Extended-release injectable naltrexone for opioid use disorder

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Extended-release injectable naltrexone for opioid use disorder

We appreciate the important review by Gluck et al (“Managing patients with comorbid opioid and alcohol use disorders,” Current Psychiatry, February 2023, p. 20-28, doi:10.12788/cp.0327) addressing the common co-occurrence of opioid use disorder (OUD) and alcohol use disorder (AUD) among hospitalized patients, and we offer a friendly amendment to the algorithm they presented. Early in their algorithm, the authors suggest asking patients whether they want pharmacologic treatment for OUD. We recommend that if the patient affirms interest in OUD medication, the next question should be whether the patient prefers to be opioid-free. If the patient says “yes,” extended-release injectable naltrexone (XR-NTX) is offered. If the patient answers “no,” they can be offered buprenorphine or methadone.

XR-NTX should be considered an equal OUD treatment alternative to buprenorphine-naloxone, especially for patients who prefer an opioid-free option.1,2 It has the added advantage of being FDA-approved for both AUD and OUD.

One obstacle to the success of XR-NTX is the induction period. The National Institute on Drug Abuse Clinical Trials Network X:BOT trial found that once the induction hurdle was surmounted, XR-NTX and buprenorphine were equally effective in a population of approximately 80% heroin users and two-thirds injection drug users.2 Patient variables that predict successful induction include young age, baseline preference for XR-NTX, fewer drug complications, and fewer family/social complications.3 If the length of the induction (usually 7 to 10 days) is a deterrent, a study supported the feasibility of a 5-day outpatient XR-NTX induction.4 Further research is needed to improve successful induction for XR-NTX.

Ashmeer Ogbuchi, MD
Karen Drexler, MD

Atlanta, Georgia

 

References

1. Tanum L, Solli KK, Latif Z, et al. Effectiveness of injectable extended-release naltrexone vs daily buprenorphine-naloxone for opioid dependence. JAMA Psychiatry. 2017;74(12):1197-1205. doi:10.1001/ jamapsychiatry.2017.3206

2. Lee JD, Nunes EV Jr, Novo P, et al. Comparative effectiveness of extended-release naltrexone versus buprenorphine-naloxone for opioid relapse prevention (X:BOT): a multicentre, open-label, randomised controlled trial. Lancet. 2018;391(10118):309-318. doi:10.1016/s0140-6736(17)32812-x

3. Murphy SM, Jeng PJ, McCollister KE, et al. Cost‐effectiveness implications of increasing the efficiency of the extended‐release naltrexone induction process for the treatment of opioid use disorder: a secondary analysis. Addiction. 2021;116(12)3444-3453. doi:10.1111/add.15531

4. Sibai M, Mishlen K, Nunes EV, et al. A week-long outpatient induction onto XR-naltrexone in patients with opioid use disorder. Am J Drug Alcohol Abuse. 2020;46(3):289-296. doi:10.1080/00952990.2019.1700265

Continue to: The authors respond

 

 

The authors respond

We appreciate Drs. Ogbuchi and Drexler for their thoughtful attention to our review. They proposed amending our original algorithm, recommending that XR-NTX be considered as another first-line option for patients with OUD. We agree with this suggestion, particularly for inpatients. However, we have some reservations about applying this suggestion to outpatient treatment. Though research evidence from Lee et al1 indicates that once initiation is completed, both medications are equally safe and effective, the initial attrition rate in the XR-NTX group was much higher (28% vs 6%, P < .0001), which suggests lower acceptability/tolerability compared with buprenorphine. Notably, the initiation of both medications in Lee et al1 was done in an inpatient setting. Moreover, although some medications are endorsed as “first-line,” the actual utilization rate is often influenced by many factors, including the ease of treatment initiation. Wakeman et al2 found the most common treatment modality received by patients with OUD was nonintensive behavioral health (59.5%), followed by inpatient withdrawal management and residential treatment (15.2%). Among all patients in the Wakeman study,2 only 12.5% received buprenorphine or methadone, and 2.4% received naltrexone.

Data from our clinic corroborate this trend. Currently, in our clinic approximately 300 patients with OUD are receiving medications, including approximately 250 on buprenorphine (including 5 to 10 on the long-acting injectable formulation), 50 on methadone, and only 1 or 2 on XR-NTX. Though this disparity may reflect bias in our clinicians’ prescribing practices, in the past few years we have had many unsuccessful attempts at initiating XR-NTX. To our disappointment, a theoretically excellent medication has not translated clinically. The recent surge in fentanyl use further complicates XR-NTX initiation for OUD, because the length of induction may be longer.

In conclusion, we agree that XR-NTX is a potential treatment option for patients with OUD, but clinicians should be cognizant of the potential barriers; inform patients of the advantages, expectations, and challenges; and respect patients’ informed decisions.

Rachel Gluck, MD
Karen Hochman, MD
Yi-lang Tang, MD, PhD

Atlanta, Georgia

 

References

1. Lee JD, Nunes EV Jr, Novo P, et al. Comparative effectiveness of extended-release naltrexone versus buprenorphine-naloxone for opioid relapse prevention (X:BOT): a multicentre, open-label, randomised controlled trial. Lancet. 2018;391(10118):309-318. doi:10.1016/s0140-6736(17)32812-x

2. Wakeman SE, Larochelle MR, Ameli O, et al. Comparative effectiveness of different treatment pathways for opioid use disorder. JAMA Netw Open. 2020;3(2):e1920622. doi:10.1001/jamanetworkopen.2019.20622

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We appreciate the important review by Gluck et al (“Managing patients with comorbid opioid and alcohol use disorders,” Current Psychiatry, February 2023, p. 20-28, doi:10.12788/cp.0327) addressing the common co-occurrence of opioid use disorder (OUD) and alcohol use disorder (AUD) among hospitalized patients, and we offer a friendly amendment to the algorithm they presented. Early in their algorithm, the authors suggest asking patients whether they want pharmacologic treatment for OUD. We recommend that if the patient affirms interest in OUD medication, the next question should be whether the patient prefers to be opioid-free. If the patient says “yes,” extended-release injectable naltrexone (XR-NTX) is offered. If the patient answers “no,” they can be offered buprenorphine or methadone.

XR-NTX should be considered an equal OUD treatment alternative to buprenorphine-naloxone, especially for patients who prefer an opioid-free option.1,2 It has the added advantage of being FDA-approved for both AUD and OUD.

One obstacle to the success of XR-NTX is the induction period. The National Institute on Drug Abuse Clinical Trials Network X:BOT trial found that once the induction hurdle was surmounted, XR-NTX and buprenorphine were equally effective in a population of approximately 80% heroin users and two-thirds injection drug users.2 Patient variables that predict successful induction include young age, baseline preference for XR-NTX, fewer drug complications, and fewer family/social complications.3 If the length of the induction (usually 7 to 10 days) is a deterrent, a study supported the feasibility of a 5-day outpatient XR-NTX induction.4 Further research is needed to improve successful induction for XR-NTX.

Ashmeer Ogbuchi, MD
Karen Drexler, MD

Atlanta, Georgia

 

References

1. Tanum L, Solli KK, Latif Z, et al. Effectiveness of injectable extended-release naltrexone vs daily buprenorphine-naloxone for opioid dependence. JAMA Psychiatry. 2017;74(12):1197-1205. doi:10.1001/ jamapsychiatry.2017.3206

2. Lee JD, Nunes EV Jr, Novo P, et al. Comparative effectiveness of extended-release naltrexone versus buprenorphine-naloxone for opioid relapse prevention (X:BOT): a multicentre, open-label, randomised controlled trial. Lancet. 2018;391(10118):309-318. doi:10.1016/s0140-6736(17)32812-x

3. Murphy SM, Jeng PJ, McCollister KE, et al. Cost‐effectiveness implications of increasing the efficiency of the extended‐release naltrexone induction process for the treatment of opioid use disorder: a secondary analysis. Addiction. 2021;116(12)3444-3453. doi:10.1111/add.15531

4. Sibai M, Mishlen K, Nunes EV, et al. A week-long outpatient induction onto XR-naltrexone in patients with opioid use disorder. Am J Drug Alcohol Abuse. 2020;46(3):289-296. doi:10.1080/00952990.2019.1700265

Continue to: The authors respond

 

 

The authors respond

We appreciate Drs. Ogbuchi and Drexler for their thoughtful attention to our review. They proposed amending our original algorithm, recommending that XR-NTX be considered as another first-line option for patients with OUD. We agree with this suggestion, particularly for inpatients. However, we have some reservations about applying this suggestion to outpatient treatment. Though research evidence from Lee et al1 indicates that once initiation is completed, both medications are equally safe and effective, the initial attrition rate in the XR-NTX group was much higher (28% vs 6%, P < .0001), which suggests lower acceptability/tolerability compared with buprenorphine. Notably, the initiation of both medications in Lee et al1 was done in an inpatient setting. Moreover, although some medications are endorsed as “first-line,” the actual utilization rate is often influenced by many factors, including the ease of treatment initiation. Wakeman et al2 found the most common treatment modality received by patients with OUD was nonintensive behavioral health (59.5%), followed by inpatient withdrawal management and residential treatment (15.2%). Among all patients in the Wakeman study,2 only 12.5% received buprenorphine or methadone, and 2.4% received naltrexone.

Data from our clinic corroborate this trend. Currently, in our clinic approximately 300 patients with OUD are receiving medications, including approximately 250 on buprenorphine (including 5 to 10 on the long-acting injectable formulation), 50 on methadone, and only 1 or 2 on XR-NTX. Though this disparity may reflect bias in our clinicians’ prescribing practices, in the past few years we have had many unsuccessful attempts at initiating XR-NTX. To our disappointment, a theoretically excellent medication has not translated clinically. The recent surge in fentanyl use further complicates XR-NTX initiation for OUD, because the length of induction may be longer.

In conclusion, we agree that XR-NTX is a potential treatment option for patients with OUD, but clinicians should be cognizant of the potential barriers; inform patients of the advantages, expectations, and challenges; and respect patients’ informed decisions.

Rachel Gluck, MD
Karen Hochman, MD
Yi-lang Tang, MD, PhD

Atlanta, Georgia

 

References

1. Lee JD, Nunes EV Jr, Novo P, et al. Comparative effectiveness of extended-release naltrexone versus buprenorphine-naloxone for opioid relapse prevention (X:BOT): a multicentre, open-label, randomised controlled trial. Lancet. 2018;391(10118):309-318. doi:10.1016/s0140-6736(17)32812-x

2. Wakeman SE, Larochelle MR, Ameli O, et al. Comparative effectiveness of different treatment pathways for opioid use disorder. JAMA Netw Open. 2020;3(2):e1920622. doi:10.1001/jamanetworkopen.2019.20622

We appreciate the important review by Gluck et al (“Managing patients with comorbid opioid and alcohol use disorders,” Current Psychiatry, February 2023, p. 20-28, doi:10.12788/cp.0327) addressing the common co-occurrence of opioid use disorder (OUD) and alcohol use disorder (AUD) among hospitalized patients, and we offer a friendly amendment to the algorithm they presented. Early in their algorithm, the authors suggest asking patients whether they want pharmacologic treatment for OUD. We recommend that if the patient affirms interest in OUD medication, the next question should be whether the patient prefers to be opioid-free. If the patient says “yes,” extended-release injectable naltrexone (XR-NTX) is offered. If the patient answers “no,” they can be offered buprenorphine or methadone.

