key: cord-0051981-rmjxwixh authors: Alhazzani, Waleed; Belley-Cote, E.; Møller, M. H.; Angus, D. C.; Papazian, L.; Arabi, Y. M.; Citerio, G.; Connolly, B.; Denehy, L.; Fox-Robichaud, A.; Hough, C. L.; Laake, J. H.; Machado, F. R.; Ostermann, M.; Piraino, T.; Sharif, S.; Szczeklik, W.; Young, P. J.; Gouskos, A.; Kiedrowski, K.; Burns, K. E. A. title: Neuromuscular blockade in patients with ARDS: a rapid practice guideline date: 2020-10-26 journal: Intensive Care Med DOI: 10.1007/s00134-020-06227-8 sha: b88d26614f952498375df8788bbf4fe7d7ac08be doc_id: 51981 cord_uid: rmjxwixh The aim of this Intensive Care Medicine Rapid Practice Guideline (ICM-RPG) is to formulate an evidence-based guidance for the use of neuromuscular blocking agents (NMBA) in adults with acute respiratory distress syndrome (ARDS). The panel comprised 20 international clinical experts from 12 countries, and 2 patient representatives. We adhered to the methodology for trustworthy clinical practice guidelines and followed a strict conflict of interest policy. We convened panelists through teleconferences and web-based discussions. Guideline experts from the guidelines in intensive care, development, and evaluation Group provided methodological support. Two content experts provided input and shared their expertise with the panel but did not participate in drafting the final recommendations. We followed the Grading of Recommendations Assessment, Development, and Evaluation approach to assess the certainty of evidence and grade recommendations and suggestions. We used the evidence to decision framework to generate recommendations. The panel provided input on guideline implementation and monitoring, and suggested future research priorities. The overall certainty in the evidence was low. The ICM-RPG panel issued one recommendation and two suggestions regarding the use of NMBAs in adults with ARDS. Current evidence does not support the early routine use of an NMBA infusion in adults with ARDS of any severity. It favours avoiding a continuous infusion of NMBA for patients who are ventilated using a lighter sedation strategy. However, for patients who require deep sedation to facilitate lung protective ventilation or prone positioning, and require neuromuscular blockade, an infusion of an NMBA for 48 h is a reasonable option. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (10.1007/s00134-020-06227-8) contains supplementary material, which is available to authorized users. Several professional societies have recently published clinical practice guidelines (CPGs) regarding the use of neuromuscular blocking agent (NMBA) in patients with acute respiratory distress syndrome (ARDS) in the intensive care unit (ICU) [1] [2] [3] [4] [5] . Panel members who developed these guidelines issued a weak recommendation favouring use of an NMBA infusion in patients with moderate to severe ARDS based on the results of 3 randomized clinical trials (RCTs) enrolling 431 patients with moderate to severe ARDS. The pooled estimate suggested a reduction in mortality with an NMBA infusion compared to no NMBA infusion [6] . A recent epidemiological study in 50 countries found that neuromuscular blockade was not widely used in patients with ARDS [7] . The results of the recently published Re-evaluation of Systemic Early Neuromuscular Blockade (ROSE) trial challenged the results of previous trials and the recommendation of the previous guideline. In the ROSE trial, enrolling 1006 patients with moderate or severe ARDS, patients were randomized to receive either an infusion of cisatracurium (NMBA) for 48 h or no NMBA infusion with intermittent NMBA boluses permitted on an as needed basis [8] . The ROSE trial showed no difference in mortality or other patient-important outcomes. This finding led the critical care community to question the role for NMBA infusions in patients with ARDS [9] . After the publication of this potentially practice changing trial, the Intensive Care Medicine Rapid Practice Guideline (ICM-RPG) steering committee prioritised and approved this topic for the conduct of a rapid CPG. The aim of this ICM-RPG was to summarise and evaluate the evidence, and provide evidence-based recommendations to help guide clinical practice. Our recommendations apply to adults with early ARDS of any aetiology and severity who are receiving invasive mechanical ventilation in an ICU. The recommendations do not apply to patients with pre-existing neuromuscular disease, those with a contraindication to neuromuscular blockade, or to children. Below, we discuss the relevance of these guidelines to settings that differ from where the evidence was generated. The lack of data from patients in low-and middle-income settings results in high uncertainty regarding the use of NMBA for ARDS patients in these settings. The target users of this guideline are clinicians and healthcare workers who care for patients with ARDS in the ICU including critical care physicians, pharmacist, bedside nurses, respiratory therapists, and physiotherapists. The ICM journal is the sponsoring organisation and is responsible for establishing and overseeing the ICM-RPG steering committee. The guidelines in intensive care, development, and evaluation (GUIDE) Group (https :// guide canad a.org/) was responsible for the methodological and statistical aspects of this ICM-RPG. The aim of ICM-RPGs is to produce trustworthy, rapid, and