key: cord-0879568-xuye24qs authors: Hadique, Sarah; Badami, Varun; Forte, Michael; Kovacic, Nicole; Umer, Amna; Shigle, Amanda; Gardo, Jordan; Sangani, Rahul title: The Implementation of Protocol-Based Utilization of Neuromuscular Blocking Agent Using Clinical Variables in Acute Respiratory Distress Syndrome Patients date: 2021-03-19 journal: Crit Care Explor DOI: 10.1097/cce.0000000000000371 sha: 9ef478807743e1f7c1ce822ba147c418796582d0 doc_id: 879568 cord_uid: xuye24qs OBJECTIVES: The recent conflicting data on the mortality benefit of neuromuscular blocking agents in acute respiratory distress syndrome and the potential adverse effects of continuous neuromuscular blocking agent necessitates that these medications should be used judiciously with dose reduction in mind. The aims of the study were to improve the process of care by provider education of neuromuscular blocking agent titration and monitoring and to determine the impact of clinical endpoint based neuromuscular blocking agent titration protocol. DESIGN: We conducted a proof-of-concept historically controlled study of protocol-based intervention standardizing paralytic monitoring and titration using clinical variables. Education of the protocol was provided to ICU staff via bedside teaching and workshops. The primary outcomes were the time to reach goal paralysis and cumulative neuromuscular blocking agent dose. Secondary outcomes included maintenance of deeper sedation (Richmond Agitation and Sedation Scale –5) prior to neuromuscular blocking agent initiation, total time on mechanical ventilation, length of stay, and mortality. SETTING: Medical ICU at a quaternary academic hospital between March 2019 and June 2020. PATIENTS: Adult severe acute respiratory distress syndrome (Pao(2)/Fio(2) <150) patients requiring neuromuscular blocking agent for greater than or equal to 12 hours. Eighty-two patients fulfilled inclusion criteria, 46 in the control group and 36 in the intervention group. INTERVENTIONS: Education and implementation of standardized protocol. MEASUREMENTS AND MAIN RESULTS: Compared with the control group, the time to reach goal paralysis in the intervention group was shorter (8.55 ± 9.4 vs 2.63 ± 5.9 hr; p < 0.0001) on significantly lower dose of cisatracurium (total dose 1,897.96 ± 1,241.0 vs 562.72 ± 546.7 mg; p < 0.0001 and the rate 5.84 ± 2.66 vs 1.99 ± 0.95 µg/kg/min; p < 0.0001). Deeper sedation was achieved at the time of initiation of neuromuscular blocking agent in the intervention arm (mean Richmond Agitation and Sedation Scale –3.3 ± 1.9 vs –4.3 ± 1.7; p = 0.015). There was no significant difference in total time on mechanical ventilation, length of ICU stay, length of hospital stay, and mortality between the two groups. CONCLUSIONS: Implementation of comprehensive education, standardization of sedation prior to neuromuscular blocking agent initiation, integration of clinical variables in determining paralysis achievement, and proper use of peripheral nerve stimulation served as optimal strategies for the titration and monitoring of neuromuscular blocking agent in acute respiratory distress syndrome. This reduced drug utilization while continuing to achieve benefit without causing adverse effects. use of peripheral nerve stimulation served as optimal strategies for the titration and monitoring of neuromuscular blocking agent in acute respiratory distress syndrome. This reduced drug utilization while continuing to achieve benefit without causing adverse effects. KEY WORDS: acute respiratory distress syndrome; intensive care unit; neuromuscular blocking agents; sedation; train-of-four monitoring S evere acute respiratory distress syndrome (ARDS) is a life-threatening condition with significant morbidity and overall mortality often exceeding 40% (1). A few interventions have shown to improve outcomes, including lung-protective ventilation strategy, prone positioning, and early use of continuous neuromuscular blocking agent (NMBA) in moderate to severe ARDS (Pao 2 /Fio 2 ratio < 150) (2) (3) (4) . Commonly cited reasons for use of NMBAs in ARDS include reduction of patient-ventilator dyssynchrony and work of breathing, along with facilitation of mechanical ventilation to allow high positive endexpiratory pressure and prone positioning (5) . Although the results of three recent meta-analyses demonstrated that early continuous paralytic administration in patients with ARDS was associated with reduced barotrauma and improved oxygenation, its impact on mortality remains unclear (6) (7) (8) . Of two notable prospective trials studying continuous