XR-NTX should be considered an equal OUD treatment alternative to buprenorphine-naloxone, especially for patients who prefer an opioid-free option.1,2 It has the added advantage of being FDA-approved for both AUD and OUD.

One obstacle to the success of XR-NTX is the induction period. The National Institute on Drug Abuse Clinical Trials Network X:BOT trial found that once the induction hurdle was surmounted, XR-NTX and buprenorphine were equally effective in a population of approximately 80% heroin users and two-thirds injection drug users.2 Patient variables that predict successful induction include young age, baseline preference for XR-NTX, fewer drug complications, and fewer family/social complications.3 If the length of the induction (usually 7 to 10 days) is a deterrent, a study supported the feasibility of a 5-day outpatient XR-NTX induction.4 Further research is needed to improve successful induction for XR-NTX.

Ashmeer Ogbuchi, MD
Karen Drexler, MD

Atlanta, Georgia

 

References

1. Tanum L, Solli KK, Latif Z, et al. Effectiveness of injectable extended-release naltrexone vs daily buprenorphine-naloxone for opioid dependence. JAMA Psychiatry. 2017;74(12):1197-1205. doi:10.1001/ jamapsychiatry.2017.3206

2. Lee JD, Nunes EV Jr, Novo P, et al. Comparative effectiveness of extended-release naltrexone versus buprenorphine-naloxone for opioid relapse prevention (X:BOT): a multicentre, open-label, randomised controlled trial. Lancet. 2018;391(10118):309-318. doi:10.1016/s0140-6736(17)32812-x

3. Murphy SM, Jeng PJ, McCollister KE, et al. Cost‐effectiveness implications of increasing the efficiency of the extended‐release naltrexone induction process for the treatment of opioid use disorder: a secondary analysis. Addiction. 2021;116(12)3444-3453. doi:10.1111/add.15531

4. Sibai M, Mishlen K, Nunes EV, et al. A week-long outpatient induction onto XR-naltrexone in patients with opioid use disorder. Am J Drug Alcohol Abuse. 2020;46(3):289-296. doi:10.1080/00952990.2019.1700265

Continue to: The authors respond

 

 

The authors respond

We appreciate Drs. Ogbuchi and Drexler for their thoughtful attention to our review. They proposed amending our original algorithm, recommending that XR-NTX be considered as another first-line option for patients with OUD. We agree with this suggestion, particularly for inpatients. However, we have some reservations about applying this suggestion to outpatient treatment. Though research evidence from Lee et al1 indicates that once initiation is completed, both medications are equally safe and effective, the initial attrition rate in the XR-NTX group was much higher (28% vs 6%, P < .0001), which suggests lower acceptability/tolerability compared with buprenorphine. Notably, the initiation of both medications in Lee et al1 was done in an inpatient setting. Moreover, although some medications are endorsed as “first-line,” the actual utilization rate is often influenced by many factors, including the ease of treatment initiation. Wakeman et al2 found the most common treatment modality received by patients with OUD was nonintensive behavioral health (59.5%), followed by inpatient withdrawal management and residential treatment (15.2%). Among all patients in the Wakeman study,2 only 12.5% received buprenorphine or methadone, and 2.4% received naltrexone.

Data from our clinic corroborate this trend. Currently, in our clinic approximately 300 patients with OUD are receiving medications, including approximately 250 on buprenorphine (including 5 to 10 on the long-acting injectable formulation), 50 on methadone, and only 1 or 2 on XR-NTX. Though this disparity may reflect bias in our clinicians’ prescribing practices, in the past few years we have had many unsuccessful attempts at initiating XR-NTX. To our disappointment, a theoretically excellent medication has not translated clinically. The recent surge in fentanyl use further complicates XR-NTX initiation for OUD, because the length of induction may be longer.

In conclusion, we agree that XR-NTX is a potential treatment option for patients with OUD, but clinicians should be cognizant of the potential barriers; inform patients of the advantages, expectations, and challenges; and respect patients’ informed decisions.

Rachel Gluck, MD
Karen Hochman, MD
Yi-lang Tang, MD, PhD

Atlanta, Georgia

 

References

1. Lee JD, Nunes EV Jr, Novo P, et al. Comparative effectiveness of extended-release naltrexone versus buprenorphine-naloxone for opioid relapse prevention (X:BOT): a multicentre, open-label, randomised controlled trial. Lancet. 2018;391(10118):309-318. doi:10.1016/s0140-6736(17)32812-x

2. Wakeman SE, Larochelle MR, Ameli O, et al. Comparative effectiveness of different treatment pathways for opioid use disorder. JAMA Netw Open. 2020;3(2):e1920622. doi:10.1001/jamanetworkopen.2019.20622

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Managing patients with comorbid opioid and alcohol use disorders

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Managing patients with comorbid opioid and alcohol use disorders

When left untreated, opioid use disorder (OUD) is a debilitating and potentially lethal illness. Despite the availability of safe and effective medications for OUD, the prevalence of opioid use and overdose deaths has been increasing every year.1 An additional challenge in OUD treatment is the high prevalence of comorbid alcohol use disorder (AUD).2-6 A Clinical Trials Network survey from the National Institute on Drug Abuse found 38% of persons seeking treatment for OUD also had AUD.7 Other analyses have found alcohol was involved in approximately one-fifth of opioid-related deaths.8 Research also reveals that comorbid OUD and AUD contributes to poor treatment outcomes, more medical comorbidities, and a high risk of death (including overdose death).4,9 There is no standard of care for this particular patient population.3 This article reviews the evidence and summarizes practical considerations regarding the clinical management of patients with comorbid OUD and AUD.

To illustrate the various decision points, we will follow 2 hypothetical patients through various stages of treatment (Figure), from their presentation in the emergency department (ED) or outpatient clinic, through their hospital admission (if needed), and into their outpatient follow-up treatment.

Treating patients with comorbid AUD and OUD

CASE REPORTS

Ms. A and Ms. B present to the ED for evaluation of nausea, vomiting, sweating, anxiety, and tremor. Both patients describe their most recent use of both alcohol and opioids approximately 12 hours ago, and each has been attempting to stop using both substances at home.

Decision-making in the emergency setting

In the ED, a few important decisions need to be made regarding treatment:

  • Are the presenting symptoms primarily due to alcohol withdrawal syndrome (AWS), opioid withdrawal syndrome (OWS), or both?
  • Does the patient require inpatient medical withdrawal management (detoxification) based on the history and severity of the withdrawal symptoms?
  • What are the patient’s treatment goals for their AUD and OUD?
  • Is maintenance medication for OUD indicated? If so, which medication is most appropriate?

In the ED, the presentation of individuals affected by both OUD and AUD can be challenging because OWS shares overlapping features with AWS, including nausea, vomiting, diarrhea, sweating, anxiety, and tremor. However, although acute OWS is typically very uncomfortable, it is rarely lethal. On the other hand, severe AWS may result in delirium, seizures, and death,10 which makes it essential to recognize and treat appropriately.

Both Ms. A and Ms. B should be medically evaluated and treated by an emergency medicine physician in conjunction with psychiatric (or addiction medicine) consultation. The ED assessment of a patient presenting with both AUD and OUD should include vital signs monitoring; physical examination; blood work including comprehensive metabolic panel, serum magnesium, and phosphorus; complete blood count; pregnancy test for women of reproductive age; urine drug screen (UDS); urinalysis; and serum ethanol level. Of note, sympathetic hyperactivity is found in both alcohol and opioid withdrawal, and patients with alcohol withdrawal may also have hypokalemia, a condition associated with an increased risk of arrhythmia. Furthermore, a prolonged QTc would affect clinical decision-making about medications for OUD (ie, methadone) and withdrawal management (ie, ondansetron, trazodone, and hydroxyzine). Therefore, an electrocardiogram should be conducted, where appropriate.

Initial treatment of AWS includes vitamin supplementation (thiamine, folic acid, and multivitamins) and benzodiazepine administration (symptom-triggered and/or scheduled taper). It may also include IV fluid resuscitation, analgesics for pain, ondansetron for nausea and vomiting, and other electrolyte repletion as indicated by the laboratory results.11 Additional measures for patients in opioid withdrawal should include alpha-2 agonists such as clonidine or lofexidine for adrenergic symptoms, antiemetics, antidiarrheals, muscle relaxants, anxiolytics such as hydroxyzine, and sleep medications such as trazodone.12

Continue to: The next decision...

 

 

The next decision is whether the patient needs to be admitted for inpatient treatment. This decision is based primarily on the risk assessment and severity of AWS, including a compelling history of complicated AWS such as seizures or delirium tremens as well as consideration of the complexity and severity of any comorbid medical or psychiatric conditions. Other indications for medical withdrawal management include a history of unsuccessful ambulatory withdrawal management and pregnancy. For severe AWS, a scheduled benzodiazepine taper in addition to the symptom-triggered protocol should be considered.13-15 A psychiatric evaluation may be obtained in the ED, as long as the patient is sober enough to meaningfully participate in the psychiatric interview. Wherever possible, psychiatric interviews should be supplemented by collateral information.

CASE REPORTS CONTINUED

Ms. A admits to a 5-year history of alcohol and opioid use that meets the criteria for severe AUD and severe OUD. She has previously required inpatient treatment for seizures related to AWS. Laboratory results are notable for a serum ethanol level of 380 mg/dL, UDS positive for opioids, and a negative pregnancy test.

Disposition of patients in alcohol and opioid withdrawal

Given Ms. A’s history of seizures while withdrawing from alcohol, she is appropriate for hospital admission for medically managed withdrawal observation. As previously mentioned, there is clinical overlap between AWS and OWS, and differentiating between the 2 syndromes is essential and may be lifesaving. Whereas anxiety, agitation, diaphoresis, tachycardia, hypertension, and insomnia can be seen in both opioid and alcohol withdrawal, OWS-specific symptoms include mydriasis, lacrimation, rhinorrhea, bone or joint aches, yawning, and piloerection. AWS may present with visual or tactile hallucinations, delirium, and grand mal seizures.15

The details of inpatient management are beyond the scope of this article; however, both patients should be started on thiamine, folic acid, and a multivitamin. For patients in alcohol withdrawal with a history of poor diet who appear malnourished or have a history of malabsorption (such as gastric bypass surgery), thiamine 100 mg/d IV should be given for 3 to 5 days to prevent Wernicke encephalopathy.16 Where there is any concern the patient may be exhibiting signs of Wernicke-Korsakoff Syndrome (impaired cognition, evident malnourishment, ataxia, or eye movement abnormalities), high-dose thiamine IV should be given presumptively as follows: 500 mg IV 3 times a day for 3 days, 250 mg/d IV for 5 days, and then oral supplementation 100 mg/d for at least 30 days.17

In summary, on presentation to the ED, both patients should be medically stabilized and started on benzodiazepines for alcohol withdrawal. The risk assessment and the severity of the AWS often determines the level of care.

CASE REPORTS CONTINUED

On hospital Day 2, Ms. A tells the consulting psychiatrist she would like to start medications to treat her substance use disorders. She has a long history of failed attempts to achieve abstinence from opioids, so she and the psychiatrist agree to initiate a trial of buprenorphine/naloxone for her OUD, 4 mg/1 mg to 8 mg/2 mg for Day 1. Although buprenorphine/naloxone seems to help her alcohol cravings somewhat, she requests additional help. She experiences migraine headaches, which is in part why she began using opioid medications. Via joint decision making with her psychiatrist, she agrees to a trial of topiramate, with a slow titration schedule starting at 25 mg/d.

