CT Head Scanning Indications

oPatientPlus articles are written by UK doctors and are based on research evidence, UK and European Guidelines. They are designed for health professionals to use, so you may find the language more technical than the condition leaflets.

Computed axial tomography (commonly termed CT scanning - as here) was first used at the Atkinson Morley Hospital in London in 1972. CT scans rapidly became the mainstay of the diagnosis of structural brain disease until the advent of magnetic resonance imaging (MRI) during the late 1980s. However, CT remains an extremely valuable method of investigation, particularly in the acute situation and because of the very high expense of MRI systems. CT scans have a relatively high radiation dose so should be avoided in pregnancy. Claustrophobia is less of a problem compared with MRI.

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  • CT remains the investigation for the diagnosis and management of many central nervous system diseases.
  • MRI is superior in the posterior fossa and parasellar region and for the assessment in multiple sclerosis, epilepsy and tumours.
  • CT is superior to MRI in the assessment of head injury.
  • Indications for CT imaging, CT angiography, and CT venography include:

Cranial

  • Acute stroke: immediate CT scan should be performed in the following:[1] 
    • Those who might benefit from acute thrombolysis or early anticoagulation.
    • Anyone with a bleeding tendency or on anticoagulants.
    • Glasgow Coma Score (GCS) <13.
    • Progressive or changing symptoms.
    • Severe headache.
    • Any features suggestive of meningoencephalitis - eg, papilloedema, neck stiffness.
  • Those who do not have any of the features above should have a scan within 24 hours.
  • CT scanning is reliable in excluding primary intracerebral haemorrhage as a cause of acute stroke.
  • The CT signs of ischaemia are more subtle and detection of acute infarction is variable depending on the timing of the examination.
  • The area of infarction matures over the first week or more with the development of progressively better-defined low attenuation and loss of volume in the damaged area.
  • Transient ischaemic attack (TIA): can help to distinguish infarction from haemorrhage and also differentiate from other causes such as extracerebral haemorrhage or glioma.
  • Acute subarachnoid haemorrhage: CT will provide evidence of subarachnoid haemorrhage in over 90% of cases if performed within 48-72 hours.[2] CT is indicated in acute headache with focal neurological signs, nausea, vomiting or GCS <14. MRI is better for inflammatory causes of acute headache.
  • Acute head injury: the table below provides the current guidance for CT scanning the head in a patient with a head injury.[3][4] 
    CT Scan in Head Injuries[4] 
    Selection of adults for CT scan Selection of children (under 16 years) for CT scan
    CT scan of the brain within one hour (with a written radiology report within one hour of the scan being undertaken):
    • Glasgow Coma Scale (GCS) <13 when first assessed or GCS <15 two hours after injury
    • Suspected open or depressed skull fracture
    • Signs of base of skull fracture*
    • Post-traumatic seizure
    • Focal neurological deficit
    • >1 episode of vomiting
    All patients with a coagulopathy or on oral anticoagulants should have a CT brain scan within eight hours of the injury, provided there are no other identified risk factors, as listed above. Again, a written radiology report should be available within one hour of the scan being undertaken. 
    CT scan of the brain within one hour (with a written radiology report within one hour of the scan being undertaken):
    • Clinical suspicion of non-accidental injury
    • Post-traumatic seizure (no past medical history of epilepsy)
    • GCS <14 on initial assessment or, if <1 year, GCS <15 
    • GCS <15 two hours after injury
    • Suspected open or depressed skull fracture or tense fontanelle
    • Signs of base of skull fracture*
    • Focal neurological deficit
    • Aged <1 - bruise, swelling or laceration >5 cm on the head
    If none of the above are present then CT brain scan within one hour if more than one of the following are present (with a written radiology report within one hour of the scan being undertaken):
    • Witnessed loss of consciousness >5 minutes
    • Amnesia (antegrade or retrograde) >5 minutes
    • Abnormal drowsiness
    • ≥3 Discrete episodes of vomiting
    • Dangerous mechanism of injury (high-speed RTA, fall from >3 m, high-speed projectile)
    If only one of the aforementioned risk factors is present then observe for a minimum of four hours - CT scan of the brain within one hour if any of the following occur (with a written radiology report within one hour of the scan being undertaken):
    • GCS <15
    • Further vomiting
    • Abnormal drowsiness
    *Signs of basal skull fracture: haemotympanum, 'panda' eyes (bruising around the eyes), CSF leakage (ears or nose) or Battle's sign (bruising which sometimes occurs behind the ear in cases of basal skull fracture).
  • Space-occupying lesions: suspected tumour or mass - eg, cerebral abscess. MRI is more sensitive for early tumours and posterior fossa lesions but CT is usually adequate for supratentorial lesions. MRI may miss calcification. Enhanced CT modalities, such as perfusion CT, may also be helpful.[5] 
  • Suspected hydrocephalus or shunt revision. MRI may be more appropriate for children. Ultrasound is the first choice for infants.
  • Chronic headache: CT or MRI are not usually useful if there are no focal neurological signs but are more likely to detect an abnormality if there is:[6][7] 
    • Recent onset and a progressive worsening of symptoms and frequency or a change in their pattern.
    • Association with the onset of epilepsy (especially focal epilepsy).
    • Change in personality.
    • Associated dizziness, lack of co-ordination, tingling or numbness.
    • History of recent head injury or falls (to exclude subdural haemorrhage).
  • Intracranial infection: in cases of childhood bacterial meningitis, CT is accurate in the diagnosis of intracranial complications of bacterial meningitis and is indicated mainly in children with persistent neurological dysfunction such as complex seizure disorder; it is of little value in children with prolonged fever alone.
  • Detection or evaluation of calcification: for example, the radiological hallmark of an oligodendroglioma is calcification, which is best detected on CT scanning. Calcification may be invisible on MRI.
  • Other: mental status change, increased intracranial pressure, headache, acute neurological deficits, congenital lesions (eg, craniosynostosis, macrocephaly, and microcephaly), evaluation of patients with psychiatric disorders and brain herniation. In the assessment of psychosis, CT scan should be reserved for those with recent onset, rapid unexplained deterioration, focal neurological signs, recent head injury before onset or if there has been urinary incontinence or gait disturbance early in the illness.
  • Secondary indications (eg, when access to MRI is not available): diplopia, cranial nerve dysfunction, seizures, apnoea, syncope, ataxia, suspicion of neurodegenerative disease, developmental delay, neuroendocrine dysfunction, encephalitis, vascular occlusive disease or vasculitis (including use of CT angiography and/or venography), aneurysm, cortical dysplasia, and migration anomalies.