timely practice guidelines on topics that are of high priority to intensive care clinicians. The panel members adhered to a pre-planned and structured methodological approach to guideline development [10] . The ICM-RPG steering committee selected the panel members. The panel was comprised of relevant stakeholders including patient representatives, content experts, academic critical care physicians, methodologists, respiratory therapists, physiotherapists, and frontline clinicians. We aimed for gender and geographic balance in constituting the panel. A clinical chair (KB) and a methods chair (WA) led the guideline initiative. Methodologists from the GUIDE Group provided methodological support to the panel. Overall, 2 chairs, 16 panel members, 2 content experts, and 2 patient representatives participated in developing this ICM-RPG. Two content experts (DA, LP), who led large clinical trials on this topic, participated as content experts on the panel. They provided input when required by the panel by telephone, over electronic mail, and through web conferencing. The chairs of the guideline communicated individually with both content experts to obtain information regarding their respective RCTs and interpretation of the literature on this topic. Neither content expert participated in formulating or drafting recommendations. The clinical chair of the guideline nominated 2 patient representatives who participated in selecting and prioritising outcomes, and provided insights regarding their values and preferences over electronic mail. We followed a strict conflict of interest management process [11] . All participating members of this panel completed an electronic conflict of interest declaration form. There were no financial conflicts related to the guideline topic. Two panel members (DA, LP), who led large trials related to the topic of this guideline, had intellectual conflicts. They participated in the ICM-RPG as content experts but did not draft or vote on recommendations. The ICM-RPG panel asked the following question: Should we recommend using an NMBA infusion, over on demand NMBA boluses, in mechanically ventilated adults with ARDS? For the systematic review, the panel formulated the specific components of this question and presented it using the population, intervention, comparator, and outcomes (PICO) format ( Table 1) . The panel followed the Grading of Recommendations Assessment, Development, and Evaluation (GRADE) approach to prioritise outcomes [12] . Outcome prioritisation started with the panel compiling a list of all potentially relevant outcomes. Subsequently, panel members completed an electronic survey to rate the suggested 15 outcomes on a scale from 1 (not important) to 9 (critical) from the patients' perspective. Overall, seven outcomes were rated to be critical (mean scores of 7 or above), and seven outcomes were rated to be important (Supplement). We asked both patient representatives to independently rate the outcomes using the same scale and they both felt that all the outcomes were critical for decision-making. Consequently, we included all of the rated outcomes in the evidence profile. We used meta-analytic techniques to pool effect sizes across all RCTs. Details pertaining to the systematic review of the literature and meta-analysis are published separately. A priori, the panel proposed 8 subgroup analyses to explore potential sources of heterogeneity for the primary outcome (hospital mortality) including the rationale and the predicted direction of effect (Supplement) [13] . A systematic review team, with input from the panel and the methods team, conducted the systematic review and meta-analysis for this ICM-RPG. We identified 7 RCTs enrolling 1598 patients with ARDS [8, [14] [15] [16] [17] ; we present a summary of the studies in the Supplement. The methods team, with input from the panel, assessed the certainty of evidence for each outcome using the GRADE approach [12] . The certainty of evidence was categorised as very low, low, moderate, or high based on risk of bias, imprecision, indirectness, inconsistency, and publication bias [18] . The overall certainty of the evidence was low. Specifically, the certainty of the evidence was moderate for ICU acquired weakness, barotrauma, and mortality outcomes, and low or very low for the other outcomes. The main reasons for downgrading the certainty of the evidence were imprecision and inconsistency. We summarised the detailed GRADE assessment in the evidence profile ( Table 2) . We noted important clinical and statistical heterogeneity in the pooled estimate for mortality. Consequently, we did not use the pooled estimate across all studies for mortality to inform the recommendations. Instead, the panel considered the mortality outcome according to the sedation strategy utilized in the control group of included trials. The first subgroup included only the ROSE trial as it was the only trial that aimed to use a lighter sedation strategy for patients in the control arm. The hospital mortality for this subgroup did not favour either the intervention or control [relative risk (RR) 0.99; 95% confidence interval (CI) 0.86-1.15]. The remaining subgroup included 3 trials that aimed to use a deeper sedation strategy for patients in the control arm [14, 15, 19] . In this subgroup, an NMBA infusion reduced hospital mortality (RR 0.72; 95% CI 