Applied physiology: The Clinical Management of Head Injury

Question 1

How many attendances are there in Scotland with head injury ? in the UK ?

Answer 1

In Scotland 100 000 attendances /yr with head injury

In UK 1.4 M

Question 2

What is the ratio of M:F who present with head injury ?

Answer 2

Male:Female 2:1

Question 3

What are the main age groups which are concerned by head injury ?

Answer 3

Age: 2 peaks early 20s & early 80s

Question 4

What proportion of all patients presenting with head injury are admitted ?

Answer 4

15%

Question 5

What is the leading cause of death in <45 years old ?

Answer 5

Trauma (50% of these are head injury)

Question 6

What proportion of adult head injuries involve alcohol ?

Answer 6

65%

Question 7

What are the different aetiologies of head injuries ?

Answer 7

Falls, assaults, RTAs

Question 8

Describe the change in frequency of traumatic brain injury.

Answer 8

Incidence of traumatic brain injury is increasing

Question 9

Identify the main classifications of brain injury.

Answer 9

PRIMARY (neuronal damage that is done by an external force at the moment of impact. Nerves are irreparable, nothing can be done about that primary injury, can only try to prevent)

SECONDARY (secondary processes which occur at the cell and molecular level to exacerbate neurological damage, i.e. area surrounding dad tissue where blood supply may be impaired, and which may get better or worse. Focus of medical treatment)

Question 10

When does primary brain injury occur ? What does pattern and extent of damage of primary brain injury depend on ?

Answer 10

Occurs at the moment of impact

Pattern and extent of damage depends in nature of impact

Question 11

Describe the brain damages which result from acceleration deceleration injuries, and from direct blows to the head.

Answer 11

Acceleration deceleration injuries result in axonal shearing, with diffuse axonal injuries

Direct blows to the head result in contusions to the brain + bruising around brain

Question 12

Distinguish between primary, and secondary prevention of brain injury.

Answer 12

PRIMARY: strategies to stop impact happening (e.g. speed limits, alcohol regulations)

SECONDARY: If impact occurs, try and minimize damage (e.g. cyclist helmets)

Question 13

What is the main focus of medical intervention in brain injuries ?

Answer 13

Minimizing secondary brain injury, mainly by:

1) OPTIMISE OXYGENATION
2) OPTIMISE CEREBRAL PERFUSION
3) Regulating blood glucose
4) Managing hyper/hypoCapnia
5) Managing body temperature (preventing pyrexia, but in the meantime not inducing any hypothermia)

Question 14

Describe the significance of the ApoE eta4 genotype for boxers.

Answer 14

Some genotypes have poorer outcomes when given blows to the head (i.e. should we screen boxers for ApoE eta4 genotype, which provides them with vulnerability to brain injury ?)

Question 15

Identify the main secondary processes which occur at the cell and molecular level to exacerbate neurological damage (i.e. in secondary brain injury).

Answer 15

• Neurotransmitter release (glutamate)
• Free radical generation
• Calcium mediated damage
• Inflammatory response
• Mitochondrial dysfunction
• Early gene activation

Question 16

Describe the physiological principles surrounding increases in ICP.

Answer 16

Monro-Kellie Doctrine:

• Skull is fixed rigid container, cannot expand. Inside it, there is venous and arterial blood, brain, and CSF.
• Normally, ICP is around 10 mmHg.
• If anything increases in that skull, it can compensate to a certain extent (e.g. due to mass such as hematoma, swelling or bruising of
the brain). This compensation means the mass can squish out some CSF and venous blood. HOWEVER, level of compensation is limited.
• After this level has occurred, if that mass continues to expand, ICP will increase exponentially. Once that happens, cerebral profusion
starts to fail and more cells start to die, and area of secondary brain ischemia expands.

Question 17

Identify the main pathological features of primary brain injury.

Answer 17

-Activation of biomecular mediators of injury
⬇
-Neuronal damage
⬇
-Cytotoxic oedema

-Cerebral vessel damage and opening of BBB
⬇
-Increased interstitial fluid and tissue P
⬇
-Vasogenic oedema

Due to both oedemas, cerebral volume increases, ICP increases, resulting in decreased cerebral perfusion, resulting in vasodilation (to get more blood into brain), which results in further increased cerebral volume, which pushes further secondary brain injury.