Extracranial

  • Middle or inner ear symptoms, including vertigo. If felt necessary following specialist assessment. MRI is much better, especially for acoustic neuromas.
  • Sinus disease if there has been failure of maximal medical treatment, complications - eg, orbital cellulitis or suspicion of malignancy.
  • Congenital anomalies, benign and malignant neoplasms, trauma, vascular malformations, evaluation of palpable masses, planning and follow-up of radiotherapy.
  • Orbital lesions, including eye trauma in which there may be an associated facial fracture.[8] Ultrasound may be appropriate for intraocular lesions. CT scan may also be indicated for strong suspicion of an intraocular foreign body that has not been shown on X-ray.
  • Fractures of the temporal bone, skull, and face.
  • Evaluation of the skull base including primary and secondary bone lesions.
  • Cranio-maxillofacial surgery: the CT scan delineates lesions in the oral and maxillofacial complex to aid in planning surgical treatment. CT-based 3D models allow precise pre-operative diagnosis and operation planning.[9][10] 
  • Secondary indications (eg, when access to MRI is not available): evaluation of lesions involving the orbit, larynx, pharynx, oral cavity and soft tissue spaces of the face.

Further reading & references

  1. Stroke: The diagnosis and acute management of stroke and transient ischaemic attacks; NICE Clinical Guideline (July 2008)
  2. Marder CP, Narla V, Fink JR, et al; Subarachnoid hemorrhage: beyond aneurysms. AJR Am J Roentgenol. 2014 Jan;202(1):25-37. doi: 10.2214/AJR.12.9749.
  3. Early Management of Patients with a Head Injury; Scottish Intercollegiate Guidelines Network - SIGN (May 2009)
  4. Head injury: Triage, assessment, investigation and early management of head injury in children, young people and adults; NICE Clinical guideline (Jan 2014)
  5. Huang AP, Tsai JC, Kuo LT, et al; Clinical application of perfusion computed tomography in neurosurgery. J Neurosurg. 2014 Feb;120(2):473-88. doi: 10.3171/2013.10.JNS13103. Epub 2013 Nov 22.
  6. Lester MS, Liu BP; Imaging in the evaluation of headache. Med Clin North Am. 2013 Mar;97(2):243-65. doi: 10.1016/j.mcna.2012.11.004. Epub 2012 Dec 22.
  7. Headaches: diagnosis and management of headaches in young people and adults; NICE Clinical Guideline (September 2012)
  8. Kubal WS; Imaging of orbital trauma. Radiographics. 2008 Oct;28(6):1729-39.
  9. Exadaktylos AK, Stettbacher A, Bautz PC, et al; The value of protocol-driven CT scanning in stab wounds to the head. Am J Emerg Med. 2002 Jul;20(4):295-7.
  10. Bamjee Y, Noffke CE; A comparative study of three imaging modalities currently used in the assessment of patients for maxillofacial surgery. SADJ. 2013 Apr;68(3):106-12.

Disclaimer: This article is for information only and should not be used for the diagnosis or treatment of medical conditions. EMIS has used all reasonable care in compiling the information but make no warranty as to its accuracy. Consult a doctor or other health care professional for diagnosis and treatment of medical conditions. For details see our conditions.

Original Author:
Dr Colin Tidy
Current Version:
Peer Reviewer:
Dr Adrian Bonsall
Last Checked:
13/06/2014
Document ID:
2023 (v25)
© EMIS