Exenatide once weekly for alcohol use disorder investigated in a randomized, placebo-controlled clinical trial

From August 7, 2017, to October 1, 2019, 152 patients were screened for eligibility, and 127 patients were enrolled; 62 were randomly assigned to the exenatide group, and 65 were assigned to the placebo group (). Overall, the 2 treatment groups were balanced with respect to baseline characteristics (). All patients were White, with a mean age of 52 years. The majority of the patients were men (60%). On average, they had 17 heavy drinking days and an overall alcohol intake of 2,400 g of pure alcohol over the last month, and 80% fulfilled the criteria for severe AUD, i.e., more than 5 symptoms, according to DSM-5 (see baseline characteristics and flowchart for the patients included in the brain imaging substudy in Supplemental Appendices 1 and 2; supplemental material available online with this article;). Of the 127 patients included, a total of 58 patients completed the trial, i.e., participated in the last follow-up after 26 weeks of treatment; 25 patients finished prematurely, i.e., participated in a final examination before 26 weeks of treatment. Fifty-five patients participated in the long-term 6-month follow-up visit (), with the last visit held on the October 10, 2020. The mean (SD) number of injections was 22.6 (2.2) in the exenatide group and 22.1 (2.8) in the placebo group (). There was no difference (= 0.46) between the 2 groups in time to trial discontinuation (). In addition, 25 healthy controls matched for sex, age, and educational status of the included patients were recruited for the fMRI substudy. Figure 1 Table 1 Supplemental Figure 1 Supplemental Table 1 Figure 2 https://doi.org/10.1172/jci.insight.159863DS1↗ P

For both groups, the number of heavy drinking days (and) and total alcohol intake () were strongly reduced, but there were no significant differences between the 2 groups. The exenatide group had a reduction in BMI of 0.95 (95% CI, –1.6 to –0.3,= 0.006), glycated hemoglobin (HbA1c) of 1.6 mmol/mol (95% CI, –2.8 to –0.4,= 0.011), and a worsening in Drug Use Disorders Identification Test (DUDIT) score of 0.96 points (95% CI, 0.7 to 1.3,0.001) relative to the placebo group (). There were no group differences in FGF-21, phosphatidylethanol, or bone markers (); life quality measurements, i.e., 36-Item Short Form Health Survey (SF-36) () and Symptom Checklist-92 (SCL-92) (); or cognition i.e., Screen for Cognitive Impairment in Psychiatry test (SCIP) (). Exenatide once weekly increased urine oxidative stress parameters — 8-oxoGuo of 0.24 nmol/mmol creatinine (95% CI, 0.04 to 0.44,= 0.022) and 8-oxodG of 0.43 nmol/mmol creatinine (95% CI, 0.15 to 0.72,= 0.003) — relative to placebo (). In the exenatide group, the plasma level of exenatide was 45.6 pmol/L (95% CI, 16.5 to 74.7,= 0.003), and the overall anti-exenatide antibody binding was 16.1% (95% CI, 6.9 to 25.3,= 0.002) relative to the placebo group (). Table 2 Figure 3 Table 2 Table 2 Table 2 Supplemental Table 3 Supplemental Table 4 Supplemental Table 5 Supplemental Table 2 Supplemental Table 2 P P P < P P P P

Exenatide once weekly did not reduce the number of heavy drinking days in the prespecified subgroup analyses (baseline heavy drinking days, severity of DSM-5 criteria, and geography) (). However, an exploratory subgroup analysis () including BMI subgroups revealed that in obese patients with a BMI greater than 30 kg/m(= 30), exenatide reduced heavy drinking days by 23.6 percentage points (95% CI, –44.4 to –2.7,= 0.034) () and reduced total alcohol intake per 30 days by 1,205 g (95% CI, –2,206 to –204,= 0.026) relative to placebo (). In patients with a BMI less than 25 kg/m(= 52), treatment with exenatide increased number of heavy drinking days by 27.5 percentage points (95% CI, 4.7 to 50.2,= 0.024) relative to the placebo group. However, in this subgroup (BMI < 25 kg/m) the total alcohol intake did not differ between treatment groups. Other exploratory post hoc subgroup analyses were performed to investigate whether some subgroups responded differently from others on the intervention. However, no significant differences were observed with respect to sex, baseline craving (Penn Alcohol Craving Scale score), baseline Alcohol Use Disorders Identification Test (AUDIT) score, baseline number of days without alcohol, baseline total alcohol consumption, fMRI subgroup (= 22), and SPECT subgroup (= 16). Supplemental Table 6 Supplemental Table 7 Figure 4 Figure 5 2 2 2 n P P n P n n

