Abstract
To elucidate the time course of neuronal cell death after the clinical criteria for brain death are met, the authors reviewed serial changes of serum neuron-specific enolase levels in 3 children (age range, 3-15 years) clinically diagnosed as brain dead due to cardiopulmonary arrest. All patients survived for more than 2 months after brain death. Children with brain death had higher peak neuron-specific enolase values (1069-2849 ng/mL) than did 3 control children (256-1800 ng/mL) who did not become brain dead but had poor neurological outcome (1 death, 2 vegetative state) after cardiopulmonary arrest. A major finding is that children with brain death showed persistent elevation of neuron-specific enolase at 4 weeks (>400 ng/mL) and 8 weeks (>50 ng/mL) after cardiopulmonary arrest, in comparison with 2 surviving patients without brain death (<50 ng/mL at 4 weeks). This prolonged elevation of neuron-specific enolase suggests that total brain necrosis might not be present at the time of clinical diagnosis of brain death.
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