Chapter 46 Brain death
Most people die a ‘conventional’ death when their heart stops beating. In others the advent of intensive organ support has complicated the diagnosis of death. Patients who have sustained irreversible structural brain damage as a result of head injury, subarachnoid haemorrhage, stroke or cerebral anoxia lie in a deep coma without the capacity to breathe. Prompt medical attention may have taken over ventilation, but recovery is impossible. It therefore became necessary to reappraise death based on the integrity of the central nervous system.1–3 Brain death describes a state of irreversible loss of brain function, including loss of brainstem function. The ability to certify death under such circumstances allows intensivists to withdraw treatment on ethical, humanitarian and utilitarian grounds. Relatives are relieved of unnecessary prolonged anxiety and false hopes, and the burden on expensive medical resources is reduced. A further benefit for society is the availability of organs for transplantation from heart-beating donors.
ROLE OF THE BRAINSTEM
There is sometimes a lack of clarity between brain death and brainstem death and this reflects differing diagnostic practices.4 In the USA the Uniform Determination of Death Act describes brain death as death of the whole brain and states: ‘an individual who has sustained irreversible cessation of all functions of the entire brain, including the brainstem, is dead’.5 This formulation is one of the most commonly applied worldwide and forms the basis of the legal status in many countries. A notable exception exists in the UK, where a brainstem-based definition of death is in place.2
The brainstem contains the cranial nerve nuclei and respiratory and cardiovascular control centres. It is also the conduit for all ascending and descending pathways that connect the cortex with the rest of the body and is an essential part of the reticulo-activating system (RAS). Awareness depends on the integrity of the RAS. The mechanism of loss of consciousness in brainstem death is related to disruption of the RAS. After onset of brainstem death, brainstem reflexes are lost sequentially in a craniocaudal direction. This process may take several hours to become complete but finally results in apnoea due to failure of the medulla oblongata. Because of the fundamental controlling role of the brainstem, myocardial and other systemic physiological functions deteriorate after the onset of brainstem death.6 Without cardiovascular support most patients confirmed as brain-dead progress to asystolic cardiac arrest within 24–48 hours.
Establishment of brain death criteria
Brain death was first described in 1959 by Mollaret and Goulon,7 two French physicians, who coined the phrase ‘coma dépassé’ (meaning literally a state beyond coma) to describe 23 unconscious apnoeic patients who had lost brainstem reflexes.
In 1968 an ad hoc committee of the Harvard Medical School defined irreversible coma, or brain death, as unresponsiveness and lack of receptivity, the absence of movement and breathing, the absence of brainstem reflexes and coma whose cause has been identified (the Harvard criteria).1 In the following year the committee indicated that brain death could be diagnosed on clinical grounds alone. This was affirmed in 1971 by two neurosurgeons (Mohandas and Chou) who described irreversible loss of brainstem function as the ‘point of no return’ (the Minnesota criteria).8 At this time it was reiterated that brain death could be diagnosed on clinical judgement alone, without the need for a confirmatory electroencephalogram (EEG), so long as certain aetiological preconditions were present.
In 1976 a memorandum from the Conference of Medical Colleges and their Faculties in the UK stated that ‘permanent functional death of the brainstem constitutes brain death’ and that this could be diagnosed clinically in the context of irremediable structural brain damage after certain specified conditions had been excluded.2 The memorandum established a set of guidelines and clinical tests for the diagnosis of brainstem death that became the foundation of practice worldwide. A subsequent memorandum in 1979 concluded that the identification of brain death means that the patient is dead, whether or not the function of some organs, such as the heart beat, is still maintained by artificial means. A further memorandum in 1983 made additional recommendations about the timing of the clinical tests and who should perform them. It also confirmed that there may be circumstances in which it is impossible or inappropriate to carry out every one of the tests and it is for the doctor at the bedside to decide when the patient is dead.
Simultaneously to the guidance being issued in the UK, other countries were formalising practice. In the USA, the 1981 Report to the President’s Commission confirmed the requirement for the irreversible cessation of brain and brainstem functions to diagnose death.5 Because death of the whole brain is diagnosed in the USA, this report recommended that confirmatory tests be used to support the clinical diagnosis and reduce the required time of observation.
CRITERIA FOR THE DIAGNOSIS OF BRAIN DEATH
Common to the determination of brain death in the UK and USA is the confirmation of the absence of clinical function of the brainstem, i.e. loss of consciousness, unresponsiveness, coma and loss of brainstem reflexes, including the capacity to breathe. The UK criteria form the basis of the clinical diagnosis of brain death in other countries and will be used as an exemplar of clinical testing. The diagnostic algorithm has three sequential but interdependent steps. Certain preconditions and exclusions must be fulfilled before clinical tests of brainstem function are performed.9
PRECONDITIONS
EXCLUSIONS
Reversible causes of coma must be excluded. These include:
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