0.58-0.91) with low certainty. It is possible however, that the heterogeneity in effect may be explained by other differences between the trials, such as the amount of positive end expiratory pressure (PEEP) and the timing of the intervention. Without an individual patient data meta-analysis, we cannot be certain about the exact effect of PEEP level and timing on the outcomes. In addition, the systematic review revealed a significant reduction in the risk of barotrauma with the use of an NMBA infusion (RR 0.55; 95% CI 0.35-0.85; moderate certainty) and a small, but significant, improvement in PaO 2 /FiO 2 at 72 h (mean difference 15.21 points; 95% CI 1.9 to 28.52; low certainty) across all trials. Table 1 The guideline question NMBA neuromuscular blocking agents, ARDS acute respiratory distress syndrome, ICU intensive care unit, VFD ventilator free days We downgraded the certainty in the evidence by one level for serious imprecision; the CI included both small benefit and harm b We were not able to assess for publication bias using traditional methods because we identified less than 10 studies We downgraded the certainty of evidence by one level for serious imprecision; the CI included both harm and benefit, and the number of patients who were included the analysis at 3 months is small (< 50% of the original sample size) n We downgraded the certainty of evidence by two levels for serious imprecision; the CI included both substantial harm and small/no benefit, In addition, the number of events was small (n = 58 events) o We downgraded the certainty of evidence by one level for serious imprecision; the CI included both substantial harm and trivial benefit p We downgraded the certainty of evidence by one level for serious indirectness, the ROSE Trial which contributed to 55% of the weight in the analysis for this subgroup, included patients with ARDS and P/F > 120 not 100 q We downgraded the certainty of evidence by one level for serious imprecision; the CI included both substantial benefit and small harm r We downgraded the certainty of evidence by one level for serious inconsistency; although the I 2 = 0% the Forest Plot showed that the results of the ROSE Trial are inconsistent with the results of other trials s We downgraded the certainty of evidence by one level for serious indirectness, the ROSE Trial which contributed to 81% of the weight in the analysis for this subgroup, included patients with ARDS and P/F < 120 not only < 100 t We downgraded the certainty of evidence by two levels for very serious inconsistency; the I 2 = 65% u We downgraded the certainty of evidence by one level for serious imprecision; the number of events was small and the confidence interval although did not include 1, it included substantial variation in benefit v Although I 2 = 34%, we did not downgrade for inconsistency w. We downgraded the certainty in the evidence by two levels for very serious imprecision; the CI included extreme benefit and harm x We downgraded the certainty of evidence by one level for serious indirectness, the intervention and control in the ROSE Trial differed from other trials (early NMBA, and targeting light sedation) y We downgraded the certainty of the evidence by one level for serious imprecision; the CI included both benefit and harm z We downgraded the certainty in the evidence by one level for serious imprecision; the CI included both trivial and moderate benefit The impact of an NMBA infusion on mental health, cognitive function, quality of life, and ventilator free days was uncertain (Table 2) . The use of an NMBA infusion for 48 h possibly increased the risks of adverse events (RR 1.63; 95% CI 0.98-2.72; low certainty) and ICU acquired weakness (RR 1.16; 95% CI 0.98-1.37; moderate certainty). However, the increased risk of adverse events in the ROSE trial could have been confounded by the use of deep sedation in the intervention arm (i.e. the hemodynamic effect may be explained by the use of deep sedation in one arm and not the other). The impact on long-term physical function was uncertain ( Table 2) . The panel used GRADEpro GDT (GRADEpro Guideline Development Tool [Software] . McMaster University, 2015, developed by Evidence Prime, Inc.) to complete the Evidence-to-Decision (EtD) framework [20] . The panel addressed the balance and magnitude of benefits and harms, certainty of evidence, patients' values and preferences, cost and resources, feasibility, and acceptability. The panel debated which subgroup to use when issuing recommendations. We viewed the control arm in the ROSE trial to reflect current practice in managing patients with ARDS. In this trial, clinicians aimed to use a lighter sedation strategy for patients in the control arm but permitted administration of NMBA boluses as needed. Clinicians achieved mean Richmond Agitation-Sedation Scores (RASS) of − 2.7 and − 2.3 on days 1 and 2, respectively. By comparison, the mean RASS in the NMBA infusion arm of this trial were − 4.8 and − 4.6 on days 1 and 2, respectively. With this approach, the evidence suggests that in adults with moderate to severe ARDS who are mechanically ventilated using lighter sedation targets (RASS 0 to − 3); avoiding the use of an NMBA infusion is favourable. For patients with moderate to severe ARDS who cannot be mechanically ventilated using lighter sedation targets or require ongoing deep sedation to facilitate lung