Neuropathology 3

Question 1

If the brain enlarges (e.g due to an SOL), what must escape the cranial vault to avoid rise in pressure

Answer 1

• CSF

* Blood

Question 2

What does increased brain volume lead to?

Answer 2

Increased ICP

Question 3

Suggest causes of raised ICP.

Answer 3

• Increased CSF (hydrocephalus)
• Focal lesion in brain (SOL)
• Diffuse lesion in brain (e.g. oedema)
• Increased venous volume
• Physiological (hypoxia, hypercapnia, pain)

Question 4

What is hydrocephalus?

Answer 4

An accumulation of excessive CSF with the ventricular system of the brain

Question 5

What is CSF produced by?

Answer 5

Choroid plexus in the lateral and fourth ventricles of the brain

Question 6

What is CSF absorbed by?

Answer 6

Arachnoid granulations

Question 7

How much CSF is normal?

Answer 7

120-150ml

Question 8

How much CSF would there be in hydrocephalus?

Answer 8

500ml

Question 9

CSF fluid looks…

Answer 9

CLEAR

Question 10

What does CSF contain?

Answer 10

Lymphocytes <4 cells/ml
Neutrophils 0 cells/ml
Protein <0.4g/l
Glucose >2.2mmol/l
No RBCs

Question 11

What does CSF not contain?

Answer 11

RBC’s

Question 12

What 3 things can hydrocephalus be due to?

Answer 12

• Obstruction
• Decreased resorption
• Overproduction

Question 13

What can cause obstruction to CSF?

Answer 13

• Inflammation
• Pus
• Tumours

Question 14

What can cause decreased resorption to CSF?

Answer 14

• Post- SAH

* Meningitis

Question 15

What causes an overproduction of CSF?

Answer 15

Tumours of the choroid plexus

Question 16

Hydrocephalus can be either?

Answer 16

Communicating OR Non-communicating

Question 17

In non-communicating hydrocephalus, where does the obstruction to flow of CSF occur?

Answer 17

Within the ventricular system and CANNOT exit

Question 18

In communicating hydrocephalus, where does the obstruction to flow of CSF occur?

Answer 18

Goes outside of the ventricular system ie. in subarachnoid space, or at the arachnoid granulations
i.e it is communicating with something outwith the ventricular system

Question 19

What happens if hydrocephalus occurs before closure of the cranial sutures?

Answer 19

Cranial enlargement

Question 20

At what age does closure of the cranial sutures occur?

Answer 20

2-3 years old

Question 21

What happens if hydrocephalus develops after the closure of the cranial sutures?

Answer 21

There is expansion of ventricles and increasing ICP

Question 22

What is hydrocephalus ex vacuo?

Answer 22

Dilatation of the ventricular system, and a compensatory increase in CSF volume, secondary to a loss of brain parenchyma

Question 23

In what condition would you see hydrocephalus ex vacuo? Why?

Answer 23

Alzheimer’s

- due to brain atrophy

Question 24

What is ‘coning’?

Answer 24

Tonsillar herniation of the cerebellum into the foramen magnum

Question 25

Why does coning occur?

Answer 25

Due to raised ICP

Question 26

What 5 things occur due to raised ICP?

Answer 26

• Intracranial shifts and herniations
• Midline shifts
• Distortion and pressure on cranial nerves and vital neurological centres
• Impaired blood flow
• Reduced level of consciousness

Question 27

Name the 4 main types of herniations.

Answer 27

1 – Subfalcine
2 – Tentorial
3 – Cerebellar/Tonsillar
4 – Transcalvarial

Question 28

Describe subfalcine herniations.

Answer 28

Displacement of the brain (typically the cingulate gyrus) beneath the free edge of the falx cerebri due to raised intracranial pressure

• MOST COMMON

Question 29

Describe cerebellar/tonsillar herniations.

