Low Incidence of Postoperative Respiratory Depression with Oliceridine Compared to Morphine: A Retrospective Chart Analysis

Background Oliceridine, an investigational IV opioid, is a first-in-class G-protein selective agonist at the μ-opioid receptor. The G-protein selectivity results in potent analgesia with less recruitment of β-arrestin, a signaling pathway associated with opioid-related adverse events (ORAEs). In randomized controlled studies in both hard and soft tissue models yielding surgical pain, oliceridine provided effective analgesia with a potential for an improved safety and tolerability profile at equianalgesic doses to morphine. The phase 3, open-label, single-arm, multicenter ATHENA trial demonstrated the safety, tolerability, and effectiveness of oliceridine in moderate to severe acute pain in a broad range of patients undergoing surgery or with painful medical conditions warranting use of an IV opioid. This retrospective, observational chart review study compared respiratory depression events associated with oliceridine administration as found in the ATHENA trial to a control cohort treated with conventional opioids. Methods Patients at 18 years of age or older, who underwent colorectal, orthopedic, cardiothoracic, bariatric, or general surgeries between June 2015 and May 2017 in 11 sites participating in the ATHENA trial who received postoperative analgesia either with IV oliceridine or with IV conventional opioids (e.g., morphine alone or in combination with other opioids) (CO cohort); and had a hospital stay >48 hours, were included in this retrospective analysis. Data from the ATHENA trial was used for the oliceridine cohort; and additional baseline characteristics were collected from medical charts. Data from medical charts were collected for all CO cohort patients. The two cohorts were balanced using an inverse probability weighting method. The primary outcome was the incidence of operationally defined opioid-induced respiratory depression (OIRD) in the two cohorts. Secondary outcomes included between-group comparison of the incidence of OIRD events among a subset of high-risk patients. Results OIRD was significantly less in the oliceridine cohort compared to the CO cohort (8.0% vs. 30.7%; odds ratio: 0.139) (95% confidence interval [CI] 0.09–0.22; P < 0.0001). Likewise, the incidence of OIRD was lower among high-risk patients in the oliceridine cohort (9.1% vs. 34.7%; odds ratio: 0.136) (95% CI [0.09–0.22]; P < 0.0001) compared to the CO cohort. Conclusion In this retrospective chart review study, patients receiving IV oliceridine for moderate to severe acute pain demonstrated a lower incidence of treatment emergent OIRD compared to patients who were treated with IV morphine either alone or with concomitant administration of other opioids.


