Al-Sarraj Safa, Laxton Ross, Swift Ben, Kolar Alexander J, Chapman Rob C, Fegan-Earl Ashley W, Cary Nat R B
Department of Clinical Neuropathology, Kings College Hospital, London, UK.
Department of Clinical Neuropathology, Kings College Hospital, London, UK.
J Forensic Leg Med. 2017 Nov;52:110-115. doi: 10.1016/j.jflm.2017.08.009. Epub 2017 Aug 25.
Traumatic (crush) asphyxia is a rare condition caused by severe compression of the chest and trunk leading to often extreme so-called asphyxial signs, including cyanosis in head and neck regions, multiple petechiae, and subconjunctival haemorrhage as well as neurological manifestations.
To investigate the neuropathology and brain weight in traumatic asphyxia caused by different accidents such as industrial accidents and road traffic collision.
Post mortem records of 20 cases of traumatic asphyxia (TA) resulting from different causes of which four brains are available for comprehensive neuropathological examination. The expected brain weights for given body height and associated 95% confidence range were calculated according to the following formula: baseline brain weight (BBW) + body height x rate (g/cm). The 95% confidence range was calculated by adding and subtracting the standard error (SE) x 1.96 (7-8).
There was a trend for higher brain weight in the TA cohort but it was not significant (1494 g vs 1404 g, p = 0.1). The upper limits of the brain weight of 95% confidence was 1680 g vs 1660 g, p = 0.9. The neuropathological examination of four available brains from the TA cohort showed severe congestion of blood vessels, perivascular haemorrhages and occasional βAPP deposits consistent with early axonal disruption.
Brain examination is informative as part of investigation of TA. Developing ischaemic changes and an increase in brain weight are the most likely indicators of a prolonged period of patient's survival.
