Up ] Shock ] Physiology of trauma ] Acute respiratory distress syndrome ] Prehospital care ] Triage ] Trauma assessment ] Trauma scoring systems ] Airway and ventilation ] [ Head injuries ] Intracranial haematomas ] Resusitation ] Gunshot and blast wounds ] Skin loss - flaps & grafts ] Compartment syndrome and fat embolism ]

Head injuries

Pathophysiology of brain injury

  • One million patients attend A+E each year in UK with head injury
  • 80% are minor (GCS 13-15)
  • 10% are moderate (GCS 9-12)
  • 10% are severe (GCS less than 8)
  • Severe head injuries account for 50% of trauma related deaths

Primary brain injury

  • Damage caused at time of impact
  • Can be focal or diffuse
  • Diffuse axonal injury is due to deceleration and shearing forces
  • Dependent on extent of initial injury
  • Difficult to treat

Secondary brain injury

  • Insult imposed after initial injury
  • Due to:
    • Hypoxaemia
    • Hypercapnia
    • Systemic hypotension
    • Intracranial haematoma
    • Intracranial hypertension
  • Early treatment is aimed at the prevention of secondary injury
  • Autoregulation of cerebral blood flow is lost after head injury

Management of head injuries

  • Patients should be managed according to ATLS protocols to prevent secondary brain injury
  • 5-10% patients with severe head injury have cervical spine injury
  • Full assessment requires
    • Glasgow Coma Scale
    • Pulse, blood pressure
    • Assessment of pupil diameter and response
    • Assessment of limb movement
  • Patients with GCS less than 8 require early intubation
  • Intravenous steroids are probably of no benefit

Dilated left pupil due to right extradural haematoma

Glasgow coma scale

Eye opening Motor response Verbal response
Spontaneous 4 Obeys 6 Orientated 5
To speech 3 Localises 5 Confused 4
To pain 2 Withdraws 4 Inappropriate 3
None 1 Abnormal flexion 3 Incomprehensible 2
Extensor response 2 None 1
None 1

Signs of basal skull fracture

  • Blood or CSF from nose or ear
  • Periorbital haematoma
  • Mastoid haematoma (Battle's sign)
  • Haemotympanum
  • Radiological evidence of intra-cranial air
  • Radiological evidence of fluid levels in sinuses

Bilateral orbital haematomas due to basal skull fracture

Criteria for admission after head injury

  • Altered level of consciousness
  • Skull fracture
  • Neurological symptom of sign
  • Difficult assessment - drugs, alcohol
  • No responsible carer

head injury observation chart

Indications for head CT scan

  • Confusion (GCS <14) persisting after initial assessment and resuscitation
  • Skull fracture with neurological signs
  • Skull fracture with epileptic fit
  • Indications for transfer without preliminary head CT scan

Skull fracture on bone windows of CT scan

Indications for transfer to neurosurgical centre without CT scan

  • Deterioration in level of consciousness
  • Progressive neurological deficit
  • Tense fontanelle in child
  • Penetrating injury
  • Depressed skull fracture

Bibliography

Bavetta S,  Benjamin J C.  Assessment and management of the head-injured patient.  Hosp Med 2002;  63:  289-293.

Chandler C L,  Cummins B.  Initial assessment and management of the severely head-injured patient.  Br J Hosp Med 1995;  53:  102-108.

CRASH Trial collaborators.  Effects of intravenous corticosteroids on death within 14 days in 10 008 adults with clinically significant head injury (MRC CRASH Trial):  randomised placebo-controlled trial.  Lancet 2004;  364:  13211-1328.

Ghajar J.  Traumatic brain injury.  Lancet 2000;  356:  923-929.

Gentleman D.  Guidelines for the resuscitation and transfer of patients with serious head injury.  Br Med J 1993;  307: 547-542.

Flannery T,  Buxton N.  Modern management of head injuries.  J R Coll Surg Ed 2001;  46:  150-153.

McNaughton H,  Harwood M.  Traumatic brain injury:  assessment and management.  Hosp Med 2002;  63:  8-12.

 

 
 

Last updated: 05 January 2008

Copyright © 1997- 2008 Surgical-tutor.org.uk