Our meta-analysis of RCTs in critically ill and perioperative patients [1] suggested propofol is associated with a relative mortality increase of 10% highlighting the potential for harm acknowledged since 2001 [2] but which has been relatively forgotten. We have reported multiple subgroup and sensitivity analyses which all supported the magnitude (approximately 10%) and direction (against propofol) of the survival effect.
Systematic reviews usually aim to cover all available evidence. Meta-analyses offer the opportunity to demonstrate smaller effects which may not be identified in small- or middle-sized randomized trials. For instance, the mortality benefit of low molecular weight heparins in severe COVID-19 patients was not demonstrable in the initial trials but has been shown in meta-analysis [3]. The issue of variation in follow-up time is frequently encountered in clinical trials. Outside of individual patient meta-analyses which might use time-to-event and regression analyses, mortality is consequently usually dichotomized, assuming the relative effect between intervention and control are constant across the entire observation time [4]. Mortality will almost inevitably increase over time in both groups as Gutierrez et al. pointed out.
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In the context of pooling studies with different follow-up times, this leaves two options: (1) pooling only studies with the same mortality time-point, leading to lower sample sizes and precision and therefore reducing one of the main strengths of meta-analyses or (2) pooling all studies irrespective of follow-up time. Specifically, in the field of critical care and perioperative medicine, it has been shown that different mortality time points did not influence pooled point estimates. Limiting analyses to only one time point would, however, decrease precision and generalizability of the findings [5].
We are co-authors on the Shehabi et al. and Schaefer et al. studies and are aware that young patients requiring high-doses of propofol in the ICU or in perioperative settings have a low mortality. As these were not randomized comparisons, we think this is proxy of being healthy and not an indication that propofol was the safest sedation agent.
As proposed by Gutierrez et al., a network meta-analysis of thousands of trials and dozens of comparisons and settings would truly be a monumental feat! Nonetheless, given questions of propofol safety predate this century and millions are exposed annually, it might be better to apply those energies into generating the multicentered pragmatic randomized controlled trials required to truly advance the safety of practice.
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