paralytic infusion in this population, the first showed lower mortality, whereas the second more recent trial showed no benefit (9) . Furthermore, prolonged infusion of NMBA is associated with the detrimental side effect of subsequent neuromuscular weakness that can be both profound and irreversible. Clinical practice guidelines for sustained NMBA use in critically ill patients recommends a short course (i.e., 48 hr) of paralysis for severe ARDS patients. Surviving Sepsis Campaign endorsed similar recommendations in 2017 (10) . However, there is lack of standardization regarding the titration of dose and monitoring of NMBAs (11) . Despite acknowledging the limitations of train-of-four (TOF) monitoring, the Society of Critical Care Medicine and American Society of Health-System Pharmacists recommend the use of TOF in conjunction with the clinical variables (12) . Therefore, further studies are required to establish a standardized, multimodal strategy for dose titration and monitoring to reduce the inconsistencies associated with any single modality. The aims of this historically controlled single-center study were to improve the process of care by comprehensive provider education of NMBA titration and monitoring and to determine the impact of integrating clinical variables to NMBA titration protocol in severe ARDS patients. We conducted a proof-of-concept historically controlled study of protocol-based intervention targeting standardization of continuous paralytic usage via clinical endpoints in ARDS patients at an academic, quaternary medical center. We obtained institutional review board approval (protocol number 1904535385). Electronic medical records (EMRs) of West Virginia University hospital health system (WVUH) were reviewed to identify historic controls of adult severe ARDS (Pao 2 /Fio 2 < 150) patients admitted consecutively to medical ICU (March to September 2019) and requiring NMBA (cisatracurium) for greater than or equal to 12 hours. For these controls, cisatracurium usage was titrated solely on TOF nerve stimulation monitoring, whereas sedatives were monitored and titrated using bispectral index (BIS). The goal TOF was left up to the prescribing provider and could range from 1 to 3 (two most typically selected), and the BIS goal ranged from 40 to 60. An electronic survey for healthcare providers was conducted to test knowledge and practices related to NMBA titration and monitoring. Thirty surveys were completed. After determining the knowledge gap, a multidisciplinary team of ICU physicians, pharmacists, and nurses drafted an evidence-based protocol focusing on clinical variables for NMBA administration and titration. It was implemented institution wide through the EMR. Comprehensive daily bedside teaching and weekly hands-on workshops were done for 2 months to teach the proper technique of TOF measurement and appropriate titration and monitoring of NMBA using clinical variables as per the protocol. The protocol consisted three major changes: standardization of sedation prior to the initiation of neuromuscular blockade, integration of clinical goals in determining paralysis achievement, and use of peripheral nerve stimulation (PNS) to finely adjust paralytic dosing. First, we established specific mandatory sedative goals defined as Richmond Agitation and Sedation Scale (RASS) of -5 and BIS of less than 60 prior to initiating continuous paralytics (full protocol can be found as Appendix 1, http://links.lww.com/CCX/ A551). This would ensure that patients were deeply sedated prior to the initiation of continuous NMBA. Once the sedation goals were achieved, sedatives and analgesics were not titrated throughout the duration of continuous NMBA use. We then outlined a new goal of paralysis in severe ARDS patients primarily consisting of clinical variables rather than neuromuscular monitoring alone. Clinical variables of goal paralysis were defined as lack of cough or gag reflexes as well as lack of intrinsic respiratory drive (spontaneous breathing over the set ventilatory rate). TOF monitoring was standardized during the entire course of NMBA use. TOF was performed either on ulnar or posterior tibial nerves ( Fig. 1) using the standard PNS device. The voltage, which generated the nerve stimulation response, was kept constant. Integration of physiologic variables and TOF were used to determine the titration of cisatracurium ( Table 1) . After the implementation of the protocol, a second phase of data collection was conducted (January to June 2020). Several steps were taken to ensure compliance to the protocol. As