Question 18

Graph and explain the correlation between ICP and intracranial V.

Answer 18

Refer to slide 23
Expanding masses in the brain will be able to be compensated for up to critical volume (until which ICP only increases a little), after which ICP increases exponentially.

Question 19

Identify the main kinds of mechanisms of injury to the brain in secondary brain injury. Which of these may contribute to the swelling of the brain ?

Answer 19

Hematoma
Contusion
Hypoxia/Ischemia
Diffuse Axonal Injury

First three will contribute to swelling of the brain

Question 20

Identify the first measures to take, in early management of head injury.

Answer 20

• Assessment and identification of the patient at risk of secondary brain injury
• Pre-emptive investigation (CT scan)
• GCS

THEN

1) Optimise Oxygenation (while remembering cervical spine)
2) Optimise cerebral perfusion
3) Identify features suggesting at risk of intracranial mass
4) Identify those patients where neurosurgical intervention is required, and refer those to neurosurgery (and in the meantime, use ventilation, and drugs to buy time if needed)
5) Control glucose and provide enteral nutritional support

Question 21

Which kinds of patients with head injuries do we send to hospital ?

Answer 21

• Extremes of age (<5years or >65years): elderly have more comorbidities, and may be on drugs including antiplatelets or anticoagulants which may increase risk of bleed (others may be at risk of clotting)
• Amnesia for events before or after injury
• Any loss of consciousness
• High energy injury
• Vomiting
• Seizure (previous neurosurgery)
• Bleeding /clotting disorder

Question 22

Identify possible causes of falls in the elderly.

Answer 22

Cardiac arryhthmias
Simple falls
Syncope

Question 23

How is GCS useful in management of head injuries ?

Answer 23

Useful for:

• Classification
• Initial management
• Ongoing assessment
• Determining prognosis (Best GCS post resuscitation is of prognostic value)

of patient with head injury

Question 24

Identify the main scores of GCS.

Answer 24

1) EYE OPENING
Score 4: Eyes open spontaneously
Score 3: Eyes open to speech
Score 2: Eyes open in response to pain
Score 1: Eyes do not open
Record NT: If patient is unable to open eyes due to swelling, bandages etc.

2) VERBAL RESPONSE
Score 5: Orientated
Score 4: Confused (answering appropriately but with incorrect information)
Score 3: Inappropriate words (answering with recognisable words but not making sense)
Score 2: Incomprehensible sounds (moaning and groaning)
Score 1: No response despite verbal and physical stimuli
Record NT: Dysphasic, Record T if intubated

3) MOTOR RESPONSE
Score 6: Obeys commands
Score 5: Localises to central pain (e.g. trapezius squeeze or supraorbital P)
Score 4: Normal flexion towards source of pain
Score 3: Abnormal flexion
Score 2: Extension to pain
Score 1: No response to painful stimuli

Question 25

Identify questions to ask patient to assess verbal response as part of GCS.

Answer 25

Where are you ?

In the context of a sports match, what’s the score ? What half are we in ?

Question 26

What is the best course of action if hesitating between two scores in the GCS ?

Answer 26

Give higher scoring if hesitating between two (e.g. if one arm flexing, and other extending, record both but use higher score)

Question 27

Can someone be concussed with a GCS 15 ?

Answer 27

Can be concussed with GCS 15 (possibly headache, dizziness, work hard to answer
questions)

Question 28

Identify the degree of head injury for different GCS scores.

Answer 28

Minimal: 15
Mild: 13-15
Moderate: 9-12
Severe: 8 or less

Question 29

Write out the GCS of someone will full marks.

Answer 29

E4V5M6 GCS 15/15

Question 30

Identify instances in which CT scan should be immediately requested in an adult patient.

Answer 30

Request CT scan immediately in adult patients if:

• GCS <13 on initial assessment in A and E
• GCS <15 2 hours after injury
• Suspected open or depressed skull fracture
• Any sign of basal skull fracture
• Post traumatic seizure
• 1 or more episode of vomiting (3 in kids)
• Amnesia for events more than 30 mins before impact

Question 31

What is the imaging of choice in a head injury ? Why ? In which cases may we use the other ?

Answer 31

CT, because faster, less complicated, less potential problems with metal (but sometimes do get supplementary MRI, which is better at detecting diffuse axonal injury)

Question 32

Identify possible red flags leading to decision not to discharge in the context of head injury.

