Management of traumatic brain injury

Question 1

What is primary brain injury?

Answer 1

• Damage caused by the trauma
• Haemorrhage and oedema

Question 2

What is secondary brain injury?

Answer 2

• Excitatory neurotransmitters, reactive oxygen species and pro-inflammatory cytokines (a result of the primary damage) lead to:
  
  • Cerebral oedema formation
  • Increased intracranial pressure
  • Compromised blood-brain barrier
  • Alterations in cerebrovascular reactivity

Question 3

What fluids should be used in traumatic brain injury?

Answer 3

• Either ¼ aliquots of ‘shock’ rates
  
  • 15-20ml/kg boluses of Hartmann’s and/or…
  • 2.5-5ml/kg Colloids
  • Reassess and give more if needed
• OR 7.2% hypertonic saline
  
  • Rapidly restores circulating volume and decreases oedema
  • 4ml/kg over 3-5 mins
  • Follow with crystalloids

Question 4

How can you minimise increases in ICP in traumatic brain injury?

Answer 4

• Raise head and neck by 15-30^o from horizontal
  
  • Use stiff board under the chest
  • Increases venous drainage
• Remove collars and check any wraps on venous catheters

Question 5

Benefits of hypothermia in traumatic brain injury?

Answer 5

• Thought to decrease brain metabolic demands leading to decreased cerebral oedema and ICP
• Induced hypothermia thought to provide beneficial results through reduction in the release of excitatory neurotransmitters e.g. glutamate
• May also reduce secondary brain injury by inhibition of posttraumatic inflammatory response including reduction in release of inflammatory cytokines and preservation of the BBB

Question 6

Disadvantages to induced hypothermia?

Answer 6

• coagulation disorders
• increased susceptibility to infections
• hypotension
• bradycardia
• dysrhythmias
• Complications occur with more severe hypothermia (<3O^oC)

Question 7

Why do we need to avoid hyperthermia?

Answer 7

• direct trauma to the thermoregulatory centre
• excitement
• seizure activity
• pain
• Increases cellular metabolism and vasodilation leading to increased ICP

Question 8

Risk factors for seizures with traumatic brain injury?

Answer 8

• severity of injury
• depressed skull fractures
• epidural, subdural and intra-cerebral haematomas
• penetrating head wounds
• seizure within the first 24 hours following injury

Question 9

Adverse effects of seizure activity in patients with brain injury?

Answer 9

• hyperthermia, hypoxaemia, and cerebral oedema
  
  • Exacerbate increased ICP

Question 10

What drugs can be used to control seizures?

Answer 10

• Diazepam regarded as drug of choice for stopping seizures
• Use phenobarbitone for prevention

Question 11

How do barbiturates (including phenobarb) work?

Answer 11

• Decreases metabolic needs of the brain
• Also causes vasoconstriction and decreased blood flow

Question 12

When should barbiturates be used?

Answer 12

• ONLY use when all other treatments fail
• Decreases metabolic demands of the brain
• May worsen outcome, although beneficial when nothing else works
• Pentobarbitone treatment of choice in this category

Question 13

Recommendations for nutrition in TBI?

Answer 13

• Hypermetabolic and catabolic state
  
  • Especially with animals that are seizuring
• Early enteral nutrition maintains integrity of GI mucosa
  
  • beneficial effects on immunocompetence
  • improves the metabolic response to stress
  • parenteral nutrition asap if enteral not possible

Question 14

Advantages of urinary catheters?

Answer 14

• Reduce urine scalding
  
  • Especially if the animal is seizuring
• Measure urine output and assess success of fluid therapy

Question 15

Disadvantages of urinary catheters?

Answer 15

• >50% dogs with indwelling catheters end up with UTI’s
  
  • Less likely with intermittent catheterisation than with permanent indwelling

Question 16

Complications of traumatic brain injury?

Answer 16

• coagulopathies, pneumonia, sepsis, transient or permanent central diabetes insipidus (transient well reported in dogs) and seizures
• Delayed seizures months to years later

Question 17

What is a common and potentially deadly sequel to traumatic brain injury, and why?

Answer 17

• Increased intracranial pressure
• Perfusion decreases if brain enlarges - hypoxaemia

Question 18

What systemic contributions are there to secondary brain injury?

Answer 18

hypotension, hypoxia, hypo- or hyperglycaemia, hypo- or hypercapnia, and hyperthermia

Question 19

Which type of brain injury can be manage?

Answer 19

Secondary

(primary brain injury has already occurred before they get to us so we can do nothing about it)

Question 20

How should you assess the traumatic brain injury patient initially?