per policy, the nurses were required to document goal RASS and BIS in EMR prior to initiation of NMBA unless an exception was approved by treating physician. Medical ICU pharmacist verification of achievement of sedation goals was required prior to NMBA dosing. As per the institution policy, a physician performed all NMBA bolus administration. Nursing staff managed the infusion of NMBA, and a second nursing staff verification was mandated for titration of NMBA once clinical variables were reached. Baseline TOF was done and documented after sedation goals were achieve. The same TOF device was used for all TOF assessment at the same voltage used for the baseline assessment. The nurses were required to document all of the above steps in the EMR every time neuromuscular blocking agent was administered. We used nursing documentation in EMR to determine the compliance with our NMBA protocol in the interventional arm. The standard of care for both groups included lungprotective ventilation strategies using a low tidal volume of 6-8 mL/kg of predicted body weight. Prone positioning is often used in our ICUs for the treatment of ARDS, but the decision to prone patients was left to the discretion of the treating physician. Cisatracurium was the single NMBA used for paralysis in ARDS patients, and the intensivists determined the duration of therapy although they were prompted by nursing staff for the trial of cessation at 48 hours in the intervention group. Primary outcomes of the study were the time to reach goal paralysis and cumulative NMBA dose. Secondary outcomes included maintenance of deeper sedation (RASS -5) before starting NMBA, total time on mechanical ventilation, length of ICU stay, length of hospital stay, and mortality. Inclusion criteria consisted of adult (> 18 yr old) patients admitted to the medical ICU with severe ARDS (Pao 2 /Fio 2 < 150) requiring paralytic usage for greater than or equal to 12 hours. We excluded patients if paralytics were used for any indication other than ARDS, total duration of NMBA use less than 12 hours, and pregnant females. Baseline demographics, comorbid conditions, Acute Physiology and Chronic Health Evaluation (APACHE) IV within 24 hours of study inclusion, initial Pao 2 /Fio 2 ratio, and time of initiation of paralytics were recorded. Outcome measures of time to achieve the goal paralysis, average rate and total amount of cisatracurium, RASS prior to initiation of paralysis, length of mechanical ventilation, length of hospital stay, and ICU stay were collected. Data (13, 14) . Net cost per vial of cisatracurium to the hospital pharmacy was used to complete all the cost calculations. SAS Version 9.4 (https://www.sas.com/en_us/company-information.html) was used for all statistical analysis. Mean and sds were calculated for continuous variables, and proportions were calculated for categorical variables. Differences in outcomes by groups were presented as Welch's t tests for continuous variables, and chi-square p values for categorical variables. We used the Kaplan-Meier method to analyze "time-togoal paralysis" and compared statistically using the logrank test to test the null hypothesis of no difference in the probability of an event (time-to-goal paralysis) at any time point between the two groups (α = 0.05). The magnitude of the difference between groups was quantified using Cox proportional hazard regression model and presented as the hazard ratio (HR). An alpha value of 0.05 was used as the cut off for all statistical tests. Eighty-two patients fulfilled criteria for inclusion, 46 in the control group (pre protocol) and 36 in the intervention group. Compared with the control group, the time to reach goal paralysis in the intervention group was shorter (8.55 ± 9.4 vs 2.63 ± 5.9 hr; p < 0.0001) using a adverse events. Our proof-of-concept study using clinical variable-based protocol for NMBA titration and monitoring was successful in achieving earlier goal paralysis with reduced total dose of paralytic agent and deeper sedation prior to starting NMBA. Most commonly, depth of paralysis is assessed by use of electrical stimulation of a peripheral nerve and observing the response (aka "twitch monitoring"). TO) monitor is one of the commonly used peripheral nerve stimulators to evaluate the degree of neuromuscular blockade. After delivery of four successive stimulating currents to a select peripheral nerve, the number of twitches correlates with the degree of neuromuscular blockade. However, peripheral nerve stimulators can be unreliable in the critically ill patient due to