Answer 32

• Red flags:
– Loss of consciousness, drowsiness, confusion, fits
– Painful headache which doesn’t settle, vomiting or visual disturbance
– Clear fluid from ear or nose, bleeding from ears, new deafness (CSF rhinorrhoea test for glucose or beta 2 transferrin)
– Problems understanding or speaking, loss of balance, difficulty walking or weakness in arms or legs

Question 33

Where in the graph of ICP vs ICV are patient with GCS<8 ?

Answer 33

Patient sitting around critical V

Question 34

Explain how to optimise oxygenation in a head injury.

Answer 34

Open the airway, but remember cervical spine (if high impact accident and head injury, assume cervical spine injury until proven otherwise).

1) IMAGING
- Plain X-ray (investigation of choice)
- CT cervical spine may be used too

2) CERVICAL SPINE IMMOBILISATION
If there is a cervical spine injury ➔ Cervical spine immobilisation (solid collar, sand bags on either side, traps going across the neck BUT be careful not to obstruct venous blood flow from skull)

Question 35

What proportion of head injuries have an SpO2 < 90 % ?

Answer 35

When assessed pre admission SpO2 < 90% in 50% of cases

Question 36

Identify the main steps to optimising breathing as part of head injury management.

Answer 36

• Administer oxygen (l
• Monitor SpO2
• Monitor ABGs
a) decreased PaO2 may signal that vasodilation of cerebral vessels will occur to compensate for low oxygen in brain, leading to increased ICP
b) CO2 is a potent vasodilator, increased PaCO2 will result in increased cerebral vessel diameter (and CBF), while decreased PaCO2 will result in vasoconstriction and decrease perfusion and oxygenation of brain tissue
• GCS < 8 intubate (endotracheal tube, take control of breathing including blood gases)
• Decrease demand for oxygen by:
-Treating convulsions with phenytoein (AED of choice in early head injury)
-Treat pyrexia
-Possible sedation (propofol/midazolam) to dampen down neuronal activity

Question 37

What are some reasons many patients are hypoxic post head injury ?

Answer 37

Unconscious and obstructed airway

Lung contusions

Thoracic or pelvic injuries

Question 38

What PaO2 is hypoxic ?

Answer 38

8 or below is hypoxic

Question 39

How much does brain metabolic rate increase with every degree rise in temperature ?

Answer 39

Brain metabolic rate increases 6-9% for every degree rise in temperature

Question 40

What proportion of severe head injuries do convulsions occur in ?

Answer 40

15%

Question 41

What is the target PaCO2 in head injury management ?

Answer 41

PaCO2 4.5-5.0 kPa

Question 42

Draw the graph of Cerebral Blood Flow vs PaCO2.

Answer 42

Refer to slide 30.

Question 43

Draw the graph of Incracranial Compensation for Expanding Mass including Normal State, Compensated State, and Uncompensated State.

Answer 43

Refer to slide 28.

Question 44

When assessed, what proportion of pre-admissions with severe brain injuries are hypoT ?

Answer 44

When assessed pre admission hypotensive in 25% of cases

Question 45

Describe the relationship between CPP, MAP, and ICP.

Answer 45

CPP = MAP - ICP

MAP= Diastolic P + 1/3 Pulse Pressure

Question 46

What value of ICP are we aiming to maintain in severe brain injury ?

Answer 46

Aiming to maintain it below 20 mmHg, because since CPP = MAP - ICP, an increase in ICP will result in a decrease in CPP.

Question 47

Do we want to maintain high or low MAP in severe brain injury ? Why ?

Answer 47

Maintain MAP high, to avoid a decrease in CPP.

Question 48

What ranges of BP does cerebral autoregulation maintain MAP between ? What happens to this in pathology ?

Answer 48

• Normally autoregulation maintains a constant blood flow between MAP 50 mmHg and 150 mmHg.
• Traumatised or ischaemic brain, CBF may become blood pressure dependent.

Question 49

Draw a graph representing cerebral autoregulation.

Answer 49

Slide 32.

Question 50

What are some reasons that patients are hypoT when presenting with severe brain injuries ?

Answer 50

NOT because of the brain injury itself, rather because of other injuries:

• Pelvic fracture and sustained blood loss into peritoneum
• Thoracic injury and hemothorax

Question 51

Identify the main steps to ensure good circulation in severe brain injury.

