question 83

as glaucoma progresses, what do the small localised scotomas become

Answer 83

merge and become an arcuate scotoma

Question 84

what does the arcuate scotoma in more advanced glaucoma respect

Answer 84

the horizontal line

Question 85

what type of visual field defect can a tumour if it is in the retina cause

Answer 85

visual field defect can be anywhere in the retina as it does NOT respect the horizontal or the vertical midline

Question 86

if the tumour is post chiasmatic, what will it respect in terms of visual fields

Answer 86

the horizontal midline

Question 87

if the tumour is pre chiasmatic, what will it respect in terms of visual fields

Answer 87

the vertical midline

Question 88

which visual field areas are lost, when theres a loss of RGCs

Answer 88

areas above and below the horizontal midline (i.e. glaucoma)

Question 89

what do RGCs undergo with high IOP

Answer 89

apoptosis

Question 90

what does TGD-beta stand for

Answer 90

transforming growth factor beta

Question 91

what two things increase with increased IOP with signs of microglia & macrophages from damage to the ONH

Answer 91

TGF-beta & collagen-1

Question 92

what type of eyes is transforming growth factor beta highly expressed in

Answer 92

glaucomatous compared to non glaucomatous eyes (showing pinkish blobs/hue in glaucoma ONH)

Question 93

what is TGF beta secreted by and what does this mean

Answer 93

macrophages so immune reaction against ONH (which is damaged from elevation in IOP)

Question 94

list the things that can cause infections of the CNS

Answer 94

• haematogenous spread - artery/veins
• traumatic - infection secondary to trauma (e.g. brain injury from orbital cellulitis) or congenital malformation or meninges
• local - sinuses, teeth, osteomyelitis
• peripheral nervous system to CNS (zoster, rabies) feed back into CNS

Question 95

when can infections spread to the body/CNS especially

Answer 95

when in a coma as can’t speak if they are getting symptoms

Question 96

what is acute meningitis

Answer 96

inflammation of CSF + pia mater & arachnoid mater, known as the leptomeninges

Question 97

what can be the three types of causes of acute meningitis and give examples

Answer 97

- acute pyrogenic:
bacterial = E. Coli (young), N. meningitidis (adult) stereptococci (old)
- aseptic:
viral
- chronic: 
tuberculosis

Question 98

what are the neurological symptoms and systemic signs of an acute pyrogenic ‘bacterial’ CNS infection

Answer 98

shown via spinal tap:

• CSF cloudy
• high neutrophils number
• increase protein concentration
• decreased glucose
• bacterial culture positive

Question 99

why is there decreased glucose in an acute pyrogenic ‘bacterial’ CNS infection

Answer 99

as the bacteria eats the glucose up

Question 100

what are the fever & neurological symptoms of an acute aseptic ‘viral’ CNS infection

Answer 100

shown via spinal tap:

• lymphocytes in CSF (CSF = non cloudy)
• protein elevation mild high
• glucose normal
• usually self-limiting

Question 101

what causes the infection of the brain called viral meningoencephalitis

Answer 101

brain + meninges
- many ‘arboviruses’ = arthropod borne virus
- mosquito vectors
leads to seizures, ocular palsies, coma, death

Question 102

what does viral meningoencephalitis lead to

Answer 102

seizures, ocular palsies, coma, death

Question 103

what is HSV-1

Answer 103

herpes simplex virus, retrograde infection through trigeminal to temporal lobes

Question 104

which herpes virus is NOT sexually transmitted

Answer 104

herpes simplex virus -1 (HSV-1)

Question 105

what are the symptoms of herpes simplex virus -1

Answer 105

• cold sores
• change in mood, memory and behaviour (as frontal lobe impaired)
• temporal & frontal lobes (infection can get into CNS and effect)

Question 106

what type of population is herpes simplex virus -1 most common in

Answer 106

children

Question 107

what do 10% of herpes simplex virus -1 sufferers have

Answer 107

previous exposure

Question 108

what type of herpes is herpes simplex virus -2

Answer 108

genital herpes (sexually transmitted)

Question 109

how many % of children acquire herpes simplex virus -2 and how

Answer 109

50% during birth if mother is infected

Question 110

what do herpes simplex virus -2 sufferers develop

Answer 110

encephalitis (viral meningitis)

Question 111

what two things does viral encephalitis show in HSV-2

Answer 111

• perivascular cuffs of leukocytes

- microglial nodules - clusters of reactive astrocytes + microglia & rod nuclei

Question 112

what are microglial nodules common in

Answer 112

viral infections

Question 113

what is a motor neuron disease the degeneration of which neurons

Answer 113

upper and lower neurons

Question 114

what is a motor neuron disease mutations in

Answer 114

super-oxide dismutase

Question 115

which part of the spinal chord does a motor neuron disease thin

Answer 115

anterior/motor (ventral) roots

Question 116

what does a motor neuron disease cause atrophy in

Answer 116

• precentral gyrus (motor cortex)
• anterior horn neurons
• motor ventral column of spine (in motor neuron disease)

Question 117

what can be associated in the late stages of a motor neuron disease

Answer 117

ocular palsies

Question 118

what does a motor neuron disease cause the atrophy of

Answer 118

ventral motor column of CNS/spine

Question 119

what does alcoholism cause in the CNS/brain

Answer 119

cerebellar degeneration (wiped out)

Question 120

what symptoms and why, does cerebellum degeneration due to alcoholism cause

Answer 120

staggering, as it is involved in fine movement