Answer 20

• Hypovolaemia and hypoxaemia must be recognised and treated (strongly correlated with increased ICP and increased mortality in human TBI victims)
• Initial neurologic assessment (still give oxygen, make sure they can breathe and give fluids)
  
  • consciousness
  • breathing pattern
  • pupil size and responsiveness
  • ocular position and movements
  • skeletal motor responses
• A modified Glasgow coma scale (MGCS) has been proposed for use in veterinary medicine and evaluated with respect to survival over a 48-hour period
  
  • Higher scores correlate with a better prognosis
  • Level of consciousness most reliable measure of impaired cerebral function
  • Validated for use in dogs and cats, not appropriate for horses

Question 21

What is the first issue that is managed first in traumatic brain injury cases?

Answer 21

• Initial extracranial stabilisation takes place first (sort circulation first)
  
  • Correction of tissue perfusion deficits, typically as a result of hypovolaemia
  • Optimising systemic oxygenation and ventilation

Question 22

Goals for intracranial stabilisation include…?

Answer 22

• Optimising cerebral perfusion
• Decreasing ICP
• Minimising increases in cerebral metabolic rate

Question 23

What levels are oxygen saturation are we aiming for and which levels are dangerous?

Answer 23

• SpO₂ >95% or PaO₂ >90mmHg
• <89% likely severe hypoxaemia with marked consequences
• <75% life-threatening hypoxaemia

Question 24

What does high PaCO2 lead to with traumatic brain injury patients?

Answer 24

• High PaCO₂ leads to vasodilatation and worsening of ICP
• However hyperventilation contra-indicated
  
  • Leads to vasoconstriction and reduced intra-cerebral perfusion
• Aim for 38-40mmHg

Question 25

How is hyperosmolar therapy used in TBI?

Answer 25

• Mannitol for severe TBI and progressive neurologic deterioration
• First-line therapy for decreasing ICP and improving CPP
• 0.5 to 1.5 g/kg as a slow bolus over 15–20 minutes
• Hypertonic saline may be better
  
  • 4ml/kg 7.2% over 3-5 mins
    
    • Can be given much more quickly
  • Lasts longer then mannitol and reduces ICP more

Question 26

What is hyperglycaemia associated with in TBI?

Answer 26

• Associated with increased mortality rates or worsened neurologic outcomes in human patients with head trauma
• Increases free radical production, excitatory amino acid release, cerebral oedema and cerebral acidosis, and alters the cerebral vasculature
• Associated with severity of TBI, but not outcome in small animals

Question 27

How can you manage hyperglycaemia in TBI?

Answer 27

• Insulin infusions may help prevent detrimental effects
• Note - Can be caused by steroid administration
  
  • If you give these animals steroids, you are creating a hyperglycaemic state

Question 28

Initial treatment of TBI?

Answer 28

• Analgesia
• Anti-convulsant therapy
  
  • Seizures complicate between 4% and 42% of cases of severe TBI in human patients so often used prophylactically

Question 29

Should corticosteroids be used in TBI?

Answer 29

• Now contraindicated in human medicine for TBI
  
  • Should fall out of favour in veterinary medicine
• Associated with
  
  • Hyperglycaemia
  • Immunosuppression
  • Delayed wound healing
  • Gastric ulceration
  • Exacerbation of a catabolic state

Question 30

What can enteral feeding intolerance be secondary to?

Answer 30

• Abdominal distension
• Increased gastric residuals
• Ileus
• Delayed gastric emptying
• Diarrhoea
• Documented in human TBI patients

Question 31

Delayed gastric emptying attributable to multiple factors, what are these?

Answer 31

• Increased ICP
• Sympathetic nervous system stimulation
• Cytokine release
• Hyperglycaemia
• Opioid use

Question 32

Implications of delayed gastric emptying?

Answer 32

• implications for increased morbidity and mortality
  
  • poor nutrition
  • bacterial colonisation of GIT
  • Gastro-oesophageal reflux
  • increased prevalence of aspiration pneumonia

Question 33

How can you provide nutrition to a TBI case when enteral feeding is not an option?

Answer 33

• Parenteral
  
  • 50% glucose for up to 48 hrs with IV fluids
  • Then partial or total
  • NOT 5% DEXTROSE
• Probably needs combining with pro-kinetic
• If unable or unwilling to eat on his/her own
  
  • nasogastric tube

Question 34

Preferred imaging for TBI?

Answer 34

• CT preferred modality
  
  • rapid scan times
  • better visualisation of fractures and peracute haemorrhage

Question 35

Prognosis of TBI?

Answer 35

• Predicting outcome difficult
• Prognostic indicators in veterinary medicine scarce
• MGCS correlated with probability of survival in the first 48 hours after TBI in dogs
  
  • predicted a 50% probability of survival with score of 8 out of a total of 18