Continue to: Management decisions

 

 

Management decisions: Buprenorphine for OUD

The next issue is to determine the appropriate treatment for the patient’s OUD. Although treating OWS is important in improving the patient’s health, decreasing their discomfort, and facilitating their participation in a psychosocial treatment program,18 current evidence suggests that opioid withdrawal management alone without medication for OUD rarely leads to long-term recovery.19,20 Some research suggests that the risk of accidental opioid overdose immediately following acute withdrawal management may actually be increased due to decreased tolerance in these patients.12,21,22

Three medications have the most evidence for OUD treatment: buprenorphine, methadone, and naltrexone.15 The decision to use buprenorphine, methadone, or naltrexone depends on a variety of factors, including the severity of the OUD, patient history of prior treatment successes and failures, comorbid medical and psychiatric conditions, and patient preference.4 Treatment with buprenorphine or methadone is preferred over naltrexone for patients who do not want to or cannot tolerate the physical and emotional discomfort of the opioid withdrawal process, who experience moderate to severe OUD, who have a history of failed abstinence-based treatment, or who have more severe physiological tolerance/dependence.12 Buprenorphine is a mu opioid receptor partial agonist that has been shown to reduce opioid cravings,23 provide moderate pain relief,24 and ameliorate OWS.12 It does not typically result in significant respiratory depression, which is the biggest safety concern for opioid use.12 Buprenorphine may also treat comorbid AUD at higher doses; however, the data are inconclusive.25,26 Buprenorphine should be prescribed with caution to patients with comorbid, uncontrolled AUD, due to the risk of respiratory depression when combined with alcohol. Patients who continue to drink alcohol but are able to abstain from opioids may consider starting an AUD-specific medication. Pharmacologic options are discussed in more detail in the next section.

For patients who have higher physiological dependence or more severe OUD, methadone may be a reasonable alternative to buprenorphine. Methadone, a mu-opioid receptor agonist, ameliorates OWS, reduces opioid cravings, and reduces the euphoric effects of opioid ingestion if the patient relapses. However, methadone can only be dispensed for the treatment of OUD by a federally-certified treatment program governed by restrictive and federally mandated guidelines. Compared to buprenorphine, methadone is more dangerous in overdose, has more drug interactions, and is more commonly diverted for recreational use.27 Furthermore, methadone should be prescribed with caution to patients with comorbid, uncontrolled AUD, because both alcohol and methadone can result in respiratory depression.

By contrast, the first-line treatment for individuals experiencing moderateto severe AUD is typically naltrexone.28 Naltrexone is contraindicated in Ms. A because she has a severe OUD and is unlikely to tolerate the opioid withdrawal process. Research suggests that the use of naltrexone for OUD should be limited to patients who have a mild disorder or who show low physiological dependence.29 Alternatively, acamprosate, disulfiram, topiramate, or gabapentin should be considered for Ms. A.4,28,30 Because each of these medications have specific strengths and weaknesses, medication selection should be based on individual patient factors such as comorbid psychiatric and medical conditions and/or patient preference.28

Management decisions: AUD augmentation strategies

Naltrexone is contraindicated for patients who are receiving opioids, including opioid agonist therapy for OUD. Therefore, clinicians need to consider other options for these individuals. There are several medications with good evidence, including acamprosate, disulfiram, topiramate, and gabapentin. Acamprosate and disulfiram are FDA-approved for AUD; the latter 2 have been used off-label.

Continue to: Acamprosate is a glutamate receptor modulator...

 

 

Acamprosate is a glutamate receptor modulator that reduces alcohol cravings and is recommended for patients who have achieved and wish to maintain abstinence. It can be used in patients with liver disease, because it is not hepatically metabolized.30 Topiramate is also used to reduce alcohol cravings. It antagonizes glutamate at alpha-amino-3-hydroxy-5-methyl-4-isoxazole-propionate (AMPA) and kainite receptors, facilitates gamma-aminobutyric acid (GABA) function, and reduces the extracellular release of dopamine in the mesocorticolimbic regions of the brain.30 Topiramate is a reasonable option for patients with a seizure disorder, a history of migraine headaches,30 or who are overweight or obese and wish to lose weight.31 In a nonrandomized study, topiramate reduced alcohol intake and cravings more than naltrexone.32

Disulfiram is another second-line therapy for AUD. It is best used under close supervision because it does not reduce alcohol cravings but makes ingesting alcohol extremely aversive by preventing the breakdown of the alcohol metabolite acetaldehyde, and in doing so causes a cluster of unpleasant symptoms, including sweating, palpitations, flushing, nausea/vomiting, and increased sympathetic tone.28 Disulfiram only works if it is taken daily, and it requires a high degree of motivation and/or daily supervision at home or in the clinic.33 It is not recommended to be used as a first-line treatment based on its potential toxicity, adverse effects, and mixed findings on its efficacy. In addition, it should not be given to medically vulnerable/fragile individuals.

Lastly, gabapentin, a voltage-gated calcium channel modulator, may also be used as a second-line agent for AUD. Patients who have started alcohol withdrawal management with gabapentin may wish to continue treatment to assist with craving suppression.30 It is also a good choice for patients who have comorbid diabetic neuropathy or other neuro­pathic pain conditions, anxiety, or insomnia.30,34 Of note, there have been reports of gabapentin misuse.

CASE REPORTS CONTINUED

Ms. B presents to the ED with a 5-year history of moderate AUD and a 2-year history of mild OUD. She denies a history of severe or complicated AWS. Her laboratory results are significant for a serum ethanol level of 250 mg/dL, UDS positive for opioids, and a negative pregnancy test.

Management decisions: Naltrexone for OUD

In contrast to Ms. A, Ms. B is likely able to complete the opioid withdrawal management process. It is reasonable to treat her uncomplicated, moderate alcohol withdrawal as an outpatient with gabapentin or a benzodiazepine taper. Had her AUD been as severe as Ms. A’s, or if she were unsuccessful with ambulatory withdrawal treatment attempts, Ms. B would also be a candidate for inpatient medical treatment for alcohol withdrawal regardless of the severity of her OUD. Ongoing pharmacotherapy for her AUD after withdrawal management is the same as previously outlined. After Ms. B completes the taper (typically 1 week after the ED visit), she should follow up for initiation of pharmacotherapy for AUD. Ms. B is an ideal candidate for naltrexone, which targets both AUD and OUD.

Continue to: Naltrexone is a semi-synthetic...

 

 

Naltrexone is a semi-synthetic competitive antagonist at mu-opioid receptors and a partial agonist at kappa receptors; it has little to no activity at delta receptors. Naltrexone has been shown to reduce alcohol cravings and diminish the euphoric effects of alcohol by reducing endogenous opioid release and receptor activation.35 Thus, even when patients do use alcohol while taking naltrexone, the amount of alcohol they use is typically substantially reduced.36 In fact, at a standard dose of 50 mg/d, 95% of mu-opioid receptors are occupied and are shown to yield approximately 40% alcohol abstinence rates at 1 year.36

Once Ms. B has completed withdrawal management from both alcohol and opioids, she should have a trial period of oral naltrexone to prove tolerability, and then transition to the long-acting injectable (LAI) formulation. Patients able to complete withdrawal management from opioids and transition to LAI naltrexone have been shown to have equivalent rates of successful abstinence from opioids compared to buprenorphine.37 Though Ms. B could opt to try buprenorphine to treat her mild OUD, naltrexone would be the preferred option because it has 3 advantages:

  • it blocks the mu-opioid receptor, which prevents euphoria if an illicit substance is used
  • it does not cause physiologic dependence or withdrawal syndrome if/when stopped
  • if it is not effective, it is easy to switch to buprenorphine.

Lastly, all patients with OUD should be prescribed a rescue naloxone kit, in accordance with harm-reduction guidelines. Naloxone, a potent opioid receptor antagonist, is used to prevent or reverse respiratory depression in opioid overdose. Naloxone rescue kits include intranasal naloxone, which makes it easy for nonclinician bystanders to administer while waiting for emergency transport.38 Most states allow naloxone kits to be prescribed to individuals who have a concern for overdose among friends, family, or others in the community. The wide distribution and easy availability of naloxone rescue kits have been essential in decreasing overdose deaths among patients who misuse opioids.39

Take-home points

Patients with both OUD and AUD are relatively common and often pose significant management challenges when they present to the clinic or the ED in withdrawal. Because severe AWS can be life-threatening, hospitalization should be considered. OWS is often accompanied by intense cravings that can lead to relapse and the risk of accidental opioid overdose/death. As soon as patients are able to engage in a discussion about their treatment options, clinicians need to clarify the patient’s goals and priorities. In medications for OUD, the decision of whether to use buprenorphine, naltrexone, or methadone is guided by the severity of the OUD, the patient’s past treatment experience (illicit as well as prescribed), and patient preference. If the OUD is mild or if the patient prefers to avoid opioid agonist medications and can tolerate the opioid withdrawal process, both the AUD and OUD can be treated with naltrexone, preferably with the LAI formulation. Other AUD medications and outpatient psychotherapy may be used to augment treatment outcomes. For patients with a moderate to severe OUD, buprenorphine (preferably with immediate initiation) or methadone therapy should be offered. Patients with comorbid OUD and AUD who are treated with opioid agonists should be offered medication for AUD other than naltrexone, as outlined above. All patients with substance use disorders would benefit from psychosocial interventions, including group and individual therapy as well as community sober support groups.

Bottom Line

Patients with comorbid opioid use disorder (OUD) and alcohol use disorder (AUD) often pose significant management challenges when they present in withdrawal. This article reviews the evidence and summarizes practical considerations regarding the clinical management of patients with comorbid OUD and AUD.

Related Resources

Drug Brand Names

Acamprosate • Campral
Buprenorphine/naloxone • Suboxone, Zubsolv
Clonidine • Catapres
Disulfiram • Antabuse
Gabapentin • Neurontin
Hydroxyzine • Vistaril
Lofexidine • Lucemyra
Methadone • Methadose, Dolophine
Naloxone • Narcan
Naltrexone • ReVia, Vivitrol
Ondansetron • Zofran
Topiramate • Topamax
Trazodone • Desyrel, Oleptro

References

1. Mattson CL, Tanz LJ, Quinn K, et al. Trends and geographic patterns in drug and synthetic opioid overdose deaths - United States, 2013-2019. MMWR Morb Mortal Wkly Rep. 2021;70(6):202-207.

2. Hartzler B, Donovan DM, Huang Z. Comparison of opiate-primary treatment seekers with and without alcohol use disorder. J Subst Abuse Treat. 2010;39(2):114-123.

3. Nolan S, Klimas J, Wood E. Alcohol use in opioid agonist treatment. Addict Sci Clin Pract. 2016;11(1):17.

4. Hood LE, Leyrer-Hackson JM, Olive MF. Pharmacotherapeutic management of co-morbid alcohol and opioid use. Expert Opin Pharmacother. 2020;21(7):823-839.

5. Pikovsky M, Peacock A, Larney S, et al. Alcohol use disorder and associated physical health complications and treatment amongst individuals with and without opioid dependence: a case-control study. Drug Alcohol Depend. 2018;188:304-310.