Answer 29

Transforaminal herniation, or “coning”, the cerebellar tonsils move downward through the foramen magnum possibly causing compression of the lower brainstem and upper cervical spinal cord as they pass through the foramen magnum

Question 30

What are the 4 main symptoms or raised ICP?

Answer 30

• Papilloedema
• N+V
• Neck stiffness
• Headache

Question 31

What causes papilloedema?

Answer 31

Pressure on the optic disc

Question 32

Describe the headache in raised ICP.

Answer 32

Worse when lying down, coughing, straining and sneezing

Question 33

How does raised ICP cause N+V?

Answer 33

Pressure on vom centre in pons and medulla

Question 34

How does raised ICP cause neck stiffness?

Answer 34

Pressure on the dura around the brainstem and cerebellum

Question 35

Give examples of SOL’s.

Answer 35

• Tumour (primary or mets)
• Abscess
• Haematoma

Question 36

What are the common signs when a patient has a brain tumour?

Answer 36

• Focal deficit

* Papilloedema

Question 37

What are the common symptoms when a patient has a brain tumour?

Answer 37

• Focal sx (68%).
• Headache (54%)
• Vomiting.
• Seizures (26%).
• Visual disturbances.

Question 38

Why are headaches in relation to brain tumours worse in the morning?

Answer 38

We tend to become slightly hypercapneic, retaining CO2 while we sleep
This leads to increased blood flow, and a commensurate increases the size of the brain.
And as a result the headache can improve slightly as we blow off CO2

Question 39

Where do 70% of brain tumours in children occur?

Answer 39

Below the tentorium cerebelli

Question 40

Where do 70% of brain tumours in adults occur?

Answer 40

Above the tentorium cerebella

Question 41

Where do 70% of brain tumours in adults occur?

Answer 41

Above the tentorium cerebelli

Question 42

What are the commonest cancers to metastasise to the brain?

Answer 42

Breast, bronchus, kidney, thyroid and colon carcinomas

Malignant melanomas

Question 43

Where are brain mets most often seen?

Answer 43

At the boundaries between grey and white matter

Question 44

What is the most common brain tumour in adults?

Answer 44

Astrocytoma

Question 45

What is the most common benign brain tumours in adults?

Answer 45

Meningioma

Question 46

What can some high grade tumours secrete? What does this lead to?

Answer 46

VEGF

Increased vascularity

Question 47

What is the most common brain tumour in children?

Answer 47

Pilocytic astrocytomas

Question 48

What is the 2nd most common brain tumour in children?

Answer 48

Medulloblastoma

Question 49

Describe the cells in medulloblastoma.

Answer 49

Poorly differentiated/embryonal (look like primitive undifferentiated embryonal cells).

Question 50

Where do medulloblastomas occur?

Answer 50

In the midline of the cerebellum

Question 51

What is the prognosis of a medulloblastoma if untreated?

Answer 51

AWFUL

Question 52

A medulloblastoma is very ___________

Answer 52

RADIOSENSITIVE

Question 53

Where can a medullablastoma occupy?

Answer 53

4th ventricle

Question 54

What are the 2 main ways in which a brain abscess can arise?

Answer 54

• Local extension e.g mastoiditis

* Direct implantation e.g skull fracture

Question 55

Where do single brain abscesses tend to occur?

Answer 55

Adjacent to the brain

Question 56

How do multiple abscesses arise?

Answer 56

Due to haematogenous spread ie. bronchopneumonia, bacterial endocarditis., lung abscess, left to right shunt of the heart, PWID

Question 57

Where do multiple abscesses tend to arise?

Answer 57

At the grey and white matter boundary

Question 58

What symptoms are associated with abscesses?

Answer 58

• Fever
• Raised ICP
• Symptoms of underlying cause

Question 59

How are abscesses diagnosed?

Answer 59

CT or MRI

Question 60

What kind of lesions do abscess appear as on CT/MRI?

Answer 60

ENHANCING

Question 61

Aside from CT and MRI, what other investigations are done?