Introduction
In the management of postoperative acute pain, IV opioids remain an important pharmacotherapy, particularly for moderate to severe pain [1][2][3]. However, conventional opioids are associated with adverse events ranging from pruritus, nausea/vomiting, and constipation to potentially fatal adverse events such as respiratory depression requiring mechanical ventilation [1,4]. e introduction of multimodal pain management protocols has reduced, though not eliminated, the need for IV opioids [5,6]. At the same time, drug development efforts have focused on innovative alternatives that may provide opioid-level analgesic efficacy with reduced incidence of opioid-related adverse events (ORAEs). While conventional opioids bind to the μ-opioid receptor (MOR) and subsequently engage in postreceptor signaling through G-protein activation, leading to analgesia, it is the concurrent activation of the postreceptor signaling protein β-arrestin-2 that has been implicated in the development of ORAEs [7][8][9]. us, development of compounds conferring functional selectivity (biased agonism) with preferential activity in the G-protein signaling pathway over β-arrestin pathway has been hypothesized to broaden the therapeutic window, allowing for analgesic effects with fewer adverse events [10,11].
Oliceridine (Trevena Inc., Chesterbrook, PA, USA) is a next generation G-protein selective agonist at the μ-opioid receptor (MOR) that exhibits markedly reduced β-arrestin recruitment when compared with conventional opioids [9,12]. Nonclinical studies and initial clinical trials reported effective, rapid analgesia, with a low incidence of adverse events, with data suggesting less reduction in respiratory drive with oliceridine than morphine [12][13][14][15][16]. In randomized, controlled pivotal phase 3 trials involving hard tissue and soft tissue models of surgical pain, oliceridine IV exhibited a lower incidence of respiratory safety events and gastrointestinal adverse events compared to morphine at doses achieving comparable pain relief [17,18].
A phase 3, open-label, single-arm, multicenter trial (ATHENA) was conducted in a broad range of patients undergoing a variety of surgeries or receiving treatment for painful medical conditions. e ATHENA trial design used intentionally less restrictive eligibility criteria and treatment protocol requirements. is was done in order to examine the safety and tolerability of the use of oliceridine under circumstances that resembled, as closely as possible, the standard of care in clinical practice in settings where a conventional IV opioid would be indicated for the treatment of moderate to severe acute pain [19].
Findings from the ATHENA trial demonstrated that oliceridine, administered alone or as a component of multimodal analgesia, was generally safe and well tolerated in both surgical and medical patients experiencing moderate to severe acute pain, with nausea (18%), vomiting (7%), and constipation (6%) being the most frequent AEs "probably" or "possibly" related to oliceridine [19], similar to the profile observed in the prior phase 3 controlled trials [17,18]. e ATHENA trial was a single cohort study and did not include a concurrent control group. erefore, this retrospective chart review was designed to compare the safety of oliceridine as observed in the ATHENA trial to a control cohort treated with conventional opioids at a subset of the ATHENA investigational sites during the same time period. e objective of this study was to compare safety data, in particular, respiratory depression events between the two cohorts.

Ethical Approval and Consent for Participation.
e ATHENA trial was approved by the Institutional Review Board (IRB) or Independent Ethics Committee at each investigational site and was conducted in compliance with the ethical principles of the Declaration of Helsinki and all International Conference on Harmonization Good Clinical Practice Guidelines. All patients provided written informed consent before participating in the study.
is retrospective study was approved by the same IRB within each site. e research was conducted in accordance with the approved protocol and complied with the standards of the Declaration of Helsinki. is study involved a retrospective review of the existing data that were deidentified prior to the analysis and was granted a waiver of informed consent by the IRB for the subjects included in the CO cohort.

Overall Study Design.
is multicenter, retrospective chart review study was conducted in a subset of the ATHENA investigational sites (11 sites) (Supplemental Table 1). Patients who underwent colorectal, orthopedic, cardiothoracic, bariatric, or general surgeries between June 2015 and May 2017 were included in the analysis. All subjects received analgesia for postoperative pain that included either IV oliceridine (in the original ATHENA trial patients, referred to here as the oliceridine cohort) or IV morphine alone or in combination with other opioids (in the chart review patients, referred to here as the conventional opioid [CO] cohort). e CO cohort was identified by a directed chart review of patients admitted during the same interval of time that ATHENA recruitment had occurred ( Figure 1). Site selection was based upon a sufficient size of patient enrollment in the original ATHENA trial at the particular site and the availability of investigational staff at the site to perform the chart review procedures. e safety of oliceridine, with respect to respiratory or gastrointestinal opioid-related adverse events (ORAEs) from the oliceridine cohort, was compared to the same clinical events seen in the CO cohort. In order to enhance the quality of the comparative analysis and allow characterization of the risk profile of the patient populations, the chart review procedure obtained additional clinical details on both cohorts where available in the record, including details of the operative or medical procedures, recovery milestones, and other concomitant treatment interventions. Due to lack of protocol-directed standardized use of antiemetics, the information available on the use of 2 Pain Research and Management antiemetics from medical records did not provide meaningful information. us, only the data obtained for respiratory safety is discussed in this manuscript.