6. Jones CM, McCance-Katz EF. Co-occurring substance use and mental disorders among adults with opioid use disorder. Drug Alcohol Depend. 2019;197:78-82.

7. Hartzler B, Donovan DM, Huang Z. Comparison of opiate-primary treatment seekers with and without alcohol use disorder. J Subst Abuse Treat. 2010;39(2):114-123.

8. Jones CM, Paulozzi LJ, Mack KA; Centers for Disease Control and Prevention (CDC). Alcohol involvement in opioid pain reliever and benzodiazepine drug abuse-related emergency department visits and drug-related deaths - United States, 2010. MMWR Morb Mortal Wkly Rep. 2014;63(40):881-885.

9. Stapleton RD, Comiskey CM. Alcohol usage and associated treatment outcomes for opiate users entering treatment in Ireland. Drug Alcohol Depend. 2010;107(1):56-61.

10. Turner RC, Lichstein PR, Peden JG Jr, et al. Alcohol withdrawal syndromes: a review of pathophysiology, clinical presentation, and treatment. J Gen Intern Med. 1989;4(5):432-444.

11. Boba A. Management of acute alcohol intoxication. Am J Emerg Med. 1999;17(4):431.

12. The ASAM national practice guideline for the treatment of opioid use disorder: 2020 focused update. J Addict Med. 2020;14(2S Suppl1):1-91.

13. Shaw JM, Kolesar GS, Sellers EM, et al. Development of optimal treatment tactics for alcohol withdrawal. I. Assessment and effectiveness of supportive care. J Clin Psychopharmacol. 1981;1(6):382-389.

14. Naranjo CA, Sellers EM. Clinical assessment and pharmacotherapy of the alcohol withdrawal syndrome. Recent Dev Alcohol. 1986;4:265-281.

15. Kampman K, Jarvis M. American Society of Addiction Medicine (ASAM) national practice guideline for the use of medications in the treatment of addiction involving opioid use. J Addict Med. 2015;9(5):358-367.

16. The ASAM clinical practice guideline on alcohol withdrawal management. J Addict Med. 2020;14(3S Suppl 1):1-72.

17. Isenberg-Grzeda E, Kutner HE, Nicolson SE. Wernicke-Korsakoff-syndrome: under-recognized and under-treated. Psychosomatics. 2012;53(6):507-516.

18. Schuckit MA. Treatment of opioid-use disorders. N Engl J Med. 2016;375(4):357-368.

19. Tang Y-L, Hao W. Improving drug addiction treatment in China. Addiction. 2007;102(7):1057-1063.

20. Wakeman SE, Larochelle MR, Ameli O, et al. Comparative effectiveness of different treatment pathways for opioid use disorder. JAMA Netw Open. 2020;3(2):e1920622.

21. Wines JD Jr, Saitz R, Horton NJ, et al. Overdose after detoxification: a prospective study. Drug Alcohol Depend. 2007;89(2-3):161-169.

22. Maughan BC, Becker EA. Drug-related mortality after discharge from treatment: a record-linkage study of substance abuse clients in Texas, 2006-2012. Drug Alcohol Depend. 2019;204:107473.

23. Gowing L, Ali R, White J. Buprenorphine for the management of opioid withdrawal. Cochrane Database Syst Rev. 2002;(2):CD002025.

24. Malinoff HL, Barkin RL, Wilson G. Sublingual buprenorphine is effective in the treatment of chronic pain syndrome. Am J Ther. 2005;12(5):379-384.

25. Nava F, Manzato E, Leonardi C, et al. Opioid maintenance therapy suppresses alcohol intake in heroin addicts with alcohol dependence: preliminary results of an open randomized study. Prog Neuropsychopharmacol Biol Psychiatry. 2008;32(8):1867-1872.

26. Srivastava A, Kahan M, Ross S. The effect of methadone maintenance treatment on alcohol consumption: a systematic review. J Subst Abuse Treat. 2008;34(2):215-223.

27. Davids E, Gastpar M. Buprenorphine in the treatment of opioid dependence. Eur Neuropsychopharmacol. 2004;14(3):209-216.

28. American Psychiatric Association. Practice Guideline for the Pharmacological Treatment of Patients With Alcohol Use Disorder. American Psychiatric Association; 2018.

29. Hassanian-Moghaddam H, Afzali S, Pooya A. Withdrawal syndrome caused by naltrexone in opioid abusers. Hum Exp Toxicol. 2014;33(6):561-567.

30. Fairbanks J, Umbreit A, Kolla BP, et al. Evidence-based pharmacotherapies for alcohol use disorder: clinical pearls. Mayo Clin Proc. 2020;95(9):1964-1977.

31. Verrotti A, Scaparrotta A, Agostinelli S, et al. Topiramate-induced weight loss: a review. Epilepsy Res. 2011;95(3):189-199.

32. Flórez G, García-Portilla P, Alvarez S, et al. Using topiramate or naltrexone for the treatment of alcohol-dependent patients. Alcohol Clin Exp Res. 2008;32(7):1251-1259.

33. Jørgensen CH, Pedersen B, Tønnesen H. The efficacy of disulfiram for the treatment of alcohol use disorder. Alcohol Clin Exp Res. 2011;35(10):1749-1758.

34. Mason BJ, Quello S, Shadan F. Gabapentin for the treatment of alcohol use disorder. Expert Opin Investig Drugs. 2018;27(1):113-124.

35. Sudakin D. Naltrexone: not just for opioids anymore. J Med Toxicol. 2016;12(1):71-75.

36. Rubio G, Jiménez-Arrieri MA, Ponce G, et al. Naltrexone versus acamprosate: one year follow-up of alcohol dependence treatment. Alcohol Alcohol. 2001;36(5):419-425.

37. Lee JD, Nunes EV Jr, Novo P, et al. Comparative effectiveness of extended-release naltrexone versus buprenorphine-naloxone for opioid relapse prevention (X:BOT): a multicentre, open-label, randomised controlled trial. Lancet. 2018;391(10118):309-318.

38. Clark AK, Wilder CM, Winstanley EL. A systematic review of community opioid overdose prevention and naloxone distribution programs. J Addict Med. 2014;8(3):153-163.

39. Dunne RB. Prescribing naloxone for opioid overdose intervention. Pain Manag. 2018;8(3):197-208.

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Rachel Gluck, MD
PGY-4 General Psychiatry Resident
Department of Psychiatry and Behavioral Sciences
Emory University
Atlanta, Georgia

Karen Hochman, MD
Assistant Professor
Department of Psychiatry and Behavioral Sciences
Emory University
Atlanta, Georgia
Medical Director
Substance Abuse Treatment Program
Atlanta Veterans Health Care System
Decatur, Georgia

Yi-lang Tang, MD, PhD
Associate Professor
Department of Psychiatry and Behavioral Sciences
Emory University
Atlanta, Georgia
Addiction Psychiatrist
Substance Abuse Treatment Program
Atlanta Veterans Health Care System
Decatur, Georgia

Disclosures
The authors report no financial relationships with any companies whose products are mentioned in this article, or with manufacturers of competing products.

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Author and Disclosure Information

Rachel Gluck, MD
PGY-4 General Psychiatry Resident
Department of Psychiatry and Behavioral Sciences
Emory University
Atlanta, Georgia

Karen Hochman, MD
Assistant Professor
Department of Psychiatry and Behavioral Sciences
Emory University
Atlanta, Georgia
Medical Director
Substance Abuse Treatment Program
Atlanta Veterans Health Care System
Decatur, Georgia

Yi-lang Tang, MD, PhD
Associate Professor
Department of Psychiatry and Behavioral Sciences
Emory University
Atlanta, Georgia
Addiction Psychiatrist
Substance Abuse Treatment Program
Atlanta Veterans Health Care System
Decatur, Georgia

Disclosures
The authors report no financial relationships with any companies whose products are mentioned in this article, or with manufacturers of competing products.

Author and Disclosure Information

Rachel Gluck, MD
PGY-4 General Psychiatry Resident
Department of Psychiatry and Behavioral Sciences
Emory University
Atlanta, Georgia

Karen Hochman, MD
Assistant Professor
Department of Psychiatry and Behavioral Sciences
Emory University
Atlanta, Georgia
Medical Director
Substance Abuse Treatment Program
Atlanta Veterans Health Care System
Decatur, Georgia

Yi-lang Tang, MD, PhD
Associate Professor
Department of Psychiatry and Behavioral Sciences
Emory University
Atlanta, Georgia
Addiction Psychiatrist
Substance Abuse Treatment Program
Atlanta Veterans Health Care System
Decatur, Georgia

Disclosures
The authors report no financial relationships with any companies whose products are mentioned in this article, or with manufacturers of competing products.

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When left untreated, opioid use disorder (OUD) is a debilitating and potentially lethal illness. Despite the availability of safe and effective medications for OUD, the prevalence of opioid use and overdose deaths has been increasing every year.1 An additional challenge in OUD treatment is the high prevalence of comorbid alcohol use disorder (AUD).2-6 A Clinical Trials Network survey from the National Institute on Drug Abuse found 38% of persons seeking treatment for OUD also had AUD.7 Other analyses have found alcohol was involved in approximately one-fifth of opioid-related deaths.8 Research also reveals that comorbid OUD and AUD contributes to poor treatment outcomes, more medical comorbidities, and a high risk of death (including overdose death).4,9 There is no standard of care for this particular patient population.3 This article reviews the evidence and summarizes practical considerations regarding the clinical management of patients with comorbid OUD and AUD.

To illustrate the various decision points, we will follow 2 hypothetical patients through various stages of treatment (Figure), from their presentation in the emergency department (ED) or outpatient clinic, through their hospital admission (if needed), and into their outpatient follow-up treatment.

Treating patients with comorbid AUD and OUD

CASE REPORTS

Ms. A and Ms. B present to the ED for evaluation of nausea, vomiting, sweating, anxiety, and tremor. Both patients describe their most recent use of both alcohol and opioids approximately 12 hours ago, and each has been attempting to stop using both substances at home.

Decision-making in the emergency setting

In the ED, a few important decisions need to be made regarding treatment:

  • Are the presenting symptoms primarily due to alcohol withdrawal syndrome (AWS), opioid withdrawal syndrome (OWS), or both?
  • Does the patient require inpatient medical withdrawal management (detoxification) based on the history and severity of the withdrawal symptoms?
  • What are the patient’s treatment goals for their AUD and OUD?
  • Is maintenance medication for OUD indicated? If so, which medication is most appropriate?

In the ED, the presentation of individuals affected by both OUD and AUD can be challenging because OWS shares overlapping features with AWS, including nausea, vomiting, diarrhea, sweating, anxiety, and tremor. However, although acute OWS is typically very uncomfortable, it is rarely lethal. On the other hand, severe AWS may result in delirium, seizures, and death,10 which makes it essential to recognize and treat appropriately.

Both Ms. A and Ms. B should be medically evaluated and treated by an emergency medicine physician in conjunction with psychiatric (or addiction medicine) consultation. The ED assessment of a patient presenting with both AUD and OUD should include vital signs monitoring; physical examination; blood work including comprehensive metabolic panel, serum magnesium, and phosphorus; complete blood count; pregnancy test for women of reproductive age; urine drug screen (UDS); urinalysis; and serum ethanol level. Of note, sympathetic hyperactivity is found in both alcohol and opioid withdrawal, and patients with alcohol withdrawal may also have hypokalemia, a condition associated with an increased risk of arrhythmia. Furthermore, a prolonged QTc would affect clinical decision-making about medications for OUD (ie, methadone) and withdrawal management (ie, ondansetron, trazodone, and hydroxyzine). Therefore, an electrocardiogram should be conducted, where appropriate.