protective ventilation or prone ventilation; the use of an NMBA infusion is reasonable. The panel recognized that there could be differences, other than the sedation targets in the control arm between the ROSE trial and the other trials evaluating NMBA in adults with ARDS that resulted in inconsistent estimates of effect across trials. Therefore, the panel only issued suggestions for clinicians treating patients with moderate to severe ARDS. Future research is needed to help delineate specific subgroups of patients who may or may not benefit from an NMBA infusion. Our patient representatives judged all outcomes to be critical for decision making with particular emphasis on mortality, quality of life, cognitive function, time on the ventilator, and barotrauma. Although, panel members rated some outcomes differently than patient representatives, this finding is not surprising, and extreme differences may exist between clinicians' and patients' values and preferences [21] . The panel believed that the balance between benefit (i.e., uncertain effect on mortality and less barotrauma) and harm (i.e., possible increase in ICU acquired weakness and adverse events, and uncertainty about long term outcomes) was unclear, allowing for variability in how different patients would prioritize these outcomes depending on their individual values and preferences in the same circumstance. We identified 2 cost effectiveness studies that were published more than 18 years ago and are unlikely to reflect present day costs [22, 23] . The panel felt that the cost of 48 h infusion of cisatracurium was not large in high income countries but could be considered to be a moderate cost in low income countries and in some middle income countries. The panel felt that the use of an NMBA infusion was probably feasible in most high resource settings and did not foresee major barriers to implementation in this context. We present details pertaining to the decisions made by panel members using the EtD framework in the (Supplement). We recommend against the routine use of an NMBA infusion in adults with ARDS before optimising mechanical ventilation and assessing ARDS severity. (Recommendation, low certainty of evidence). In adults with moderate or severe ARDS who tolerate ventilation using a lighter sedation strategy we suggest against using an NMBA infusion (Suggestion, low certainty of evidence). If neuromuscular blockade is required to facilitate lung protective ventilation; we suggest using intermittent NMBA boluses with judicious deep sedation over an NMBA infusion with deep sedation (Suggestion, low certainty in the evidence). In adults with moderate or severe ARDS who clinicians determine require ongoing deep sedation, and neuromuscular blockade to facilitate lung protective ventilation, we suggest using an NMBA infusion for up to 48 h, over intermittent boluses of NMBA (Suggestion, low certainty of evidence). Remarks: This recommendation may apply to facilitate lung protective ventilation in adults who are persistently hypoxemic, ventilated in the prone position, or at risk for injurious ventilation (i.e. dyssynchronous with the ventilator or elevated plateau pressures). A recommendation (i.e. strong recommendation) implies uniformity of choice and a weak recommendation implies variability. From a patient perspective, a recommendation means that all (or almost all) people would choose the recommended intervention. While a suggestion (i.e. weak recommendation) means that although most people would choose the suggested intervention, a substantial number would not [24] . We present the implications and interpretation of recommendations and suggestions in Table 3 . In addition, we present the recommendation and suggestions in algorithmic format in Fig. 1 to facilitate understanding of the recommendations according to clinical context. Cisatracurium was the only agent studied in large RCTs, therefore, if clinicians use an NMBA infusion in ARDS patients, cisatracurium should be the preferred agent to use. The impact of using other NMBA infusions for patients with ARDS is uncertain. The largest two trials used cisatracurium at a fixed dose of 15 mg bolus followed by an infusion of 37.5 mg/h for 48 h. As the relationships between dose of cisatracurium and clinical and adverse effects are unclear, clinicians may titrate the dose to clinical paralytic effect. While it is plausible to assume that the beneficial effect of cisatracurium is related to its neuromuscular blockade effect; some evidence suggest that it may have a direct anti-inflammatory effect as well [14, 25] . Therefore, it is unclear if clinicians should use a fixed high-dose of cisatracurium or titrate the dose of cisatracurium administered to paralytic effect. Clinicians should consider the potential benefits and harms when making this decision. When clinicians prescribe an NMBA for adults with ARDS, the healthcare team should ensure that the patients are adequately sedated and monitor the adequacy of paralysis. We refer readers to a recently published guideline on sedation prevention and management in the ICU [26] . One modality to measure adequacy of paralysis is measurement of the train-of-four (TOF), a nerve stimulator that generates an electric current to stimulate twitches in muscles. The response to electrical stimulus depends on the intensity of the current, the location it is applied