Oliceridine Cohort Patient
Population. e ATHENA trial enrolled patients at 18 years of age or older, experiencing moderate to severe acute pain following surgery or accompanying a painful nonsurgical medical condition, defined as a score ≥4 on an 11-point numeric rating scale (NRS) [ranging from 0 � no pain to 10 � worst pain]. Patients with an American Society of Anesthesiologists (ASA) physical status of ≥4 at the time of surgery were excluded. In addition, patients with a diagnosis of substance  1: Study design for ATHENA and retrospective observational chart review study. Eleven study sites from the ATHENA trial participated in the retrospective observational chart review study. Subjects in the CO cohort were identified by rigorous chart review during the same interval of time that recruitment for the ATHENA trial had occurred. e CO cohort was limited to individuals treated with IV morphine either alone or in combination with other conventional opioids. abuse, opioid dependence, or opioid tolerance at the time of surgery were excluded. e trial enrolled a total of 768 patients with mean age 54.1 ± 16.1 years and a mean pain score of 6.3 ± 2.1 (NRS) who received oliceridine IV. Onethird of the enrolled patients (32.2%) were ≥65 years old and half of all patients (45.8%) had a body mass index (BMI) ≥ 30 kg/m 2 . Most patients were female (64.8%) and Caucasian (77.8%). Surgical patients comprised the majority of the study population (93.9%), most common being orthopedic (30.1%), colorectal (15.0%), or gynecologic (15.0%) procedures. A detailed presentation of the study design and results for the ATHENA trial are reported elsewhere [19].
Eligible patients from 11 sites participating in the ATHENA trial comprised the oliceridine cohort used in this retrospective chart review study. To meet the inclusion criteria for this analysis, these ATHENA patients were of age 18 years or older at the time of surgical procedure, with ASA physical status less than 4 and admitted in the hospital for at least 48 hours following surgery. ey should have received one or more doses of IV oliceridine (minimum cumulative dose of 4 mg) for the management of postoperative pain during the inpatient hospital stay, including time spent in the postanesthesia care unit (PACU) ( Figure 1).

Oliceridine Treatment Protocol.
Oliceridine cohort patients were treated with intravenous (IV) oliceridine via clinician-administered bolus dosing and/or patient-controlled analgesia (PCA) (Figure 1). For IV bolus dosing, a loading dose of 1 to 2 mg was administered, and a supplemental dose of 1 mg was given within 15 minutes if needed. In settings where rapid analgesia was required (e.g., emergency departments, PACU), loading doses of 1 to 3 mg were administered and supplemental doses of 1 to 3 mg every 5 minutes PRN were allowed. Subsequent doses of 1 mg to 3 mg every 1 to 3 hours were administered as needed (PRN). For PCA, a loading dose of 1.5 mg and demand dose of 0.5 mg were administered using a 6-minute lockout interval. If clinically indicated, 1 mg supplemental doses were allowed PRN throughout the remainder of the treatment period. Treatment duration for each patient was determined by the clinical need for parenteral opioid therapy.
Patients could have received IV oliceridine as a part of a multimodal analgesia protocol in place at the investigational site, which may have included the use of NSAIDs, glucocorticoids, gabapentin, or pregabalin. Per protocol, concomitant use of other conventional opioids along with oliceridine IV was not permitted; however, patients could receive other IV or oral opioids after the administration of the last dose of oliceridine. Opioids received after the last dose of oliceridine included hydromorphone, hydrocodone (with or without acetaminophen), and oxycodone (with or without acetaminophen).

CO Cohort Patient Population.
Patients eligible for inclusion in the CO cohort were of age 18 years or older at the time of surgical procedure, with an ASA physical status less than 4 and had a duration of admission to the hospital for at least 48 hours following their surgery. Eligible patients also should have received one or more doses of IV morphine (minimum dose of 20 mg morphine equivalent [MME] per day) for the management of postoperative pain during the inpatient hospital stay, including time spent in the PACU. Finally, patients having a diagnosis of substance abuse, opioid dependence, or opioid tolerance at the time of surgery were excluded.
Using the inverse probability weighting (IPW) approach (discussed below), patients in the CO cohort were balanced with those in the oliceridine cohort in several prespecified characteristics in the multivariable analyses, including age, sex, site, illness comorbidities, ASA physical status, and type of surgical procedure. To further assure comparability, the timeframe for index events was required to overlap with the enrollment period for ATHENA trial.