Initial treatment of AWS includes vitamin supplementation (thiamine, folic acid, and multivitamins) and benzodiazepine administration (symptom-triggered and/or scheduled taper). It may also include IV fluid resuscitation, analgesics for pain, ondansetron for nausea and vomiting, and other electrolyte repletion as indicated by the laboratory results.11 Additional measures for patients in opioid withdrawal should include alpha-2 agonists such as clonidine or lofexidine for adrenergic symptoms, antiemetics, antidiarrheals, muscle relaxants, anxiolytics such as hydroxyzine, and sleep medications such as trazodone.12

Continue to: The next decision...

 

 

The next decision is whether the patient needs to be admitted for inpatient treatment. This decision is based primarily on the risk assessment and severity of AWS, including a compelling history of complicated AWS such as seizures or delirium tremens as well as consideration of the complexity and severity of any comorbid medical or psychiatric conditions. Other indications for medical withdrawal management include a history of unsuccessful ambulatory withdrawal management and pregnancy. For severe AWS, a scheduled benzodiazepine taper in addition to the symptom-triggered protocol should be considered.13-15 A psychiatric evaluation may be obtained in the ED, as long as the patient is sober enough to meaningfully participate in the psychiatric interview. Wherever possible, psychiatric interviews should be supplemented by collateral information.

CASE REPORTS CONTINUED

Ms. A admits to a 5-year history of alcohol and opioid use that meets the criteria for severe AUD and severe OUD. She has previously required inpatient treatment for seizures related to AWS. Laboratory results are notable for a serum ethanol level of 380 mg/dL, UDS positive for opioids, and a negative pregnancy test.

Disposition of patients in alcohol and opioid withdrawal

Given Ms. A’s history of seizures while withdrawing from alcohol, she is appropriate for hospital admission for medically managed withdrawal observation. As previously mentioned, there is clinical overlap between AWS and OWS, and differentiating between the 2 syndromes is essential and may be lifesaving. Whereas anxiety, agitation, diaphoresis, tachycardia, hypertension, and insomnia can be seen in both opioid and alcohol withdrawal, OWS-specific symptoms include mydriasis, lacrimation, rhinorrhea, bone or joint aches, yawning, and piloerection. AWS may present with visual or tactile hallucinations, delirium, and grand mal seizures.15

The details of inpatient management are beyond the scope of this article; however, both patients should be started on thiamine, folic acid, and a multivitamin. For patients in alcohol withdrawal with a history of poor diet who appear malnourished or have a history of malabsorption (such as gastric bypass surgery), thiamine 100 mg/d IV should be given for 3 to 5 days to prevent Wernicke encephalopathy.16 Where there is any concern the patient may be exhibiting signs of Wernicke-Korsakoff Syndrome (impaired cognition, evident malnourishment, ataxia, or eye movement abnormalities), high-dose thiamine IV should be given presumptively as follows: 500 mg IV 3 times a day for 3 days, 250 mg/d IV for 5 days, and then oral supplementation 100 mg/d for at least 30 days.17

In summary, on presentation to the ED, both patients should be medically stabilized and started on benzodiazepines for alcohol withdrawal. The risk assessment and the severity of the AWS often determines the level of care.

CASE REPORTS CONTINUED

On hospital Day 2, Ms. A tells the consulting psychiatrist she would like to start medications to treat her substance use disorders. She has a long history of failed attempts to achieve abstinence from opioids, so she and the psychiatrist agree to initiate a trial of buprenorphine/naloxone for her OUD, 4 mg/1 mg to 8 mg/2 mg for Day 1. Although buprenorphine/naloxone seems to help her alcohol cravings somewhat, she requests additional help. She experiences migraine headaches, which is in part why she began using opioid medications. Via joint decision making with her psychiatrist, she agrees to a trial of topiramate, with a slow titration schedule starting at 25 mg/d.

Continue to: Management decisions

 

 

Management decisions: Buprenorphine for OUD

The next issue is to determine the appropriate treatment for the patient’s OUD. Although treating OWS is important in improving the patient’s health, decreasing their discomfort, and facilitating their participation in a psychosocial treatment program,18 current evidence suggests that opioid withdrawal management alone without medication for OUD rarely leads to long-term recovery.19,20 Some research suggests that the risk of accidental opioid overdose immediately following acute withdrawal management may actually be increased due to decreased tolerance in these patients.12,21,22

Three medications have the most evidence for OUD treatment: buprenorphine, methadone, and naltrexone.15 The decision to use buprenorphine, methadone, or naltrexone depends on a variety of factors, including the severity of the OUD, patient history of prior treatment successes and failures, comorbid medical and psychiatric conditions, and patient preference.4 Treatment with buprenorphine or methadone is preferred over naltrexone for patients who do not want to or cannot tolerate the physical and emotional discomfort of the opioid withdrawal process, who experience moderate to severe OUD, who have a history of failed abstinence-based treatment, or who have more severe physiological tolerance/dependence.12 Buprenorphine is a mu opioid receptor partial agonist that has been shown to reduce opioid cravings,23 provide moderate pain relief,24 and ameliorate OWS.12 It does not typically result in significant respiratory depression, which is the biggest safety concern for opioid use.12 Buprenorphine may also treat comorbid AUD at higher doses; however, the data are inconclusive.25,26 Buprenorphine should be prescribed with caution to patients with comorbid, uncontrolled AUD, due to the risk of respiratory depression when combined with alcohol. Patients who continue to drink alcohol but are able to abstain from opioids may consider starting an AUD-specific medication. Pharmacologic options are discussed in more detail in the next section.

For patients who have higher physiological dependence or more severe OUD, methadone may be a reasonable alternative to buprenorphine. Methadone, a mu-opioid receptor agonist, ameliorates OWS, reduces opioid cravings, and reduces the euphoric effects of opioid ingestion if the patient relapses. However, methadone can only be dispensed for the treatment of OUD by a federally-certified treatment program governed by restrictive and federally mandated guidelines. Compared to buprenorphine, methadone is more dangerous in overdose, has more drug interactions, and is more commonly diverted for recreational use.27 Furthermore, methadone should be prescribed with caution to patients with comorbid, uncontrolled AUD, because both alcohol and methadone can result in respiratory depression.

By contrast, the first-line treatment for individuals experiencing moderateto severe AUD is typically naltrexone.28 Naltrexone is contraindicated in Ms. A because she has a severe OUD and is unlikely to tolerate the opioid withdrawal process. Research suggests that the use of naltrexone for OUD should be limited to patients who have a mild disorder or who show low physiological dependence.29 Alternatively, acamprosate, disulfiram, topiramate, or gabapentin should be considered for Ms. A.4,28,30 Because each of these medications have specific strengths and weaknesses, medication selection should be based on individual patient factors such as comorbid psychiatric and medical conditions and/or patient preference.28

Management decisions: AUD augmentation strategies

Naltrexone is contraindicated for patients who are receiving opioids, including opioid agonist therapy for OUD. Therefore, clinicians need to consider other options for these individuals. There are several medications with good evidence, including acamprosate, disulfiram, topiramate, and gabapentin. Acamprosate and disulfiram are FDA-approved for AUD; the latter 2 have been used off-label.

Continue to: Acamprosate is a glutamate receptor modulator...

 

 

Acamprosate is a glutamate receptor modulator that reduces alcohol cravings and is recommended for patients who have achieved and wish to maintain abstinence. It can be used in patients with liver disease, because it is not hepatically metabolized.30 Topiramate is also used to reduce alcohol cravings. It antagonizes glutamate at alpha-amino-3-hydroxy-5-methyl-4-isoxazole-propionate (AMPA) and kainite receptors, facilitates gamma-aminobutyric acid (GABA) function, and reduces the extracellular release of dopamine in the mesocorticolimbic regions of the brain.30 Topiramate is a reasonable option for patients with a seizure disorder, a history of migraine headaches,30 or who are overweight or obese and wish to lose weight.31 In a nonrandomized study, topiramate reduced alcohol intake and cravings more than naltrexone.32

Disulfiram is another second-line therapy for AUD. It is best used under close supervision because it does not reduce alcohol cravings but makes ingesting alcohol extremely aversive by preventing the breakdown of the alcohol metabolite acetaldehyde, and in doing so causes a cluster of unpleasant symptoms, including sweating, palpitations, flushing, nausea/vomiting, and increased sympathetic tone.28 Disulfiram only works if it is taken daily, and it requires a high degree of motivation and/or daily supervision at home or in the clinic.33 It is not recommended to be used as a first-line treatment based on its potential toxicity, adverse effects, and mixed findings on its efficacy. In addition, it should not be given to medically vulnerable/fragile individuals.

Lastly, gabapentin, a voltage-gated calcium channel modulator, may also be used as a second-line agent for AUD. Patients who have started alcohol withdrawal management with gabapentin may wish to continue treatment to assist with craving suppression.30 It is also a good choice for patients who have comorbid diabetic neuropathy or other neuro­pathic pain conditions, anxiety, or insomnia.30,34 Of note, there have been reports of gabapentin misuse.

CASE REPORTS CONTINUED

Ms. B presents to the ED with a 5-year history of moderate AUD and a 2-year history of mild OUD. She denies a history of severe or complicated AWS. Her laboratory results are significant for a serum ethanol level of 250 mg/dL, UDS positive for opioids, and a negative pregnancy test.

Management decisions: Naltrexone for OUD

In contrast to Ms. A, Ms. B is likely able to complete the opioid withdrawal management process. It is reasonable to treat her uncomplicated, moderate alcohol withdrawal as an outpatient with gabapentin or a benzodiazepine taper. Had her AUD been as severe as Ms. A’s, or if she were unsuccessful with ambulatory withdrawal treatment attempts, Ms. B would also be a candidate for inpatient medical treatment for alcohol withdrawal regardless of the severity of her OUD. Ongoing pharmacotherapy for her AUD after withdrawal management is the same as previously outlined. After Ms. B completes the taper (typically 1 week after the ED visit), she should follow up for initiation of pharmacotherapy for AUD. Ms. B is an ideal candidate for naltrexone, which targets both AUD and OUD.

Continue to: Naltrexone is a semi-synthetic...

 

 

Naltrexone is a semi-synthetic competitive antagonist at mu-opioid receptors and a partial agonist at kappa receptors; it has little to no activity at delta receptors. Naltrexone has been shown to reduce alcohol cravings and diminish the euphoric effects of alcohol by reducing endogenous opioid release and receptor activation.35 Thus, even when patients do use alcohol while taking naltrexone, the amount of alcohol they use is typically substantially reduced.36 In fact, at a standard dose of 50 mg/d, 95% of mu-opioid receptors are occupied and are shown to yield approximately 40% alcohol abstinence rates at 1 year.36

Once Ms. B has completed withdrawal management from both alcohol and opioids, she should have a trial period of oral naltrexone to prove tolerability, and then transition to the long-acting injectable (LAI) formulation. Patients able to complete withdrawal management from opioids and transition to LAI naltrexone have been shown to have equivalent rates of successful abstinence from opioids compared to buprenorphine.37 Though Ms. B could opt to try buprenorphine to treat her mild OUD, naltrexone would be the preferred option because it has 3 advantages:

  • it blocks the mu-opioid receptor, which prevents euphoria if an illicit substance is used
  • it does not cause physiologic dependence or withdrawal syndrome if/when stopped
  • if it is not effective, it is easy to switch to buprenorphine.

