Editor—We read with interest the editorial by Nieuwenhuijs-Moeke and colleagues1 on the use of sevoflurane as an ICU sedative in patients admitted with coronavirus disease 2019 (COVID-19). We were surprised that there was no mention of the potential for a fatal episode of malignant hyperthermia (MH) when using a volatile anaesthetic agent as a sedative in the ICU. Although rare, cases of MH triggered in the ICU do occur.2 Unpublished data from the UK MH unit in Leeds show that there have been two patients referred in the past 5 yr after an MH episode as a result of exposure to a volatile anaesthetic agent in the ICU: in both cases the volatile anaesthetic was used to alleviate status asthmaticus. In one case the volatile anaesthetic was isoflurane, and in the other, sevoflurane. As reported,3 sevoflurane is now the most common triggering agent in new cases referred to the UK MH unit, supplanting isoflurane. However, isoflurane remains the most common triggering agent over the past 30 yr.
We do not suggest that the possibility of an MH reaction should be the overriding factor in the choice of ICU sedative, but use of volatile anaesthetics in this setting should be accompanied by education of ICU staff in the recognition and management of an MH reaction.4 Display of visual aids for diagnosis and management in the relevant bed space might also be considered (these can be downloaded from www.ukmhr.ac.uk). Furthermore, it should be noted that an MH reaction within the ICU may be more difficult to diagnose than in the operating theatre because of a high incidence of conditions that are associated with clinical features of MH (hypercarbia, tachycardia, raised temperature, hypoxaemia, acidosis, hyperkalaemia4), such as sepsis, respiratory failure, or acute kidney injury: these clinical features are also frequently observed in critically ill patients with COVID-19.5 Also adequate stocks of dantrolene6 and activated charcoal filters7 should be available.
Population genome and exome sequencing projects have revealed the high population incidence (1:1500) of genetic variants associated with susceptibility to MH.8 It is likely that there are genetic and non-genetic factors contributing to the discrepancy between the prevalence of such genetic variants and the incidence of clinical MH,9 but these are unknown. It is possible that the non-genetic contributors to triggering may be more common in critically ill patients, so although the current low incidence of MH in the ICU setting is likely to reflect the infrequent use of volatile anaesthetic sedation, an increase in this practice may reveal that critically ill MH susceptible patients have a greater chance of triggering than in the operating theatre.
As volatile anaesthetic sedation becomes more prevalent, intensivists and ICU nurses should be added to anaesthetists, pre-hospital practitioners, and emergency room physicians in the list of practitioners who need to be explicitly aware that MH reactions still occur, and can be triggered by use of any of the volatile anaesthetic agents, including methoxyflurane,10 and by the depolarising neuromuscular blocking agent succinylcholine.4
Funding
VK was funded by a Medical Research Council (UK)/British Journal of Anaesthesia Clinical Research Training Fellowship Grant (MR/N002407/1).
Declarations of interest
PMH is an editorial board member of the British Journal of Anaesthesia.
References
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