Treatment in the CO Cohort Patient Population.
All patients in the CO cohort could have received IV morphine as a part of a multimodal analgesia protocol in existence at their study site. Patients could have received one or more conventional opioids anytime during the postoperative period. is additional opioid may or may not have been administered concurrently with the primary opioid, IV morphine. Other conventional opioids received included hydromorphone (IV and oral), meperidine, hydrocodone/ acetaminophen, oxycodone, and tramadol.

Inverse Probability Weighting (IPW) Methodology.
Inverse probability weighting (IPW) was used to address potential imbalances among covariates between the two cohorts.
e IPW approach weights patient observations based on a propensity score, which is defined as the weighted probability of a patient belonging to a specific cohort. Propensity scores were estimated using a multivariable logistic regression model conditional on the observed baseline covariates (surgical procedure type, ASA status, age, sex, race [characterized as white/nonwhite], and body mass index [BMI]).
By weighting patients using the inverse of propensity scores (i.e., the probability of treatment), the cohorts then have improved balance on observable covariates across treatment groups.
In a subset of the comparative samples (N � 95 pairs), a direct one-to-one (1 : 1) matching approach was possible using the same observed matching variables as those in the complete IPW balanced sample. A sensitivity analysis was performed in this subset of 95 direct-matched pairs of patients as a confirmatory analysis of the findings in the overall IPW population analysis.

Primary Outcome.
e primary outcome was the incidence of operationally defined opioid-induced respiratory depression (OIRD). Because the method of ascertainment of OIRD differed between the two cohorts, a prespecified, comprehensive operational definition of OIRD 4 Pain Research and Management was applied to each cohort in order to create a comparable set of terms for this event in each group. For the oliceridine cohort, OIRD events were prespecified, as defined in the original protocol, for all patients based on verbatim clinical terms coded using adverse event methodology defined in MedDRA reporting terminology (MedDRA, version 19.0). MedDRA coded terms included terms for hypoventilation, hypoxia, respiratory depression, and respiratory failure categories and contained over 100 possible MedDRA-coded terms in the analysis.
For the CO cohort, ICD-9 and ICD-10 codes were obtained as recorded in each patient's chart and entered into their accompanying Electronic Medical Record (EMR). At least 29 possible codes were examined, including abnormal, diminished, or shallow breath sounds, oxygen desaturation and/or hypoxia, dyspnea, respiratory failure, respiratory insufficiency, respiratory compromise, and other respiratory terms (Supplemental Table 2).

Secondary Outcomes.
e secondary outcomes were (a) a between-group comparison of the incidence of OIRD events among a subset of high-risk patients, defined as patients with a comorbid medical diagnosis of chronic obstructive pulmonary disease, obesity, renal impairment, or sleep apnea, or who were elderly (age ≥ 65 years at the time of treatment).

Statistical Analysis.
A sample size target of 250 patients within each cohort was selected based on a projected respiratory depression probability of 14.5% for the CO cohort vs. 7.25% for the oliceridine group. e projected event rates were calculated using data from the phase 2b and phase 3 clinical trials with oliceridine [15,17,18]. is sample size calculation also incorporated an 80% power, an alpha of 0.05 (one-sided), and a missing data rate of 10%.
Descriptive statistics of baseline variables are provided. Continuous variables were described by mean, median, interquartile range (IQR), standard deviation (SD), minimum, and maximum. Categorical variables were described by frequency and percentages (n, %).
Statistical comparisons between the oliceridine and CO cohorts were made with t-tests or chi-square tests. Incomplete/missing data were not imputed, except for partially missing dates. All analyses were performed using SAS v9.4 (SAS Institute Inc., Cary, NC, USA).