Lastly, all patients with OUD should be prescribed a rescue naloxone kit, in accordance with harm-reduction guidelines. Naloxone, a potent opioid receptor antagonist, is used to prevent or reverse respiratory depression in opioid overdose. Naloxone rescue kits include intranasal naloxone, which makes it easy for nonclinician bystanders to administer while waiting for emergency transport.38 Most states allow naloxone kits to be prescribed to individuals who have a concern for overdose among friends, family, or others in the community. The wide distribution and easy availability of naloxone rescue kits have been essential in decreasing overdose deaths among patients who misuse opioids.39

Take-home points

Patients with both OUD and AUD are relatively common and often pose significant management challenges when they present to the clinic or the ED in withdrawal. Because severe AWS can be life-threatening, hospitalization should be considered. OWS is often accompanied by intense cravings that can lead to relapse and the risk of accidental opioid overdose/death. As soon as patients are able to engage in a discussion about their treatment options, clinicians need to clarify the patient’s goals and priorities. In medications for OUD, the decision of whether to use buprenorphine, naltrexone, or methadone is guided by the severity of the OUD, the patient’s past treatment experience (illicit as well as prescribed), and patient preference. If the OUD is mild or if the patient prefers to avoid opioid agonist medications and can tolerate the opioid withdrawal process, both the AUD and OUD can be treated with naltrexone, preferably with the LAI formulation. Other AUD medications and outpatient psychotherapy may be used to augment treatment outcomes. For patients with a moderate to severe OUD, buprenorphine (preferably with immediate initiation) or methadone therapy should be offered. Patients with comorbid OUD and AUD who are treated with opioid agonists should be offered medication for AUD other than naltrexone, as outlined above. All patients with substance use disorders would benefit from psychosocial interventions, including group and individual therapy as well as community sober support groups.

Bottom Line

Patients with comorbid opioid use disorder (OUD) and alcohol use disorder (AUD) often pose significant management challenges when they present in withdrawal. This article reviews the evidence and summarizes practical considerations regarding the clinical management of patients with comorbid OUD and AUD.

Related Resources

Drug Brand Names

Acamprosate • Campral
Buprenorphine/naloxone • Suboxone, Zubsolv
Clonidine • Catapres
Disulfiram • Antabuse
Gabapentin • Neurontin
Hydroxyzine • Vistaril
Lofexidine • Lucemyra
Methadone • Methadose, Dolophine
Naloxone • Narcan
Naltrexone • ReVia, Vivitrol
Ondansetron • Zofran
Topiramate • Topamax
Trazodone • Desyrel, Oleptro

When left untreated, opioid use disorder (OUD) is a debilitating and potentially lethal illness. Despite the availability of safe and effective medications for OUD, the prevalence of opioid use and overdose deaths has been increasing every year.1 An additional challenge in OUD treatment is the high prevalence of comorbid alcohol use disorder (AUD).2-6 A Clinical Trials Network survey from the National Institute on Drug Abuse found 38% of persons seeking treatment for OUD also had AUD.7 Other analyses have found alcohol was involved in approximately one-fifth of opioid-related deaths.8 Research also reveals that comorbid OUD and AUD contributes to poor treatment outcomes, more medical comorbidities, and a high risk of death (including overdose death).4,9 There is no standard of care for this particular patient population.3 This article reviews the evidence and summarizes practical considerations regarding the clinical management of patients with comorbid OUD and AUD.

To illustrate the various decision points, we will follow 2 hypothetical patients through various stages of treatment (Figure), from their presentation in the emergency department (ED) or outpatient clinic, through their hospital admission (if needed), and into their outpatient follow-up treatment.

Treating patients with comorbid AUD and OUD

CASE REPORTS

Ms. A and Ms. B present to the ED for evaluation of nausea, vomiting, sweating, anxiety, and tremor. Both patients describe their most recent use of both alcohol and opioids approximately 12 hours ago, and each has been attempting to stop using both substances at home.

Decision-making in the emergency setting

In the ED, a few important decisions need to be made regarding treatment:

  • Are the presenting symptoms primarily due to alcohol withdrawal syndrome (AWS), opioid withdrawal syndrome (OWS), or both?
  • Does the patient require inpatient medical withdrawal management (detoxification) based on the history and severity of the withdrawal symptoms?
  • What are the patient’s treatment goals for their AUD and OUD?
  • Is maintenance medication for OUD indicated? If so, which medication is most appropriate?

In the ED, the presentation of individuals affected by both OUD and AUD can be challenging because OWS shares overlapping features with AWS, including nausea, vomiting, diarrhea, sweating, anxiety, and tremor. However, although acute OWS is typically very uncomfortable, it is rarely lethal. On the other hand, severe AWS may result in delirium, seizures, and death,10 which makes it essential to recognize and treat appropriately.

Both Ms. A and Ms. B should be medically evaluated and treated by an emergency medicine physician in conjunction with psychiatric (or addiction medicine) consultation. The ED assessment of a patient presenting with both AUD and OUD should include vital signs monitoring; physical examination; blood work including comprehensive metabolic panel, serum magnesium, and phosphorus; complete blood count; pregnancy test for women of reproductive age; urine drug screen (UDS); urinalysis; and serum ethanol level. Of note, sympathetic hyperactivity is found in both alcohol and opioid withdrawal, and patients with alcohol withdrawal may also have hypokalemia, a condition associated with an increased risk of arrhythmia. Furthermore, a prolonged QTc would affect clinical decision-making about medications for OUD (ie, methadone) and withdrawal management (ie, ondansetron, trazodone, and hydroxyzine). Therefore, an electrocardiogram should be conducted, where appropriate.

Initial treatment of AWS includes vitamin supplementation (thiamine, folic acid, and multivitamins) and benzodiazepine administration (symptom-triggered and/or scheduled taper). It may also include IV fluid resuscitation, analgesics for pain, ondansetron for nausea and vomiting, and other electrolyte repletion as indicated by the laboratory results.11 Additional measures for patients in opioid withdrawal should include alpha-2 agonists such as clonidine or lofexidine for adrenergic symptoms, antiemetics, antidiarrheals, muscle relaxants, anxiolytics such as hydroxyzine, and sleep medications such as trazodone.12

Continue to: The next decision...

 

 

The next decision is whether the patient needs to be admitted for inpatient treatment. This decision is based primarily on the risk assessment and severity of AWS, including a compelling history of complicated AWS such as seizures or delirium tremens as well as consideration of the complexity and severity of any comorbid medical or psychiatric conditions. Other indications for medical withdrawal management include a history of unsuccessful ambulatory withdrawal management and pregnancy. For severe AWS, a scheduled benzodiazepine taper in addition to the symptom-triggered protocol should be considered.13-15 A psychiatric evaluation may be obtained in the ED, as long as the patient is sober enough to meaningfully participate in the psychiatric interview. Wherever possible, psychiatric interviews should be supplemented by collateral information.

CASE REPORTS CONTINUED

Ms. A admits to a 5-year history of alcohol and opioid use that meets the criteria for severe AUD and severe OUD. She has previously required inpatient treatment for seizures related to AWS. Laboratory results are notable for a serum ethanol level of 380 mg/dL, UDS positive for opioids, and a negative pregnancy test.

Disposition of patients in alcohol and opioid withdrawal

Given Ms. A’s history of seizures while withdrawing from alcohol, she is appropriate for hospital admission for medically managed withdrawal observation. As previously mentioned, there is clinical overlap between AWS and OWS, and differentiating between the 2 syndromes is essential and may be lifesaving. Whereas anxiety, agitation, diaphoresis, tachycardia, hypertension, and insomnia can be seen in both opioid and alcohol withdrawal, OWS-specific symptoms include mydriasis, lacrimation, rhinorrhea, bone or joint aches, yawning, and piloerection. AWS may present with visual or tactile hallucinations, delirium, and grand mal seizures.15

The details of inpatient management are beyond the scope of this article; however, both patients should be started on thiamine, folic acid, and a multivitamin. For patients in alcohol withdrawal with a history of poor diet who appear malnourished or have a history of malabsorption (such as gastric bypass surgery), thiamine 100 mg/d IV should be given for 3 to 5 days to prevent Wernicke encephalopathy.16 Where there is any concern the patient may be exhibiting signs of Wernicke-Korsakoff Syndrome (impaired cognition, evident malnourishment, ataxia, or eye movement abnormalities), high-dose thiamine IV should be given presumptively as follows: 500 mg IV 3 times a day for 3 days, 250 mg/d IV for 5 days, and then oral supplementation 100 mg/d for at least 30 days.17

In summary, on presentation to the ED, both patients should be medically stabilized and started on benzodiazepines for alcohol withdrawal. The risk assessment and the severity of the AWS often determines the level of care.

CASE REPORTS CONTINUED

On hospital Day 2, Ms. A tells the consulting psychiatrist she would like to start medications to treat her substance use disorders. She has a long history of failed attempts to achieve abstinence from opioids, so she and the psychiatrist agree to initiate a trial of buprenorphine/naloxone for her OUD, 4 mg/1 mg to 8 mg/2 mg for Day 1. Although buprenorphine/naloxone seems to help her alcohol cravings somewhat, she requests additional help. She experiences migraine headaches, which is in part why she began using opioid medications. Via joint decision making with her psychiatrist, she agrees to a trial of topiramate, with a slow titration schedule starting at 25 mg/d.

Continue to: Management decisions

 

 

Management decisions: Buprenorphine for OUD

The next issue is to determine the appropriate treatment for the patient’s OUD. Although treating OWS is important in improving the patient’s health, decreasing their discomfort, and facilitating their participation in a psychosocial treatment program,18 current evidence suggests that opioid withdrawal management alone without medication for OUD rarely leads to long-term recovery.19,20 Some research suggests that the risk of accidental opioid overdose immediately following acute withdrawal management may actually be increased due to decreased tolerance in these patients.12,21,22

Three medications have the most evidence for OUD treatment: buprenorphine, methadone, and naltrexone.15 The decision to use buprenorphine, methadone, or naltrexone depends on a variety of factors, including the severity of the OUD, patient history of prior treatment successes and failures, comorbid medical and psychiatric conditions, and patient preference.4 Treatment with buprenorphine or methadone is preferred over naltrexone for patients who do not want to or cannot tolerate the physical and emotional discomfort of the opioid withdrawal process, who experience moderate to severe OUD, who have a history of failed abstinence-based treatment, or who have more severe physiological tolerance/dependence.12 Buprenorphine is a mu opioid receptor partial agonist that has been shown to reduce opioid cravings,23 provide moderate pain relief,24 and ameliorate OWS.12 It does not typically result in significant respiratory depression, which is the biggest safety concern for opioid use.12 Buprenorphine may also treat comorbid AUD at higher doses; however, the data are inconclusive.25,26 Buprenorphine should be prescribed with caution to patients with comorbid, uncontrolled AUD, due to the risk of respiratory depression when combined with alcohol. Patients who continue to drink alcohol but are able to abstain from opioids may consider starting an AUD-specific medication. Pharmacologic options are discussed in more detail in the next section.