Answer 51

Overall aims:

• ICP above 60-70
• Systolic BP above 90 mmHg (preferably higher than 120)
• ICP less than 20 mmHg (invasive pressure monitor)

1) Stop hypotension (if present)
- Stop bleeding (giving hypertensive drugs may aggravate bleed)
- IV fluid (saline, blood if needed)

2) Encourage venous drainage
- Nurse head up tilt (15-30 degrees)
- Check straps and ties are not obstructing venous flow

Question 52

Identify features suggesting at risk of intracranial mass (disability).

Answer 52

History:

• high impact injury
• significant retrograde amnesia
• History of coagulopathy -post traumatic seizure

Examination:

• GCS 12/15 or less
• GCS 13/15 or 14/15 and failing to improve within 2 hours of injury
• Clinical signs of skull fracture

Question 53

Identify clinical signs of skull fractures (possibly suggests risk of intracranial mass).

Answer 53

• Peri-orbital bruising (anterior cranial fossa fracture)

- Battle’s sign (bruising behind ear, possible petrous temporal bone fracture (bruising may take time to develop))

Question 54

Identify the main kinds of intracranial masses.

Answer 54

• Extradural hematoma
• Subdural hematoma
• Subarachnoid haemorrhage
• Intracerebral haemorrhage
• Tumours

Question 55

EXTRADURAL HEMATOMA

• How common
• Aetiology
• Vessels involved
• Prognosis
• Appearance on CT
• Clinical feature

Answer 55

EXTRADURAL HEMATOMA

• How common: relatively uncommon
• Aetiology: strongly associated with skull fracture
• Artery involved: middle meningeal artery, 1/3 due to venous bleeding
• Prognosis: good outcome if treated
• Appearance on CT: biconvex, lentil shaped bulge on side
• Clinical feature: Classically a lucid interval

Question 56

SUBDURAL HEMATOMA

• How common
• Vessels involved
• Prognosis
• Appearance on CT

Answer 56

SUBDURAL HEMATOMA

• How common: common
• Vessels involved: Rupture of the veins travelling from the brain surface to the saggital sinus
• Prognosis: Worse
• Appearance on CT: Crescentic shape

Question 57

What proportion of head injuries do subdural hematomas complicate ?

Answer 57

Complicate 20-30% of

head injuries

Question 58

What are the main aetiologies of Subarachnoid Haemorrhages ?

Answer 58

• Assoc. with ruptured aneurysm

* More commonly caused by head injury

Question 59

What are the main aetiologies of intracerebral haemorrhages ?

Answer 59

INTRACEREBRAL HAEMORRHAGES

• Stretching and shearing injury (acceleration deceleration injuries resulting in diffuse axonal injury)
• Impact on inside of skull
• Often contre coup injury

Question 60

What are some factors which will affect management of head injury patients by neurosurgeons ?

Answer 60

• Mechanism of injury
• Age of patient (poorer outcomes for older patients with more comorbidities)
• Respiratory and cardiovascular status
• GCS score and pupil response (if dilated, sign that patient is coning)
• Alcohol/drugs
• Associated injuries (have they been dealt with ?)
• Results of CT scan

Question 61

Identify examples of procedures which neurosurgerons may perform to help in a head injury.

Answer 61

• Removal of hematoma
• Decompressive craniectomy
• Flap

Question 62

Identify clinical signs of herniation in a head injury.

Answer 62

• Dilated or unreactive pupil(s)
• Extensor posturing
• Decrease in GCS of 2 or more points

Question 63

Identify management of patients to ‘buy time’ when waiting to transfer them to neurosurgery.

Answer 63

• Temporary hyperventilation (increase respiratory rate and tidal V, resulting in increased minute V, and decreased PaCO2) can decrease ICP and “buy time”
• 20% Mannitol (0.25-1g/kg) will decrease blood viscosity (improves brain perfusion), and act as an osmotic diuretic (will drain some of edematous fluid from brain)
• Hypertonic saline

Question 64

Describe control of glucose in the context of head injury.

Answer 64

-Tight control of blood glucose has been shown to improve outcome (blood glucose tends to increase because of stress response after major injury) (through insulin)
BUT dangers to unrecognised hypoglycaemia

-ENTERAL NUTRITIONAL SUPPORT (by about 5 days)