Results
A final population of 225 patients in the CO cohort and 213 patients in the oliceridine cohort met the eligibility criteria and were included in the analyses (Figure 2). ere were no significant differences in racial distribution, mean BMI, BMI categories of <30 kg/m 2 and ≥30 kg/m 2 , or proportion of patients considered as high-risk between the 2 cohorts (Table 1). Patients were of mean age 62.6 ± 12.3 years in the CO cohort and 60.1 ± 13.8 years in oliceridine cohort, P � 0.04. e proportion of elderly patients (age ≥ 65 years) was higher in the oliceridine cohort (51.6%, n = 110, vs. 41.3%, n = 93; P � 0.04). In the oliceridine cohort, 38% (n = 81) had ASA physical status 3, while, in the CO cohort, 71.6% (n = 161) of patients had an ASA physical status 3 (P < 0.001). e use of opioids in the 12 months prior to the current hospitalization was unknown in 45% of patients in the oliceridine cohort (vs. 4.0% in the CO cohort); however, based on the information available, prior opioid use was significantly higher in the CO cohort vs. oliceridine cohort (14.1%, n = 30, for oliceridine cohort vs. 35.1%, n = 79, in the CO cohort; P < 0.0001).

Exposure to Oliceridine and Conventional Opioids.
In the ATHENA trial protocol, concomitant use of opioids was not permitted among patients treated with IV oliceridine except after termination of treatment with oliceridine. In contrast, 91.6% (n � 206) of patients in the CO cohort received opioids concomitantly or after treatment with IV morphine, with hydromorphone as the most commonly used opioid among 26.7% (n � 82) of patients. In the oliceridine cohort, 32.8% (n � 170) of patients received oral opioids after the last dose of oliceridine. e mean (SD) cumulative dose of IV oliceridine was 51. 4 (Figure 3).

Secondary Outcomes.
Among the subset of high-risk patients (with any of the following: COPD, obesity, renal impairment, sleep apnea, or elderly), the incidence of OIRD was lower among patients in the oliceridine cohort compared to patients treated with conventional opioids in the CO cohort (9.1% vs. 34.7%), with an adjusted OR of 0.136 (95% CI [0.09-0.22]; P < 0.0001) (Figure 4).  opioids (IV morphine alone or in combination with other opioids in 92% of the patients) on key opioid-induced adverse events. Several steps were taken to select the comparison population for this analysis. First, we limited the comparison population to individuals who were treated with IV morphine either alone or in combination with other opioids (excluding the use of oliceridine) for similar clinical indications at a subset of the sites participating in the ATHENA trial. Second, subjects were identified by chart review during the same interval of time that ATHENA recruitment had occurred. Finally, we used an inverse probability weighting propensity score methodology to achieve an appropriate balance of the two study cohorts for the analysis of outcomes. Findings from the IPW method show that patients treated with IV oliceridine were less likely to experience OIRD compared to CO cohort (IV morphine alone or in combination with other opioids) (8.0% vs. 30.7% in the CO cohort, OR 0.139, P < 0.0001). Although the baseline characteristics differed in the two cohorts, the results were consistent when using a direct-matching approach, where the 2 cohorts were matched 1 : 1 for baseline variables-surgical procedure, ASA physical status, age, sex, race, and BMI. In addition, the findings were also observed in a   Figure 3: Incidence of opioid-induced respiratory depression (primary outcome). Using the Inverse probability weighting (IPW) approach patients in the CO cohort were balanced with those in the oliceridine cohort in several prespecified characteristics, including age, sex, site, illness comorbidities, American Society of Anesthesiologists (ASA) status, and type of surgical procedure. e IPW approach weights patient observations based on a propensity score, which is defined as the weighted probability of a patient belonging to a specific cohort. Propensity scores were estimated using a multivariate logistic regression model conditional on the observed baseline covariates (surgical procedure type, ASA status, age, sex, race [characterized as white/nonwhite], and BMI). Matched cohort consisted of 95 subjects in either cohort with a direct one-to-one (1 : 1) matching approach on the same observed matching variables used in the complete IPW balanced sample. For the oliceridine cohort, OIRD events were prespecified, as defined in the original study protocol for all patients based on verbatim clinical terms coded using adverse event methodology defined in MedDRA reporting terminology (MedDRA, version 19.0). For the CO cohort, ICD-9 and ICD-10 codes were obtained as recorded in each patient's chart review and entered into their accompanying Electronic Medical Record (EMR). A total of 206 patients (91.6%) in the CO cohort received other opioids concomitantly or after treatment with IV morphine. Incidence of respiratory events was significantly lower in the oliceridine cohort.