For patients who have higher physiological dependence or more severe OUD, methadone may be a reasonable alternative to buprenorphine. Methadone, a mu-opioid receptor agonist, ameliorates OWS, reduces opioid cravings, and reduces the euphoric effects of opioid ingestion if the patient relapses. However, methadone can only be dispensed for the treatment of OUD by a federally-certified treatment program governed by restrictive and federally mandated guidelines. Compared to buprenorphine, methadone is more dangerous in overdose, has more drug interactions, and is more commonly diverted for recreational use.27 Furthermore, methadone should be prescribed with caution to patients with comorbid, uncontrolled AUD, because both alcohol and methadone can result in respiratory depression.

By contrast, the first-line treatment for individuals experiencing moderateto severe AUD is typically naltrexone.28 Naltrexone is contraindicated in Ms. A because she has a severe OUD and is unlikely to tolerate the opioid withdrawal process. Research suggests that the use of naltrexone for OUD should be limited to patients who have a mild disorder or who show low physiological dependence.29 Alternatively, acamprosate, disulfiram, topiramate, or gabapentin should be considered for Ms. A.4,28,30 Because each of these medications have specific strengths and weaknesses, medication selection should be based on individual patient factors such as comorbid psychiatric and medical conditions and/or patient preference.28

Management decisions: AUD augmentation strategies

Naltrexone is contraindicated for patients who are receiving opioids, including opioid agonist therapy for OUD. Therefore, clinicians need to consider other options for these individuals. There are several medications with good evidence, including acamprosate, disulfiram, topiramate, and gabapentin. Acamprosate and disulfiram are FDA-approved for AUD; the latter 2 have been used off-label.

Continue to: Acamprosate is a glutamate receptor modulator...

 

 

Acamprosate is a glutamate receptor modulator that reduces alcohol cravings and is recommended for patients who have achieved and wish to maintain abstinence. It can be used in patients with liver disease, because it is not hepatically metabolized.30 Topiramate is also used to reduce alcohol cravings. It antagonizes glutamate at alpha-amino-3-hydroxy-5-methyl-4-isoxazole-propionate (AMPA) and kainite receptors, facilitates gamma-aminobutyric acid (GABA) function, and reduces the extracellular release of dopamine in the mesocorticolimbic regions of the brain.30 Topiramate is a reasonable option for patients with a seizure disorder, a history of migraine headaches,30 or who are overweight or obese and wish to lose weight.31 In a nonrandomized study, topiramate reduced alcohol intake and cravings more than naltrexone.32

Disulfiram is another second-line therapy for AUD. It is best used under close supervision because it does not reduce alcohol cravings but makes ingesting alcohol extremely aversive by preventing the breakdown of the alcohol metabolite acetaldehyde, and in doing so causes a cluster of unpleasant symptoms, including sweating, palpitations, flushing, nausea/vomiting, and increased sympathetic tone.28 Disulfiram only works if it is taken daily, and it requires a high degree of motivation and/or daily supervision at home or in the clinic.33 It is not recommended to be used as a first-line treatment based on its potential toxicity, adverse effects, and mixed findings on its efficacy. In addition, it should not be given to medically vulnerable/fragile individuals.

Lastly, gabapentin, a voltage-gated calcium channel modulator, may also be used as a second-line agent for AUD. Patients who have started alcohol withdrawal management with gabapentin may wish to continue treatment to assist with craving suppression.30 It is also a good choice for patients who have comorbid diabetic neuropathy or other neuro­pathic pain conditions, anxiety, or insomnia.30,34 Of note, there have been reports of gabapentin misuse.

CASE REPORTS CONTINUED

Ms. B presents to the ED with a 5-year history of moderate AUD and a 2-year history of mild OUD. She denies a history of severe or complicated AWS. Her laboratory results are significant for a serum ethanol level of 250 mg/dL, UDS positive for opioids, and a negative pregnancy test.

Management decisions: Naltrexone for OUD

In contrast to Ms. A, Ms. B is likely able to complete the opioid withdrawal management process. It is reasonable to treat her uncomplicated, moderate alcohol withdrawal as an outpatient with gabapentin or a benzodiazepine taper. Had her AUD been as severe as Ms. A’s, or if she were unsuccessful with ambulatory withdrawal treatment attempts, Ms. B would also be a candidate for inpatient medical treatment for alcohol withdrawal regardless of the severity of her OUD. Ongoing pharmacotherapy for her AUD after withdrawal management is the same as previously outlined. After Ms. B completes the taper (typically 1 week after the ED visit), she should follow up for initiation of pharmacotherapy for AUD. Ms. B is an ideal candidate for naltrexone, which targets both AUD and OUD.

Continue to: Naltrexone is a semi-synthetic...

 

 

Naltrexone is a semi-synthetic competitive antagonist at mu-opioid receptors and a partial agonist at kappa receptors; it has little to no activity at delta receptors. Naltrexone has been shown to reduce alcohol cravings and diminish the euphoric effects of alcohol by reducing endogenous opioid release and receptor activation.35 Thus, even when patients do use alcohol while taking naltrexone, the amount of alcohol they use is typically substantially reduced.36 In fact, at a standard dose of 50 mg/d, 95% of mu-opioid receptors are occupied and are shown to yield approximately 40% alcohol abstinence rates at 1 year.36

Once Ms. B has completed withdrawal management from both alcohol and opioids, she should have a trial period of oral naltrexone to prove tolerability, and then transition to the long-acting injectable (LAI) formulation. Patients able to complete withdrawal management from opioids and transition to LAI naltrexone have been shown to have equivalent rates of successful abstinence from opioids compared to buprenorphine.37 Though Ms. B could opt to try buprenorphine to treat her mild OUD, naltrexone would be the preferred option because it has 3 advantages:

  • it blocks the mu-opioid receptor, which prevents euphoria if an illicit substance is used
  • it does not cause physiologic dependence or withdrawal syndrome if/when stopped
  • if it is not effective, it is easy to switch to buprenorphine.

Lastly, all patients with OUD should be prescribed a rescue naloxone kit, in accordance with harm-reduction guidelines. Naloxone, a potent opioid receptor antagonist, is used to prevent or reverse respiratory depression in opioid overdose. Naloxone rescue kits include intranasal naloxone, which makes it easy for nonclinician bystanders to administer while waiting for emergency transport.38 Most states allow naloxone kits to be prescribed to individuals who have a concern for overdose among friends, family, or others in the community. The wide distribution and easy availability of naloxone rescue kits have been essential in decreasing overdose deaths among patients who misuse opioids.39

Take-home points

Patients with both OUD and AUD are relatively common and often pose significant management challenges when they present to the clinic or the ED in withdrawal. Because severe AWS can be life-threatening, hospitalization should be considered. OWS is often accompanied by intense cravings that can lead to relapse and the risk of accidental opioid overdose/death. As soon as patients are able to engage in a discussion about their treatment options, clinicians need to clarify the patient’s goals and priorities. In medications for OUD, the decision of whether to use buprenorphine, naltrexone, or methadone is guided by the severity of the OUD, the patient’s past treatment experience (illicit as well as prescribed), and patient preference. If the OUD is mild or if the patient prefers to avoid opioid agonist medications and can tolerate the opioid withdrawal process, both the AUD and OUD can be treated with naltrexone, preferably with the LAI formulation. Other AUD medications and outpatient psychotherapy may be used to augment treatment outcomes. For patients with a moderate to severe OUD, buprenorphine (preferably with immediate initiation) or methadone therapy should be offered. Patients with comorbid OUD and AUD who are treated with opioid agonists should be offered medication for AUD other than naltrexone, as outlined above. All patients with substance use disorders would benefit from psychosocial interventions, including group and individual therapy as well as community sober support groups.

Bottom Line

Patients with comorbid opioid use disorder (OUD) and alcohol use disorder (AUD) often pose significant management challenges when they present in withdrawal. This article reviews the evidence and summarizes practical considerations regarding the clinical management of patients with comorbid OUD and AUD.

Related Resources

Drug Brand Names

Acamprosate • Campral
Buprenorphine/naloxone • Suboxone, Zubsolv
Clonidine • Catapres
Disulfiram • Antabuse
Gabapentin • Neurontin
Hydroxyzine • Vistaril
Lofexidine • Lucemyra
Methadone • Methadose, Dolophine
Naloxone • Narcan
Naltrexone • ReVia, Vivitrol
Ondansetron • Zofran
Topiramate • Topamax
Trazodone • Desyrel, Oleptro

References

1. Mattson CL, Tanz LJ, Quinn K, et al. Trends and geographic patterns in drug and synthetic opioid overdose deaths - United States, 2013-2019. MMWR Morb Mortal Wkly Rep. 2021;70(6):202-207.

2. Hartzler B, Donovan DM, Huang Z. Comparison of opiate-primary treatment seekers with and without alcohol use disorder. J Subst Abuse Treat. 2010;39(2):114-123.

3. Nolan S, Klimas J, Wood E. Alcohol use in opioid agonist treatment. Addict Sci Clin Pract. 2016;11(1):17.

4. Hood LE, Leyrer-Hackson JM, Olive MF. Pharmacotherapeutic management of co-morbid alcohol and opioid use. Expert Opin Pharmacother. 2020;21(7):823-839.

5. Pikovsky M, Peacock A, Larney S, et al. Alcohol use disorder and associated physical health complications and treatment amongst individuals with and without opioid dependence: a case-control study. Drug Alcohol Depend. 2018;188:304-310.

6. Jones CM, McCance-Katz EF. Co-occurring substance use and mental disorders among adults with opioid use disorder. Drug Alcohol Depend. 2019;197:78-82.

7. Hartzler B, Donovan DM, Huang Z. Comparison of opiate-primary treatment seekers with and without alcohol use disorder. J Subst Abuse Treat. 2010;39(2):114-123.

8. Jones CM, Paulozzi LJ, Mack KA; Centers for Disease Control and Prevention (CDC). Alcohol involvement in opioid pain reliever and benzodiazepine drug abuse-related emergency department visits and drug-related deaths - United States, 2010. MMWR Morb Mortal Wkly Rep. 2014;63(40):881-885.

9. Stapleton RD, Comiskey CM. Alcohol usage and associated treatment outcomes for opiate users entering treatment in Ireland. Drug Alcohol Depend. 2010;107(1):56-61.

10. Turner RC, Lichstein PR, Peden JG Jr, et al. Alcohol withdrawal syndromes: a review of pathophysiology, clinical presentation, and treatment. J Gen Intern Med. 1989;4(5):432-444.

11. Boba A. Management of acute alcohol intoxication. Am J Emerg Med. 1999;17(4):431.

12. The ASAM national practice guideline for the treatment of opioid use disorder: 2020 focused update. J Addict Med. 2020;14(2S Suppl1):1-91.

13. Shaw JM, Kolesar GS, Sellers EM, et al. Development of optimal treatment tactics for alcohol withdrawal. I. Assessment and effectiveness of supportive care. J Clin Psychopharmacol. 1981;1(6):382-389.

14. Naranjo CA, Sellers EM. Clinical assessment and pharmacotherapy of the alcohol withdrawal syndrome. Recent Dev Alcohol. 1986;4:265-281.

15. Kampman K, Jarvis M. American Society of Addiction Medicine (ASAM) national practice guideline for the use of medications in the treatment of addiction involving opioid use. J Addict Med. 2015;9(5):358-367.