Besides the exploratory subgroup analyses, we also looked at the reduction in WHO risk drinking levels (). Both groups reduced their risk drinking levels, but there was no significant difference between the 2 groups (). ²⁸ Supplemental Table 6

To explore whether there was a correlation between change in HbA1c and change in heavy drinking days, the Pearson correlation coefficient was computed in the imputed data set (= 127) to assess linear relationship. Here, we found a weak negative correlation between the 2 variables [(12755) = –0.27,= 0.001]. We also found a weak negative correlation between changes in HbA1c and changes in total alcohol intake [(12755) = –0.36,= 0.001]. n r P r P

There was no difference between the 2 groups at the 6-month follow-up after exenatide or placebo discontinuation (and), except for a higher AUDIT score (5.1 points; 95% CI, 0.9 to 9.3,= 0.02) in the original exenatide group (adjusted from the end of treatment) compared with the placebo group. Table 2 Supplemental Table 8 P

The predefined region of interest (ROI) masks were acquired from WFU PickAtlas (). The analyses revealed a statistically significant interaction between treatment and time on the fMRI response in all 3 ROIs: ventral striatum [(1,31) = 4.744,= 0.037, partial η= 0.133], dorsal striatum [(1,31) = 6.124,= 0.019, partial η= 0.165], and putamen [(1,31) = 4.730,= 0.037, partial η= 0.132], indicating reduced cue reactivity after 26 weeks of treatment with exenatide compared with placebo. The ROI analysis in the caudate and nucleus accumbens did not reveal any significant effects (). At week 26, the cue-induced activity in ventral striatum was significantly lower in the exenatide group compared with placebo (mean difference [= –0.176, SEM = 0.075,= 0.025). However, in the dorsal striatum (= –0.142, SEM = 0.076,= 0.073) and in the putamen (= –0.123, SEM = 0.084,= 0.153) no significant differences were observed. At baseline, cue-induced activity did not differ between the treatment groups. Within the exenatide group, cue-induced activity was significantly reduced from baseline to week 26 in ventral striatum (= –0.254, SEM = 0.116,= 0.044) and in dorsal striatum (= –0.351, SEM = 0.156,= 0.039), but not in putamen (= –0.405, SEM = 0.202,= 0.063). Within the placebo group, we found no statistically significant differences (). ²⁹ Figure 6A Figure 6B F P F P F P M] P M P M P M P M P M P 2 2 2

At baseline, the exploratory whole-brain analysis showed no significant difference in cue reactivity between the placebo group and the exenatide group. When cue reactivity in all patients was compared with that in healthy controls, significant differences were found in the left superior and middle frontal gyrus, caudate, and insula (= 0.001). However, at the week 26 rescan, these differences were no longer significant. At the week 26 assessment, cue-induced activation was significantly reduced in the exenatide group compared with the placebo group in the following brain areas (Supplemental Appendix 1:): left caudate and septal area () and right middle frontal gyrus (). There was no significant change in cue reactivity in the placebo group at the rescan, but the exenatide group showed a significant reduction in cue-induced activation in the temporal lobe, hippocampus, and parahippocampus (rescans per protocol: Supplemental Appendix 1:,; rescans per protocol including premature rescans: Supplemental Appendix 1:,). P Supplemental Table 13 Figure 7A Figure 7B Supplemental Table 14 Supplemental Figure 5 Supplemental Table 15 Supplemental Figure 6

The analysis showed a significant difference at baseline between the healthy controls and the patients (0.001; mean ± SD: healthy controls, 8.8 ± 15.96; placebo group, 33.5 ± 26.9; exenatide group, 30.6 ± 28.6). At the week 26 follow-up, this was no longer significant (= 0.50; mean ± SD: healthy controls, 8.8 ± 15.96; placebo group, 13.6 ± 12.0; exenatide group, 14.8 ± 23.07), and there were no significant differences between the exenatide and the placebo group (= 0.980). P < P P

The voxel-wise analysis showed a significant reduction in the exenatide group at the week 26 rescan compared with placebo in response to the 2-back > 1-back task in 2 clusters in the right frontal pole and right superior frontal gyrus, within the dorsolateral prefrontal cortex ROI (and Supplemental Appendix 1:). The additional right dorsolateral prefrontal cortex ROI analysis showed no significant change in the exenatide group at week 26 compared with placebo in task-related activations [(1,31),= 0.122, partial η= 0.076]. The reduction in task-related neuronal activations in the exenatide group occurred in the absence of change in cognitive performance on the Screen for Cognitive Impairment in Psychiatry (= 0.93). Figure 8 Supplemental Table 16 F P P 2