edema, perspiration, electrode nonadhesion, and lack of euthermia (19) . There are technical and practical difficulties in using PNS that require training and optimal patient conditions for accuracy, leading to a great deal of interrater and intrarater variability during examination (19, 20) . Use of nerve stimulation techniques for monitoring the depth of blockade and adjusting drug doses in continuously paralyzed critical ill patients has yielded mixed results in comparison to clinical assessment alone (21) (22) (23) . The physiologic reasoning behind the use of NMBA in severe ARDS patients includes improvement in patient-ventilator dyssynchrony, work of breathing, and compliance (5) . Rather than solely using indirect method of paralysis (i.e., PNS), which has been shown to be unreliable (24) , this study attempts to add direct method of determining neuromuscular blockade through spontaneous breathing, cough, and gag reflex evaluation. Establishing an evidence-based protocol that integrates the clinical variables and TOF assessments could serve as an optimal strategy for the titration and monitoring of NMBA in ARDS. A similar approach has been recommended by various professional societies for management of NMBAs in critically ill patients (25) . Unintended awareness and recall are also a major concern during the use of NMBAs (26) . The exact combination of sedation and analgesia to prevent this is not known in patients receiving continuous NMBA, but setting the standard RASS score of -5 before starting the NMBA may provide optimal sedation rather than relying only on a single monitor (BIS). In our study, we achieved adequate and deep sedation prior to initiation of NMBA. Ketamine usage was significantly higher in the intervention group compared with tradition sedatives and analgesics. The utility of ketamine as opioid and benzodiazepine sparing agent in multiple disease states have played a role in the reemergence of ketamine in critically ill patients (27) . Our findings represent the effort of an institutionbased standardized protocol implemented systematically with education of ICU providers including nurses, respiratory therapists, pharmacists, and physicians. Bedside teaching and weekly hands-on workshops were done to ensure clinical assessment of depth of sedation along with paralysis titration and monitoring were consistent as per the protocol. Quarterly workshops for ICU staff are done throughout the year to ensure the protocol is followed properly. Because of the high cost of ICU care, healthcare providers and hospital administration often face the dilemma of meeting an increased demand for healthcare services within financial constraints of the institute (28) . Medications contribute significantly to the cost of ICU care (29) . With successful implementation of our protocol for mechanically ventilated ARDS patients in the intervention arm, we were able to demonstrate cost reduction from lesser amount of total NMBA use. The severe acute respiratory syndrome coronavirus 2 (coronavirus disease 2019 ) epidemic has brought with it many challenges including the issue of drug shortages. With many COVID-19 patients requiring NMBA for the treatment of ARDS, the need to reserve drug and minimize cost is imperative. Our study demonstrates a method that can be used to conserve drug and cost while maintaining outcomes for ARDS patients. Our study design has several limitations. It is a single academic medical center study. This may limit the external validity of our findings to communitybased hospitals with varied practices for use of NMBA. Our study patients were predominantly White; therefore, the impact on racial and ethnic minority population needs to be studied. The use of the protocol for non-ARDS critically ill patients remains unclear as we included only the patients with severe ARDS. Our trial used cisatracurium, so our data may not be generalizable to ICUs that use other agents such as rocuronium or vecuronium. The cost and choice of the neuromuscular blockade is widely variable across institutions; therefore, significant cost reduction as seen in our study may not be as significant for other institutions. One of the limitations of using historic controls entails changes in medical practice over time that may confound the association. To overcome this limitation, the historic control data time points were selected in close proximity to the data collection period of the intervention group (within a year). Standard of care including ARDS Network protocol, severity of patients' illness, or any other standard