16. The ASAM clinical practice guideline on alcohol withdrawal management. J Addict Med. 2020;14(3S Suppl 1):1-72.

17. Isenberg-Grzeda E, Kutner HE, Nicolson SE. Wernicke-Korsakoff-syndrome: under-recognized and under-treated. Psychosomatics. 2012;53(6):507-516.

18. Schuckit MA. Treatment of opioid-use disorders. N Engl J Med. 2016;375(4):357-368.

19. Tang Y-L, Hao W. Improving drug addiction treatment in China. Addiction. 2007;102(7):1057-1063.

20. Wakeman SE, Larochelle MR, Ameli O, et al. Comparative effectiveness of different treatment pathways for opioid use disorder. JAMA Netw Open. 2020;3(2):e1920622.

21. Wines JD Jr, Saitz R, Horton NJ, et al. Overdose after detoxification: a prospective study. Drug Alcohol Depend. 2007;89(2-3):161-169.

22. Maughan BC, Becker EA. Drug-related mortality after discharge from treatment: a record-linkage study of substance abuse clients in Texas, 2006-2012. Drug Alcohol Depend. 2019;204:107473.

23. Gowing L, Ali R, White J. Buprenorphine for the management of opioid withdrawal. Cochrane Database Syst Rev. 2002;(2):CD002025.

24. Malinoff HL, Barkin RL, Wilson G. Sublingual buprenorphine is effective in the treatment of chronic pain syndrome. Am J Ther. 2005;12(5):379-384.

25. Nava F, Manzato E, Leonardi C, et al. Opioid maintenance therapy suppresses alcohol intake in heroin addicts with alcohol dependence: preliminary results of an open randomized study. Prog Neuropsychopharmacol Biol Psychiatry. 2008;32(8):1867-1872.

26. Srivastava A, Kahan M, Ross S. The effect of methadone maintenance treatment on alcohol consumption: a systematic review. J Subst Abuse Treat. 2008;34(2):215-223.

27. Davids E, Gastpar M. Buprenorphine in the treatment of opioid dependence. Eur Neuropsychopharmacol. 2004;14(3):209-216.

28. American Psychiatric Association. Practice Guideline for the Pharmacological Treatment of Patients With Alcohol Use Disorder. American Psychiatric Association; 2018.

29. Hassanian-Moghaddam H, Afzali S, Pooya A. Withdrawal syndrome caused by naltrexone in opioid abusers. Hum Exp Toxicol. 2014;33(6):561-567.

30. Fairbanks J, Umbreit A, Kolla BP, et al. Evidence-based pharmacotherapies for alcohol use disorder: clinical pearls. Mayo Clin Proc. 2020;95(9):1964-1977.

31. Verrotti A, Scaparrotta A, Agostinelli S, et al. Topiramate-induced weight loss: a review. Epilepsy Res. 2011;95(3):189-199.

32. Flórez G, García-Portilla P, Alvarez S, et al. Using topiramate or naltrexone for the treatment of alcohol-dependent patients. Alcohol Clin Exp Res. 2008;32(7):1251-1259.

33. Jørgensen CH, Pedersen B, Tønnesen H. The efficacy of disulfiram for the treatment of alcohol use disorder. Alcohol Clin Exp Res. 2011;35(10):1749-1758.

34. Mason BJ, Quello S, Shadan F. Gabapentin for the treatment of alcohol use disorder. Expert Opin Investig Drugs. 2018;27(1):113-124.

35. Sudakin D. Naltrexone: not just for opioids anymore. J Med Toxicol. 2016;12(1):71-75.

36. Rubio G, Jiménez-Arrieri MA, Ponce G, et al. Naltrexone versus acamprosate: one year follow-up of alcohol dependence treatment. Alcohol Alcohol. 2001;36(5):419-425.

37. Lee JD, Nunes EV Jr, Novo P, et al. Comparative effectiveness of extended-release naltrexone versus buprenorphine-naloxone for opioid relapse prevention (X:BOT): a multicentre, open-label, randomised controlled trial. Lancet. 2018;391(10118):309-318.

38. Clark AK, Wilder CM, Winstanley EL. A systematic review of community opioid overdose prevention and naloxone distribution programs. J Addict Med. 2014;8(3):153-163.

39. Dunne RB. Prescribing naloxone for opioid overdose intervention. Pain Manag. 2018;8(3):197-208.

References

1. Mattson CL, Tanz LJ, Quinn K, et al. Trends and geographic patterns in drug and synthetic opioid overdose deaths - United States, 2013-2019. MMWR Morb Mortal Wkly Rep. 2021;70(6):202-207.

2. Hartzler B, Donovan DM, Huang Z. Comparison of opiate-primary treatment seekers with and without alcohol use disorder. J Subst Abuse Treat. 2010;39(2):114-123.

3. Nolan S, Klimas J, Wood E. Alcohol use in opioid agonist treatment. Addict Sci Clin Pract. 2016;11(1):17.

4. Hood LE, Leyrer-Hackson JM, Olive MF. Pharmacotherapeutic management of co-morbid alcohol and opioid use. Expert Opin Pharmacother. 2020;21(7):823-839.

5. Pikovsky M, Peacock A, Larney S, et al. Alcohol use disorder and associated physical health complications and treatment amongst individuals with and without opioid dependence: a case-control study. Drug Alcohol Depend. 2018;188:304-310.

6. Jones CM, McCance-Katz EF. Co-occurring substance use and mental disorders among adults with opioid use disorder. Drug Alcohol Depend. 2019;197:78-82.

7. Hartzler B, Donovan DM, Huang Z. Comparison of opiate-primary treatment seekers with and without alcohol use disorder. J Subst Abuse Treat. 2010;39(2):114-123.

8. Jones CM, Paulozzi LJ, Mack KA; Centers for Disease Control and Prevention (CDC). Alcohol involvement in opioid pain reliever and benzodiazepine drug abuse-related emergency department visits and drug-related deaths - United States, 2010. MMWR Morb Mortal Wkly Rep. 2014;63(40):881-885.

9. Stapleton RD, Comiskey CM. Alcohol usage and associated treatment outcomes for opiate users entering treatment in Ireland. Drug Alcohol Depend. 2010;107(1):56-61.

10. Turner RC, Lichstein PR, Peden JG Jr, et al. Alcohol withdrawal syndromes: a review of pathophysiology, clinical presentation, and treatment. J Gen Intern Med. 1989;4(5):432-444.

11. Boba A. Management of acute alcohol intoxication. Am J Emerg Med. 1999;17(4):431.

12. The ASAM national practice guideline for the treatment of opioid use disorder: 2020 focused update. J Addict Med. 2020;14(2S Suppl1):1-91.

13. Shaw JM, Kolesar GS, Sellers EM, et al. Development of optimal treatment tactics for alcohol withdrawal. I. Assessment and effectiveness of supportive care. J Clin Psychopharmacol. 1981;1(6):382-389.

14. Naranjo CA, Sellers EM. Clinical assessment and pharmacotherapy of the alcohol withdrawal syndrome. Recent Dev Alcohol. 1986;4:265-281.

15. Kampman K, Jarvis M. American Society of Addiction Medicine (ASAM) national practice guideline for the use of medications in the treatment of addiction involving opioid use. J Addict Med. 2015;9(5):358-367.

16. The ASAM clinical practice guideline on alcohol withdrawal management. J Addict Med. 2020;14(3S Suppl 1):1-72.

17. Isenberg-Grzeda E, Kutner HE, Nicolson SE. Wernicke-Korsakoff-syndrome: under-recognized and under-treated. Psychosomatics. 2012;53(6):507-516.

18. Schuckit MA. Treatment of opioid-use disorders. N Engl J Med. 2016;375(4):357-368.

19. Tang Y-L, Hao W. Improving drug addiction treatment in China. Addiction. 2007;102(7):1057-1063.

20. Wakeman SE, Larochelle MR, Ameli O, et al. Comparative effectiveness of different treatment pathways for opioid use disorder. JAMA Netw Open. 2020;3(2):e1920622.

21. Wines JD Jr, Saitz R, Horton NJ, et al. Overdose after detoxification: a prospective study. Drug Alcohol Depend. 2007;89(2-3):161-169.

22. Maughan BC, Becker EA. Drug-related mortality after discharge from treatment: a record-linkage study of substance abuse clients in Texas, 2006-2012. Drug Alcohol Depend. 2019;204:107473.

23. Gowing L, Ali R, White J. Buprenorphine for the management of opioid withdrawal. Cochrane Database Syst Rev. 2002;(2):CD002025.

24. Malinoff HL, Barkin RL, Wilson G. Sublingual buprenorphine is effective in the treatment of chronic pain syndrome. Am J Ther. 2005;12(5):379-384.

25. Nava F, Manzato E, Leonardi C, et al. Opioid maintenance therapy suppresses alcohol intake in heroin addicts with alcohol dependence: preliminary results of an open randomized study. Prog Neuropsychopharmacol Biol Psychiatry. 2008;32(8):1867-1872.

26. Srivastava A, Kahan M, Ross S. The effect of methadone maintenance treatment on alcohol consumption: a systematic review. J Subst Abuse Treat. 2008;34(2):215-223.

27. Davids E, Gastpar M. Buprenorphine in the treatment of opioid dependence. Eur Neuropsychopharmacol. 2004;14(3):209-216.

28. American Psychiatric Association. Practice Guideline for the Pharmacological Treatment of Patients With Alcohol Use Disorder. American Psychiatric Association; 2018.

29. Hassanian-Moghaddam H, Afzali S, Pooya A. Withdrawal syndrome caused by naltrexone in opioid abusers. Hum Exp Toxicol. 2014;33(6):561-567.

30. Fairbanks J, Umbreit A, Kolla BP, et al. Evidence-based pharmacotherapies for alcohol use disorder: clinical pearls. Mayo Clin Proc. 2020;95(9):1964-1977.

31. Verrotti A, Scaparrotta A, Agostinelli S, et al. Topiramate-induced weight loss: a review. Epilepsy Res. 2011;95(3):189-199.

32. Flórez G, García-Portilla P, Alvarez S, et al. Using topiramate or naltrexone for the treatment of alcohol-dependent patients. Alcohol Clin Exp Res. 2008;32(7):1251-1259.

33. Jørgensen CH, Pedersen B, Tønnesen H. The efficacy of disulfiram for the treatment of alcohol use disorder. Alcohol Clin Exp Res. 2011;35(10):1749-1758.

34. Mason BJ, Quello S, Shadan F. Gabapentin for the treatment of alcohol use disorder. Expert Opin Investig Drugs. 2018;27(1):113-124.

35. Sudakin D. Naltrexone: not just for opioids anymore. J Med Toxicol. 2016;12(1):71-75.

36. Rubio G, Jiménez-Arrieri MA, Ponce G, et al. Naltrexone versus acamprosate: one year follow-up of alcohol dependence treatment. Alcohol Alcohol. 2001;36(5):419-425.

37. Lee JD, Nunes EV Jr, Novo P, et al. Comparative effectiveness of extended-release naltrexone versus buprenorphine-naloxone for opioid relapse prevention (X:BOT): a multicentre, open-label, randomised controlled trial. Lancet. 2018;391(10118):309-318.

38. Clark AK, Wilder CM, Winstanley EL. A systematic review of community opioid overdose prevention and naloxone distribution programs. J Addict Med. 2014;8(3):153-163.

39. Dunne RB. Prescribing naloxone for opioid overdose intervention. Pain Manag. 2018;8(3):197-208.

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