Brainstem Death


As intensive care practices and facilities improved and became more widely available, it became a more

common occurrence for severely brain damaged patients to be supported with mechanical ventilation.

There has never been an actual statutory definition of death in the United Kingdom, unlike in the United

States of America, and this was one factor that led to the development of brainstem death criteria. These

would allow futile treatments to be withdrawn and organs to be donated if appropriate, safe in the

knowledge that there would be no chance of a recovery.

This article describes the basic science behind brainstem death, the methods of testing for brainstem death

and discusses the management of these patients.


The brain is made up of three main embryological segments.

1. Fore-brain (prosencephalon). Cerebral hemispheres, thalamus and hypothalamus

2. Mid-brain (mesencephalon).

3. Hind-brain (rhombencephalon). Pons, medulla oblongata, cerebellar hemispheres.

The brainstem is the physical link between the cerebral cortex and the spinal cord and it consists of the

midbrain, the pons and the medulla. Most of the cranial nerve nuclei are contained here.

In addition – and of particular relevance to this article – the pons contains the reticular activating system

that is vital for cortical arousal and conscious awareness, whilst the medulla contains centres that control

cardio-respiratory function.


The brain is particularly susceptible to injury. It has a high metabolic requirement, comprising 20% of the

body’s oxygen consumption and receiving 15% of the total cardiac output.

Swelling may occur in the injured brain and the effects of this in a fixed-volume container such as the skull

are well known. The consequent rise in intra-cranial pressure opposes cerebral perfusion pressure and limits

cerebral oxygen delivery. This in turn contributes towards the secondary brain injury that neuro-critical

care aims to limit.

Ultimately, a significantly raised intra-cranial pressure will cause brainstem death by causing coning – the

brainstem is forced through the foramen magnum.

Neuronal tissue is one of the few with no capability for repair and regeneration so treatment options are

really aimed at prevention of brain injuries – both primary and secondary.


There will obviously be a profoundly reduced level of consciousness but there are specific clinical features

that may also be present.

Localising signs such as cranial nerve lesions may be seen, depending upon the site of any lesion or injury.

False localising signs such as 3

rd and 6th

cranial nerve lesions can also occur. The former is as a result of

stretching of the oculomotor nerve over the tentorium cerebelli, usually by herniation of the uncus or

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another expanding lesion. The latter may occur as the abducens nerve, with its long intracranial course, is

stretched by swelling.

As the brainstem is compressed, pressure and ischaemia cause more systemic changes. Initially, Cushing’s

reflex occurs, with hypertension and a subsequent bradycardia (mediated by the baroreceptor reflex)

attempting to restore cerebral perfusion. This may then be followed by a variety of arrhythmias and

hypotension due to systemic vasodilatation.

Hypothalamic and pituitary failure causes a reduction in thyroid hormone synthesis and secretion, which

contributes to the cardiovascular changes, whilst a lack of anti-diuretic hormone causes diabetes insipidus.

There will also be a loss of thermoregulation with hypothermia being the usual finding.


There is no statutory definition of death in the UK. After the “brain death criteria” were proposed by the

Conference of Royal Colleges in 1976, courts in England and Northern Ireland adopted them for the

diagnosis of death.

A Department of Health guideline defines death as the “irreversible loss of capacity for consciousness,

combined with irreversible loss of the capacity to breathe”. This essentially defines brain stem death and is

equivalent to the death of an individual.


1. There must be an identifiable pathology causing irremediable brain damage. This may be intra- or


2. The patient must be deeply unconscious.

a. Hypothermia must be excluded as the cause of unconsciousness and the patient’s core

temperature should be over 34°C.

b. There should be no evidence that the patient’s state is due to depressant drugs. This refers

to narcotics, hypnotics and tranquillisers as well as neuromuscular blocking drugs. A

careful drug history is required, whilst drug levels and antagonists may need to be used.

c. Potentially reversible circulatory, metabolic and endocrine disturbances must have been

excluded as the cause of the continuing unconsciousness. Some of these disturbances

may occur as a result of the condition rather than the cause and these do not preclude the

diagnosis of brain stem death.

3. The patient must be apnoeic, needing mechanical ventilation. This condition must not be

secondary to the effect of sedative drugs of neuromuscular blockade. This may require testing with

a nerve stimulator to show intact neuromuscular transmission. Alternatively, demonstration of

tendon reflexes can also demonstrate intact transmission.


The actual tests must be carried out by two doctors who have held full registration with the General

Medical Council for more than five years, one of whom should be a consultant. Both should have adequate

experience of interpreting the results and neither should be a member of the transplant team.