Answer 61

Aspiration - for culture and treatment

Question 62

How are brain abscesses treated?

Answer 62

Weeks of ABx

Question 63

What is the definition of ‘meningitis’?

Answer 63

Inflammation of the leptomeninges and CSF within the subarachnoid space

Question 64

What does meningitis frequently cause?

Answer 64

Severe oedema and raised ICP

Question 65

How is meningitis usually derived?

Answer 65

Haematogenous spread

Question 66

What are the results of an LP in someone with meningitis?

Answer 66

• Low glucose

* LOTS of polymorphs

Question 67

What can arachnoiditis later cause?

Answer 67

Lack of CSF absorption, hydrocephalus and raised ICP

Question 68

Sometimes things that are not SOL’s can cause oedema and thus become SOL’s

Answer 68

TRUE

Question 69

What organism is most commonly found in neonates with meningitis?

Answer 69

E coli

Question 70

What organism is most commonly found in infants and children with meningitis?

Answer 70

H. influenzae

Question 71

What organism is most commonly found in young adults with meningitis?

Answer 71

N. meningitidis

Question 72

What organism is most commonly found in older adults with meningitis?

Answer 72

S. pneumonia

Question 73

What organism is most commonly found in elderly with meningitis?

Answer 73

L. monocytogenes

Question 74

What are the 2 categories of head trauma?

Answer 74

Penetrating or blunt

Question 75

What 3 things can head trauma cause?

Answer 75

• Skull fractures
• Parenchymal injury
• Vascular injury

Question 76

Describe a penetrating head injury.

Answer 76

• Focal damage
• Laceration at site
• Haemorrhage
• High/Low velocity

Question 77

What does blunt head injury occur due to?

Answer 77

Sudden acceleration/deceleration of the head

Question 78

What is the relationship between contact time and force?

Answer 78

The smaller the contact time, the larger the force

Question 79

What happens to the brain in a blunt trauma injury?

Answer 79

The brain moves within the cranial cavity, and makes contact with the inner table of the cranium and bony protrusions

Question 80

Suggest causes of blunt brain trauma.

Answer 80

Road traffic collisions (RTC’s)
Falls
Assaults
Alcohol

Question 81

Describe PRIMARY brain injury.

Answer 81

• Occurs at time of injury
• Irreversible
• Preventative measures

Question 82

Describe SECONDARY brain injury.

Answer 82

• Haemorrhage
• Oedema
• Potentially treatable
• Exacerbates injury

Question 83

What are the 3 different types of skull fracture?

Answer 83

• Linear
• Compound
• Depressed

Question 84

Describe a linear skull fracture.

Answer 84

Straight, sharp fracture line that may cross sutures (diastatic fracture).

Question 85

Describe a compound skull fracture.

Answer 85

Associated with full thickness scalp lacerations

– compound ones are open and carry as risk of bacterial infection

Question 86

Describe a depressed skull fracture.

Answer 86

• Higher risk of intracranial bleeding and haemotomas

* Base of skull fractures

Question 87

Where do coup injuries occur?

Answer 87

To the brain on the side of the impact

Question 88

Where do contra-coup injuries occur?

Answer 88

Diametrically opposite the point of impact

Question 89

Contra-coup injuries are worse than coup injuries

Answer 89

TRUE

Question 90

Why are contra-coup injuries worse than coup injuries?

Answer 90

• Denser CSF moves to impact (coup) side first, forcing brain to contra-coup side 1st. In this situation the contra-coup would have the higher energy
• Cavitation – low pressure in brain moving away from zone opposite the impact side. Low pressure creates cavitation bubbles, which damage parenchyma

Question 91

When does diffuse axonal injury occur?

Answer 91

At the moment of injury

Question 92

What is diffuse axonal injury?

Answer 92

Widespread tearing of axons at the moment of injury

Question 93

What kind of pattern does diffuse axonal injury have?

Answer 93

Uniform

Question 94

Where does diffuse axonal injury usually affect?