Discussion
subgroup of patients considered high-risk (patients who were obese or elderly, or with medical comorbidities of chronic pulmonary disease or renal impairment or sleep apnea).
Based on early clinical findings, the approximate dose equivalency of oliceridine versus morphine after the initial dose is 1 mg oliceridine: 5 mg morphine (data on file). However, the dose equivalency of oliceridine to morphine after cumulative dosing has not been established. In this study, the median cumulative dose was 43 mg IV oliceridine in the oliceridine cohort and 79 mg IV morphine equivalents in the CO cohort. In addition, in patients experiencing an event of respiratory depression, the median cumulative dose of IV oliceridine was 35 mg and the dose of IV morphine with concomitant opioids was 74 MME in the CO cohort. Previous meta-analyses on the risk factors for OIRD in surgical patients have reported morphine equivalent daily dose of 24.7 ± 14 (mean ± SD) mg in patients experiencing OIRD [20]. A prior investigation found that total opioid dose at 72 hours predicts risk of postoperative sleep-disordered breathing and the opioid median cumulative dose reported at 72 hours was 55 mg IV morphine-equivalent dose [21]. In our study, the median cumulative dose of IV conventional opioids in patients experiencing OIRD was 74 MME. It was difficult to obtain the cumulative dose by day, as the data available in the medical record was usually recorded as "start date" of treatment and "end date" of treatment. Nevertheless, the dose of conventional opioids in our study associated with a respiratory event was higher than those reported in the literature. However, it is important to note that opioid dose alone does not determine the risk. Indeed, during IV PCA use, rapid-dose escalations and patient-specific variables, such as older age and type of surgery, can also influence the risk of OIRD [20,22]. e findings on the lower rates of OIRD in the oliceridine cohort compared to CO cohort using IV morphine alone or combined with conventional opioids are consistent with those observed in randomized clinical phase 3 trials of patients following a bunionectomy or abdominoplasty procedure, where a reduced rate of respiratory events was reported with IV oliceridine compared with morphine [17,18].
In this retrospective analysis, respiratory depression using MedDRA events was recorded in the oliceridine cohort while ICD-9/ICD-10 codes were used to report the events of respiratory depression in the CO cohort. e rates of respiratory depression events seen with IV morphine alone or combined with conventional opioids (30.7% in the overall patients; 45.3% in the direct-matched group) in our study are similar to those reported by Shafi et al. [1] and the PRODIGY trial [23]. In their retrospective analysis, conducted from a large healthcare system including 21 acute care hospitals and 135,379 patients undergoing surgical and endoscopic procedures and receiving opioids, Shafi et al. used ICD-9 codes to define ORAEs, including respiratory events, and reported an incidence as high as 49% [1]. Likewise, in the PRODIGY trial, an international, prospective observational study, respiratory depression events [defined as etCO 2 ≤ 15 or ≥ 60 mm Hg for ≥ 3 mins, RR ≤ 5 breaths for ≥ 3 mins, SpO 2 ≤ 85% for ≥ 3 mins, apnea > 30 sec] were reported in 46% of patients [23]. In the current study, the rates of OIRD reported for the oliceridine cohort (8.0% in the overall group and 11.6% in the matched group) are similar to the incidence of respiratory safety events reported in phase 3 randomized clinical trials with oliceridine [17,18].
In our study, the high-risk subgroup included patients who were obese or elderly, or with medical comorbidities of chronic pulmonary disease, renal impairment, or sleep apnea. All these factors are considered as significant risk factors for postoperative OIRD [24,25]. In patients with these underlying risk factors, it is recommended to carefully titrate the dose of opioids, in addition to careful monitoring [24]. Our findings that the high-risk subgroup patients are less likely to experience OIRD with oliceridine compared to IV morphine alone or combined with conventional opioids are encouraging.