Two sets of tests should be performed to remove the risk of observer error. The two doctors may perform

the tests together or separately and although no defined time interval has to elapse between the tests, it

should be of sufficient duration to reassure the patient’s next-of-kin.

The time of death is recorded when the first test indicates brain death.

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The rules apply to children over the age of two months and cannot be applied to those below 37 weeks

gestation. It is rarely possible to apply the criteria to children between these ages.

Once brainstem death has been diagnosed, cessation of the heart beat follows within a short period. This

has been confirmed and validated in published series.


1. Pupils must be fixed in diameter and not responsive to incident light. (Cranial nerves II, III).

2. There must be no corneal reflex (avoid damaging the cornea). (Cranial nerves V, VII).

3. Vestibulo-ocular reflexes are absent. No eye movements occur following the slow injection of at

least 50mls of ice cold water over one minute into each external auditory meatus. Note that the

normal reflex is devation of the eyes away from the side of the stimulus. Access to the tympanic

membrane should be confirmed by otoscopy. Injury or pathology may prevent this test being

performed on both sides – this does not invalidate the test. (Cranial nerves VIII, III).

4. No motor responses in the cranial nerve distribution should occur as a result of stimulation of any

somatic area. No limb movement should occur in response to supra-orbital pressure. (Cranial

nerves V, VII).

5. No gag reflex should occur in response to posterior pharyngeal wall stimulation with a spatula.

(Cranial nerve IX).

6. No cough or other reflex should occur in response to bronchial stimulation by a suction catheter

being passed down the endotracheal tube. (Cranial nerve X).

7. No respiratory movements should occur in response to disconnection from the ventilator. Hypoxia

should be prevented by pre-oxygenation and insufflation of oxygen through a tracheal catheter.

This tests the stimulation of respiration by arterial carbon dioxide tension which should be allowed

to rise to 6.65 kPa – confirmed by arterial blood gases.


It goes without saying that relatives, partners and carers need to be kept informed of the patient’s

condition in a sympathetic and appropriate manner. This obviously needs to be tailored to the

individuals concerned.

Standard medical care must be continued in those in whom brain stem death has not been

conclusively established and may be continued after this in order to maintain the condition of

organs for donation. This may include maintaining fluid and electrolyte balance or haemodynamic


Initiating mechanical ventilation in those patients thought to have irremediable brain damage, who

stop breathing before brain stem death testing can occur, is only justified if it is of benefit to the

patient. It is unlawful for this to occur in order to preserve organ function.


A local transplant co-ordinator should be contacted early once the potential for organ donation is

recognised. Once brainstem death has been established, the priority becomes preserving and optimising the

potential transplantable organs.

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Respiratory support should be continued, maintaining normal blood gas parameters but minimising the

harmful effects of positive pressure ventilation (e.g. avoidance of excessive positive end-expiratory

pressure and excessive FiO



Hypotension is common following brain stem death and can compromise the perfusion of transplantable

organs. It may occur as a result of decreased sympathetic tone, diabetes insipidus, cold diuresis or cardiac

dysfunction. It should be treated with fluids, vasopressors or inotropes as appropriate.

Normothermia should be maintained as per standard critical care management, as it may contribute to

coagulopathy, acidaemia, cardiac arrhythmias and diuresis.

Endocrine support may also be required to reduce the need for inotropes and delay cardiac arrest.

Vasopressin, insulin, tri-iodothyronine and methylprednisolone may all be used.


Positive HIV, Hepatitis B or C, HTLV, syphilis or malaria tests

Evidence of Creutzfeldt-Jakob disease

Progressive neurological disease of unknown cause (e.g. Alzheimer’s, Parkinson’s, motor neurone


Untreated systemic sepsis

Uncontrolled hypertension or end-organ damage from hypertension or diabetes mellitus


A previous transplant recipient who has received immunosuppressive treatment.


1. Hypothermia and cardiac arrhythmias may occur in response to pituitary failure and brainstem ischaemia

/ compression respectively. Diabetes insipidus also occurs as a result of pituitary failure, whilst Cushing’s

reflex is a haemodynamic response to raised intra-cranial pressure.

2. The two doctors who perform brainstem death testing must each have at least five years of GMC

registration. There is no requirement for EEG or radiological investigations in the United Kingdom.

Hypothermia must be treated before brain stem death can be established.

3. See list above.

4. There is no mandatory interval between the two sets of brain stem death tests.

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