Topic 9 - Head Injuries

Question 1

Describe the development of an intracranial haematoma

Answer 1

Following head injury, blood can gather between the meninges or within the brain - no true space in normal anatomy, increases potential space

Question 2

Describe the ability of the CNS to recover

Answer 2

• CNS neurons have limited ability to recover in comparison to PNS neurons
• Substantial functional recovery occurs due to neural plasticity
  
  • Potential for brain to change structure and function - rewiring of neurons
  • Greater exposure to particular stimulis means more neurons are dedicated to that stimulus (+ vice versa)

Question 3

List the types of brain injuries

Answer 3

1. Primary injury - result of initial trauma
2. Secondary injury - evolving pathophsysiological consequences of the primary injury

Question 4

Describe the development of a subdural haematoma

Answer 4

• Venous blood
• Collects between dura and arachnoid mater
• No limitation of blood flow, spreads more evenly

Question 5

Describe the appearance of a subdural haematoma on a CT

Answer 5

• No limitation of blood flow, blood can spread more evenly
• Less clear on CT, crescent shape

Question 6

List the clinical signs of displacement of the cingulate gyrus under the falx cerebri

Answer 6

• May have no clinical signs
• May be confused, drowsy or show contralateral weakness
  
  • Pressure on motor cortex or compression of anterior cerebral artery)

Question 7

When does recovery from brain injuries occur?

Answer 7

Fastest recovery occurs in the first 6 months, continues for 2 years

Question 8

Describe normal and abnormal flexion in the motor response section of the Glasgow coma scale

Answer 8

Normal - elbow bends, arm moves away from body

Abnormal - elbow bends, arm moves over body

Question 9

Why does brain herniation develop after head injuries?

Answer 9

Brain is not compressible - as mass expands causes displacement (herniation)

Question 10

Explain the clinical usefullness of a Glasgow Coma Score

Answer 10

Numbers from each section can be added to give score, not accurate representation of patient’s condition

Question 11

Describe the appearance of an extradural haematoma on a CT scan

Answer 11

• Characteristic lens shape - blood collects in one area because the dura is fixed to the skull at sutures so it can’t spread
• Causes midline shifting - loss of ventricles
• Fresh blood appears white, turns more grey with time

Question 12

List the categorisation of GCS scores

Answer 12

Mild = 13-15

Moderate = 9-12

Severe = 8 or less

Question 13

List types of secondary head injuries

Answer 13

• Cerebral oedema
• Increased intracranial pressure
• Haemorrhage
• Herniation
• Seizures
• Ischaemia

Question 14

List the behavioural consequences of brain injury

Answer 14

• Period of confusion, disorientation
• Attention and learning ability lost
• Agitation, agression, frustration
• Nervousness, restlessness
• Sleeping pattern disrupted
• Overreaction to stimulation
• Inconsistent behaviour

Question 15

Describe the affect of downwards herniation of the brain on brainstem functions

Answer 15

• Coma
• Altered respiratory rate
• Altered HR
• Altered BP control
• Death from cardiorespiratory arrest

Question 16

Explain the effect a head injury will have on CPP

Answer 16

• ICP increases after injury, decreasing the CPP
• Blood flows from high to low pressure, raised ICP decreases the pressure gradient favouring blood flow to the brain
• Normally the brain autoregulates bloodflow regardless of pressure by changing the resistance of vessels, but after injury these homeostatic mechanisms fail
• Increasing ICP leads to decreasing CPP and ischaemic damage

Question 17

Describe the stages of brain herniation

Answer 17

1. Displacement of cingulate gyrus from one hemisphere to another under the falx cerebri
2. Brain moves downwards (uncle herniation)
3. Brainstem affected

Question 18

List the types of primary injury and give examples

Answer 18

• Focal - localised to site of impact
  
  • Fracture
  • Haematoma - localised bleeding outside blood vessels
• Polar
  
  • Cerebral contusions - multiple microhaemorrhages, small blood vessels leak into brain tissue
  • Usually occur coup (adjacent to site of impact) or contre coup (diagonally opposite)
• Diffuse - movements of the brain within the cranial cavity causing widespread neurol damage
  
  • Diffuse axonal injury - ‘stretching’ injury to the neurons + axons throughout the brain

Question 19

Describe the Glasgow Coma Scale

Answer 19

• Eye opening
  
  • Spontaneous - 4
  • To sound - 3
  • To pressure - 2
  • None - 1
• Verbal response
  
  • Oriented - 5
  • Confused - 4
  • Words - 3
  • Sounds - 2
  • None - 1
• Motor response
  
  • Obey commands - 6
  • Localising to pain - 5
  • Normal flexion - 4
  • Abnormal flexion - 3
  • Extension - 2
  • None - 1

Question 20

Define the Glasgow Coma Scale

Answer 20

A standardised test developed for assessing the level of consciousness in acutely brain injured individual

Question 21

How is CPP used clinically?