Limitations.
ere are several notable limitations to this report, including the retrospective design as well as reliance on the healthcare professional (physician/nurse) documentation of all data in the Electronic Medical Records (EMR). e EMR did not document precisely as to whether other opioids were administered concomitantly or sequentially leading to a potential bias on estimating the risk of OIRD resulting from the concomitant use of opioids in the CO cohort. Likewise, due to incomplete documentation, the influence of anesthetics used during surgery on the incidence of respiratory depression could not be evaluated. An important limitation was the inability to standardize the operational definition of OIRD between the two cohorts which may have resulted in a difference in case ascertainment between the groups.
ere was also inadequate information on the use of opioids in the previous year prior to hospitalization, including acute or chronic use, particularly for patients in the oliceridine cohort. is is a limitation as chronic use of opioids can further confound the results [26].  Figure 4: Incidence of opioid-induced respiratory depression in high-risk subgroup (secondary outcome). High-risk patients were defined as patients who were obese, or with a comorbid medical diagnosis of chronic obstructive pulmonary disease, renal impairment, or sleep apnea, or who were elderly (age ≥ 65 years at the time of treatment). Incidence of respiratory events was significantly lower in the oliceridine cohort in the high-risk subgroup.

Conclusions
In this retrospective chart review study, patients receiving oliceridine for the management of their acute moderate to severe pain were observed to experience a lower incidence of treatment associated OIRD compared to a population of patients who had received IV morphine either alone or with concomitant administration of other opioids. ese findings were also observed among a high-risk population of patients who were elderly and had significant medical comorbidities complicating their clinical condition.
Overall, the findings are consistent with the underlying pharmacologic profile of oliceridine and suggest that this compound may provide a potentially important new option for patients with postoperative pain where the use of an IV opioid medication is warranted. Additional prospective studies are needed to more fully evaluate the potential improvements in respiratory safety observed here.

Data Availability
e data used to support the findings of this study are available from the sponsor, Trevena, Inc.., upon request.

Disclosure
At the time of conduct of the study and submission of the manuscript to the journal, Dr. Bergese was affiliated with the Ohio State University Wexner Medical Center that was the participating site for the trial. At the time of preparation and submission of this manuscript, oliceridine, an investigational IV opioid, was not yet approved by the FDA or any other governmental agencies. Oliceridine received FDA approval for use in adults on August 7th 2020.

Conflicts of Interest
Sergio D. Bergese, Paul Rider, Suzanne Griffith, and Richard Berkowitz received research grant funding for the ATHENA trial and the chart review study and have served as a consultant for Trevena, Inc. Alvaro Segura Vasi has served as an investigator for the ATHENA trial and the chart review study. Martin Ladouceur is an employee of Evidera, the contract company that provided data analysis support for the chart review, funded by Trevena, Inc. Linda Wase, Mark Demitrack, and Kristina Cochrane are full-time employees of Trevena, Inc., and own stock in Trevena, Inc. Ashraf S. Habib has received research support from Trevena, Inc., Pacira Pharmaceuticals, BioQ Pharma, and Hyalard Health and is a consultant for Trevena, Inc.