Answer 94

Central areas of the brain

Question 95

What can diffuse axonal injury lead to?

Answer 95

Reduced consciousness + coma.

Vegetative state.

Question 96

Why does diffuse axonal injury occur?

Answer 96

Because of shearing strains

Question 97

Outline the cellular events that lead to secondary injury.

Answer 97

1. Injury to microvasculature and the blood brain barrier occurs.
2. Oedema
3. Hypoxia
4. Glutamate release -> Excitotoxicity
5. Increased intracellular Ca2+
6. Hypoxia also increases oxidative stress, causing mitochondrial injury and free radical formation
7. These processes bring about apoptosis and necrosis
8. To an extent, further tissue disruption can exacerbate the situation creating positive feedback loops of enhancing local injury

Question 98

What are the most important mechanisms of excitotoxicity?

Answer 98

Glutamate and oxygen free radical formation, bringing about CALCIUM influx

Question 99

What does Ca2+ influx bring about?

Answer 99

Apoptosis and necrosis

Question 100

What causes glutamate release?

Answer 100

Depolarisation

Question 101

Name the 3 main types of oedema.

Answer 101

• Cytotoxic
• Ionic/osmotic
• Vasogenic

Question 102

When does cytotoxic oedema occur?

Answer 102

Intoxication, Reye’s and severe hypothermia

Question 103

When does ionic oedema occur?

Answer 103

Hyponatraemia + excess water intake ie. in SIADH

Question 104

When does vasogenic oedema occur?

Answer 104

Trauma, tumours, inflammation, infection and hypertensive encephalopathy

Question 105

When does haemorrhagic conversion occur?

Answer 105

• Occurs when endothelial integrity is completely lost and blood can enter the extracellular space.
  Such extravasation of RBCs occurs in as many as 30 to 40% of ischaemic strokes

Question 106

The majority of intracranial haematomas are _______

Answer 106

INTRADRUAL

Question 107

What are the 3 main categories of intradural haematomaS?

Answer 107

• 13% subdural
• 15% intracerebral haematomas
• 3% subarachnoid

Question 108

What is a ‘burst lobe’ intradural haemorrhage?

Answer 108

A subdural in continuity with intracerebral haematoma particularly in frontal and temporal lobe

Question 109

What happens with age?

Answer 109

Brain atrophy

Question 110

What do traumatic extradural haematomas occur as a complication of?

Answer 110

A fracture in the squamous portion tempero-parietal region that involves the middle meningeal artery. – leakage into extradural space, resulting in a tearing of the dura away from the skull

Question 111

What happens if a traumatic extradural haematoma is left untreated?

Answer 111

Midline shift, resulting in compression and herniation

Question 112

What is a subdural haemorrhage?

Answer 112

Collections of blood between the internal surface of dura mater and arachnoid mater.

Question 113

What are subdural haemorrhages caused by?

Answer 113

Disruption of bridging veins that extend from the surface of the brain into the subdural space

Question 114

What are subdural haemorrhages mostly caused by?

Answer 114

Trauma

Question 115

Who are subdural haemorrhages most common in? Why?

Answer 115

Elderly

- as you get older you get brain atrophy so there is more space for bridging veins to stretch and avulse

Question 116

What is preserved in subdural haemorrhages? Why?

Answer 116

Gyral contours – pressure is evenly distributed

Question 117

Where does the swelling of the cerebellum in subdural haemorrhages occur?

Answer 117

On the side of the haematoma

Question 118

What happens to non-treated and non-fatal haematomas?

Answer 118

They become liquefied, and form a yellowish neomembrane

Question 119

What are chronic subdural haemorrhages associated with?

Answer 119

Brain atrophy

Question 120

What are chronic subdural haemorrhages not less associated with?

Answer 120

Trauma

Question 121

What are chronic subdural haemorrhages composed of?

Answer 121

Liquefied blood/yellow-tinged fluid, separated from inner surface of dura mater and underlying brain by ‘neomembrane.’