policy related to ARDS patients care did not change during the study period. We are confident that the secular changes overtime in care unrelated to NMBA policy change would be applicable to both groups. Lower doses of neuromuscular agents may reduce the risk of prolonged neuromuscular weakness, but we did not address this issue in our study because the information on neuromuscular weakness in historical control was not consistent or standardized. Last, we cannot completely rule out the bias introduced because of protocol implementation in the intervention group as it may influence intensivists' practice for NMBA titration and cessation compared with the control group. Larger prospective studies are needed to confirm these findings and provide insight into the ICU resource utilization. Implementation of comprehensive healthcare providers education, standardization of sedation prior to NMBA initiation, integration of clinical goals of paralytic administration (lack of cough and gag reflex and spontaneous breathing over the ventilator), and TOF assessments serve as optimal strategies for the titration and monitoring of NMBA in ARDS. This resulted in reduced drug utilization while continuing to achieve benefit, which reduces ICU costs and may help reduce post-ICU morbidity. Past and present ARDS mortality rates: A systematic review Acute respiratory distress syndrome: Advances in diagnosis and treatment Acute Respiratory Distress Syndrome Network: Ventilation with lower tidal volumes as compared with traditional tidal volumes for acute lung injury and the acute respiratory distress syndrome PROSEVA Study Group: Prone positioning in severe acute respiratory distress syndrome Neuromuscular blocking agents for acute respiratory distress syndrome Neuromuscular blockade in acute respiratory distress syndrome: A systematic review and meta-analysis of randomized controlled trials Validation of neuromuscular blocking agent use in acute respiratory distress syndrome: A meta-analysis of randomized trials Neuromuscular blockers in the acute respiratory distress syndrome: A meta-analysis Blood Institute PETAL Clinical Trials Network: Early neuromuscular blockade in the acute respiratory distress syndrome Surviving sepsis campaign: International guidelines for management of sepsis and septic shock Canadian Critical Care Trials Group: Canadian survey of the use of sedatives, analgesics, and neuromuscular blocking agents in critically ill patients Clinical practice guidelines for sustained neuromuscular blockade in the adult critically ill patient Research electronic data capture (REDCap)-a metadata-driven methodology and workflow process for providing translational research informatics support REDCap Consortium: The REDCap consortium: Building an international community of software platform partners Residual neuromuscular block: Lessons unlearned. Part I: Definitions, incidence, and adverse physiologic effects of residual neuromuscular block National survey of the use of sedating drugs, neuromuscular blocking agents, and reversal agents in the intensive care unit Acute Respiratory Distress Syndrome Network: Use of sedatives, opioids, and neuromuscular blocking agents in patients with acute lung injury and acute respiratory distress syndrome Sedation and neuromuscular blocking agents in acute respiratory distress syndrome Stimulus frequency in the detection of neuromuscular block in humans National practice with assessment and monitoring of neuromuscular blockade A prospective, randomized, controlled evaluation of peripheral nerve stimulation versus standard clinical dosing of neuromuscular blocking agents in critically ill patients Comparison of trainof-four and best clinical assessment during continuous paralysis A prospective randomized comparison of train-of-four monitoring and clinical assessment during continuous ICU cisatracurium paralysis Clinical assessment and train-of-four measurements in critically ill patients treated with recommended doses of cisatracurium or atracurium for neuromuscular blockade: A prospective descriptive study Task Force of the American College of Critical Care Medicine (ACCM) of the Society of Critical Care Medicine (SCCM) Patients' recollections of therapeutic paralysis in the intensive care unit The reemergence of ketamine for treatment in critically ill adults Daily cost of an intensive care unit day: The contribution of mechanical ventilation Cost analysis on intensive care unit costs based on the length of stay We thank Prasoon Jain, MD, and Thomas O. Patrick for the critical reading of the article.