Answer 21

As a surrogate marker for cerebral blood flow

Question 22

Describe an intracerebral haematoma

Answer 22

Blood within substance of brain

Question 23

List the types of intracranial haematomas

Answer 23

1. Extradural/epidural
2. Subdural
3. Intracranial
4. Subarachnoid

Question 24

How is ICP measured clinically?

Answer 24

• Can be measured directly - invasive so not usually done
• Neurological observations used to detect increasing ICP after head injuries
  
  • GCS
  • Vitals - pulse, BP, temperature
  • Pupil responses
  • Motor/sensory response
• Every 15 minutes

Question 25

List the signs of increasing ICP

Answer 25

• Decreasing GCS
• Lack of pupillary response to light
• Lateralising signs - weakness on L or R

Question 26

How is cerebral perfusion pressure related to intracranial pressure?

Answer 26

CPP = MAP (mean arterial pressure) - ICP

As ICP rises, CPP falls

Question 27

Describe the development of an extradural haematoma

Answer 27

• Usually arterial bleeding, often from the middle meningeal artery
• Blood collects between the periosteal layer of the dura and the skull
• Periosteal dura is fixed to skull at sutures so blood can’t spread around the whole skull

Question 28

Describe the procedure used to carry out the Glasgow coma scale

Answer 28

1. Check - identify factors which may interfere with assessment e.g. hearing impairment
2. Observe for spontaneous behaviour
3. Stimulate if no spontaneous response
4. Rate

Question 29

Describe subarachnoid haematomas

Answer 29

Blood collects under arachnoid layer

Question 30

Describe uncle herniation and clinical signs

Answer 30

• Herniation of the medial temporal lobe from middle to posterior cranial fossa across the tentorial opening
• Uncus is compressed against midbrain - compresses oculomotor nerve
• Parasympathetic fibres travel on outside of oculomotor nerve - fixed and dilated pupil seen before deviation of eye in down and out position

Question 31

Describe the compensatory mechanism of the brain in response to an expanding mass lesion

Answer 31

• Compensatory capacity is limited
  
  • CSF - 75ml displaced into spinal theca/venous system via arachnoid granules
  • Intracranial venous blood - 75ml redistributed peripherally
  • Brain is incompressible
  • Arterial volume must remain constant - need to maintain blood supply to brain
• Initially as mass expands, CSF and venous blood redistribution maintains ICP
• Reaches critical point - limit of compensation reached (mass lesion >100-120ml)
• ICP rises exponentially

Question 32

Describe the Monroe-Kellie Principle

Answer 32

• Within the skull, there is brain (80%), CSF and blood (venous and arterial)
• ICP must be kept constant - the skull is a rigid container which can’t expand
• If the volume inside the skull increases, this must be offset by an equal decrease in the volume of the other components to keep the ICP constant

Question 33

List the common types of facial fracture

Answer 33

• Zygomaticomaxillary complex (tripod) fracture
• LeFort I, II or III
• Zygomatic fracture
• Orbital floor (‘blow-out’)

Question 34

Define a zygomaticomaxillary (tripod) fracture

Answer 34

• Most common
• Involves separation of all three major attachments of the zygomatic bone to the rest of the face
• Can cause impingement of temporalis muscle - inability to open mouth

Question 35

Define an orbital floor fracture

Answer 35

• Usual mechanism is a blow to the eye
• Thin floor of orbit fractures, eye drops into maxillary sinus

Question 36

Describe LeFort fractures

Answer 36

• LeFort I
  
  • Horizontal, floating palate, transmaxillary
  • Floating fragment - lower maxilla and maxillary teeth
• LeFort II
  
  • Pyramidal
  • Commonly due to downwards blow to nasal area
  • Fracture through the inferior orbital floor
• LeFort III
  
  • Transverse, craniofacial dissociation
  • Most severe - detachement of facial skeleton from cranium
  • Fracture through zygomatic arch