After adjustment for age, there were no significant differences comparing baseline DAT availability of the patients with AUD and healthy controls in striatum [(1,62) = 0.474,= 0.494], caudate [(1,62) = 1.160,= 0.286], and putamen [(1,62) = 0.005,= 0.944] (). F P F P F P Figure 9A

At the week 26 rescan, DAT availability in striatum, caudate, and putamen was significantly lower in the exenatide group compared with the placebo group [striatum:(1,13) = 4.978,= 0.044; caudate:(1,13) = 8.066,= 0.014; putamen:(1,13) = 6.571,= 0.024] (and Supplemental Appendix 2:). F P F P F P Figure 9B Supplemental Table 18

Gastrointestinal (GI) symptoms, body weight loss, fatigue, and injection site reactions were the most common adverse events reported, and the incidence was higher in the exenatide compared with the placebo group (nausea, 37.1% vs. 15.4%; decreased appetite, 24.2% vs. 9.2%; vomiting, 22.6% vs. 7.7%; overall weight loss, 67.7% vs. 40.0%; fatigue, 12.9% vs. 4.6%; injection site reaction, 41.0% vs. 0.0%) (). The GI side effects reported lasted until the first 5 weeks of treatment, and the weight loss continued throughout the trial. The injection site reactions were typically small nodules of 1–2 cm, hard, mobile, skin-colored, and were reabsorbed within 6 weeks, leaving no scar. Serious adverse events were reported almost equally between the 2 groups (exenatide 24.2% vs. placebo 18.5%), and there were no cases of acute pancreatitis or elevation of pancreas enzymes above upper limits. One patient in the exenatide treatment group committed suicide 7 weeks after withdrawal from the trial. One patient in the placebo group was found dead after being hospitalized 3 times in one week for alcohol withdrawal symptoms. Table 3

This randomized, placebo-controlled, double-blinded clinical trial was conducted at 4 alcohol outpatient clinics in Copenhagen, Denmark. The main trial comprised a 26-week treatment period investigating the primary and secondary endpoints. To evaluate the potential long-term effects, a single follow-up visit was conducted 6 months after treatment (). A subgroup of the participants also underwent an fMRI scan and a single-photon emission CT (SPECT) DAT scan at baseline and after 26 weeks of treatment. ²⁴

All potential participants received oral and written information about the project. Before signing of the written consent form, the alcohol breath concentration had to be below 0.5‰, which is the same limit as for driving a motor vehicle in Denmark (). Eligible patients were 18–70 years of age, diagnosed with AUD according to DSM-5 and alcohol dependence according to ICD-10, and seeking treatment. Inclusion criteria required a minimum of 5 heavy drinking days, i.e., 60/48 g (men/women) of alcohol or more per day, in the past 30 days, measured by the Time-Line Follow Back (TLFB) method (). Key exclusion criteria included severe mental disorder, other drug use disorder, a history of diabetes, pancreatitis, alcohol withdrawal seizures, and current treatment with drugs against alcohol dependence (disulfiram, acamprosate, naltrexone, and nalmefene). Full inclusion and exclusion criteria are listed in. The healthy controls included in the fMRI substudy (= 25) were matched by sex, age, and educational level. All patients were recruited from outpatient alcohol treatment facilities in the suburbs of Copenhagen or through our project webpage, and healthy controls via the project webpage. No patients were involved in setting the research question, planning the study, or interpreting or writing up the results. The results of the trial and the assigned intervention will be disseminated to all patients and healthy participants. ^{72 73} Supplemental Table 10 n

The randomization was stratified in terms of sex, age (+/– 40 years of age), and number of heavy drinking days at baseline (4 strata), and the patients were randomly assigned 1:1 by Research Electronic Data Capture (REDCap) () to receive 2 mg exenatide once weekly (Bydureon) or placebo subcutaneously. The weekly injections were administered by an unblinded project nurse who did not participate in any assessments or behavioral treatment sessions. No randomization was performed in the imaging subgroup, as all eligible patients were invited to participate. ⁷⁴

Patients who participated in the brain imaging substudy were scanned before receiving the first injection and again after 26 weeks of treatment. Throughout the trial, patients received the assigned treatment while wearing blindfolds by an unblinded nurse at the outpatient clinic, to whom they also delivered their weekly alcohol diary. Patients were assessed by blinded project staff at the time of screening, at weeks 4, 12, 20, and 26 (end of the main trial), and at the long-term 6-month follow-up visit (and). At every assessment, weight and somatic symptoms or diseases since the last visit were recorded, and safety blood samples were collected. In case medical assistance was needed, a 24-hour phone line was available. As a safety precaution due to earlier reports of pancreatitis caused by GLP-1 receptor agonist treatment (), blood pancreas amylase was measured at all assessments. Participants with initial severe GI side effects received injections every second week for the first 6 weeks to reduce GI symptoms. All harms were recorded up until 10 weeks after termination of the intervention — i.e., week 26. Supplemental Table 11 Supplemental Figure 2 ⁷⁵

Throughout the trial, all patients received the assigned treatment as an add-on to standard AUD behavioral treatment, which included therapy sessions every second week, with a combination of motivational interviewing, cognitive therapy, and family therapy with a blinded therapist. Patients discontinuing the trial after a minimum of 8 weeks were encouraged to participate in a premature final visit and rescan. Only patients completing the week 26 visit (premature + per protocol) were invited for the long-term 6-month follow-up visit.