to, and the extent of paralysis [27] . An RCT of 30 patients compared TOF assessment to clinical assessment by bedside nurses and found no difference in the mean total paralysis time, dose of cisatracurium, and mean recovery time after cessation of paralytic agent [28] . Another study evaluated a nurse-driven protocol based of cisatracurium infusion titration based on TOF monitoring in 30 ARDS patients and identified that nurses were able to decrease the amount of cisatracurium Policies will likely be variable administered without significantly affecting the quality of the neuromuscular block achieved [29] . The optimal strategy to assess the adequacy of paralysis is unclear, clinicians should use the strategy that they are most comfortable with. It is beyond the scope of this guideline to make recommendations or suggestions on the type of monitoring strategy that could be used. Despite the publication of large RCTs on this topic, several areas of uncertainty could be addressed in future research, such as the impact of NMBA infusions on longterm functional and cognitive outcomes; the interaction between different ventilation strategies (e.g., high versus low PEEP and prone versus supine ventilation) and the use of NMBAs; the effect of other NMBA agents; the efficacy and safety of intermittent boluses versus a continuous NMBA infusion; and the generalisability of the results to low resource setting. The panel provided suggestions to implement the ICM-RPGs in low resource settings using existing adaptation frameworks [30] . These considerations are summarised in Table 4 . When new relevant trials are published that may affect the current recommendations, we plan to update the systematic review and assess whether the recommendations will require updating. This is a form of a living guideline in which future updates will be triggered by the publication of new, relevant, and potentially practice changing evidence, as opposed to a fixed period of time. In this ICM-RPG, the panel issued one recommendation and two suggestions regarding the use of NMBA in ARDS. The current evidence does not support the early routine use of NMBA infusion in all adults with ARDS. It favours avoiding an NMBA infusion for patients who are ventilated using a lighter sedation strategy. However, for patients who require deep sedation to facilitate lung protective ventilation or prone positioning and require neuromuscular blockade, an infusion of an NMBA is a reasonable option. The decision whether to prioritise recommendations on the use of NMBA infusion in low resource settings or low-income countries depends on the prevalence and the outcomes of ARDS in this setting Benefit and harm Guideline developers in low resource settings or low-income countries can use the relative estimates from this document to estimate absolute treatment effect in their context Certainty of the evidence Guideline developers in low resource settings or low-income countries should consider downgrading the certainty of evidence for indirectness, as most of the clinical trials were conducted in tertiary care centres in high income countries, and its applicability to other contexts is unknown Values and preferences Values and preferences of patients are possibly different around the world, therefore, guideline developers in low resource settings or low-income countries should take into consideration the local cultural values and patients' beliefs regarding the key outcomes such as mortality, disability, and other outcomes Cost While the cost of cisatracurium infusion is generally acceptable in high income countries, it could be moderate or high in low resource settings or low-income countries Resources Access to critical care, paralysis monitoring devices, rescue therapies, rehabilitation centres are limited in low resource settings or low-income countries Equity Guideline developers in low resource settings or low-income countries should consider the impact of directing resources to use NMBA infusion in ARDS on equity and other competing priorities Acceptability Guideline developers in low resource settings or low-income countries should consider the acceptability of using NMBA infusion to patients, healthcare workers, and policy makers Feasibility Several potential factors could influence the feasibility of using NMBA infusion in patients with ARDS in low resource settings or low-income countries, such as availability of medications, devices to monitor adequacy of paralysis, sedative agents, and ventilators Clinical practice guidelines for sustained neuromuscular blockade in the adult critically ill patient Surviving sepsis campaign: international guidelines for management of sepsis and septic shock New UK guidelines for the management of adult patients with ARDS Scandinavian clinical practice guideline on fluid and drug therapy in adults with acute respiratory distress syndrome Formal guidelines: management of acute respiratory distress syndrome Neuromuscular blocking agents in acute respiratory distress syndrome: a systematic review and meta-analysis of randomized controlled trials Epidemiology, patterns of care, and mortality for patients with acute respiratory distress syndrome in intensive care units in 50 countries Early neuromuscular blockade in the acute respiratory distress syndrome Early paralytic agents for ARDS? 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