The healthy fMRI control group was assessed for eligibility before brain imaging at the Neurobiology Research Unit at Rigshospitalet, Copenhagen, Denmark. See Supplemental Appendices 1 and 2 for full details of the fMRI and SPECT substudies, respectively.

The primary endpoint was change in heavy drinking days, from baseline to week 26, as recorded by the TLFB method. Secondary endpoints included changes in total alcohol consumption; number of days with no alcohol consumption; Penn Alcohol Craving Scale score; Alcohol Use Disorders Identification Test (AUDIT) score; Drug Use Disorders Identification Test (DUDIT) score; Screen for Cognitive Impairment in Psychiatry (SCIP) test; Fagerström Test for Nicotine Dependence; blood γ-glutamyl transferase; blood alanine aminotransferase; blood phosphatidylethanol (PEth); mean cell volume; glycemic control parameters (HbA1c); body weight; blood pressure; heart rate; measures of health and life quality, i.e., 36-Item Short Form Health Survey (SF-36) and Symptom Checklist-92 (SCL-92); SPECT DAT specific binding ratio (BP); blood oxygen level–dependent (BOLD) fMRI signal change; change in subjective craving assessed with an alcohol cue reactivity task; change in top-down regulation assessed with an fMRI spatial working memory task; and change in heavy drinking days at 6-month follow-up. Additional methodological details regarding the analysis of blood and urine samples are given in. ND Supplemental Methods

The study protocol, statistical analysis plan, and deidentified individual participant data, except raw fMRI and SPECT data and alcohol diaries, are available at the Mendeley database (). Criteria for access to data are a methodologically sound proposal with an approved aim directed to the corresponding author, and requestors will have to sign a data access agreement. Data will be available for 5 years. ⁷⁶

The study was designed to have 90% power to detect a 28–percentage point treatment difference between the 2 groups with an estimated dropout of 40%. We planned to include 114 patients, but owing to a 60% dropout, we extended enrollment until October 1, 2019, or until 144 patients were included, whichever came first. All continuous outcomes were analyzed with an ANOVA adjusted for baseline until the last observational endpoint, and missing data were imputed with the use of multiple imputations in the mice package () in R software version 3.6.0 (), method = pmm (predictive mean matching), and the number of imputed data sets = 100. ^{77 78}

No adjustment for covariates was performed. SCIP data were analyzed with a linear mixed model, adjusted for benzodiazepine intake at the time of the assessment. DUDIT data were analyzed with a censored regression model due to zero-inflated values. An exploratory subgroup analysis based on the WHO BMI categories () was performed to see whether the effect of the treatment was related to baseline BMI. The statistical analysis plan was uploaded to the ClinicalTrials.gov homepage (), and the data set was locked before any analyses were performed. All statistical analyses, except the post hoc analysis regarding exenatide plasma levels, were performed blinded. The hypothesis test was 2-sided, the level of statistical significance was 5%, and a confidence interval of 95% was used. All efficacy and safety analyses were performed according to the intention-to-treat principle. Analyses were performed with R software version 3.6.0 (). See Supplemental Appendices 1 and 2 for the complete statistical method for the fMRI and SPECT analyses. ^{79 80 78}

The protocol was approved by the Danish Ethics Committee of the Capital Region, Copenhagen, Denmark (H-17003043), the Danish Medical Agency (2017014028), and the Danish Data Protection Agency (RHP-2017-029). The trial was monitored by an independent study monitor (Good Clinical Practice unit, Copenhagen, Denmark). Protocol modifications performed after trial commencement are shown in. All participants provided written informed consent prior to study inclusion. The funding sources and the manufacturer of exenatide once weekly (Bydureon, AstraZeneca) had no influence on the trial design or data analysis. The trial was conducted according to the Declaration of Helsinki, and the authors assume responsibility for the accuracy of data, analysis, and overall fidelity to the trial protocol. Trial registrations: ClinicalTrials.gov,; EudraCT: 2016-003343-11. Supplemental Table 12 NCT03232112