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Naltrexone(INN, BAN, USAN)
Systematic (IUPAC) name
17-(cyclopropylmethyl)-4,5α-epoxy- 3,14-dihydroxymorphinan-6-one
Clinical data
Trade names Revia
  • AU: B3
  • US: C (Risk not ruled out)
Legal status
Routes of
Oral, intramuscular
Pharmacokinetic data
Bioavailability 5–40%
Protein binding 21%
Metabolism hepatic
Biological half-life 4 h (naltrexone),
13 h (6-β-naltrexol)
Excretion Urine
CAS Registry Number  Y
ATC code N07
PubChem CID:
DrugBank  Y
ChemSpider  Y
Chemical data
Formula C20H23NO4
Molecular mass 341.401 g/mol
Physical data
Melting point 169 °C (336 °F)

Naltrexone reverses the effects of opioids and is used primarily in the management of alcohol dependence and opioid dependence.[1] It is marketed in generic form as its hydrochloride salt, naltrexone hydrochloride, and marketed under the trade names Revia and Depade. In some countries, including the United States, a once-monthly extended-release injectable formulation is marketed under the trade name Vivitrol. Also in the United States, Methylnaltrexone Bromide, a closely related drug, is marketed as Relistor, for the treatment of opioid induced constipation.

Naltrexone should not be confused with naloxone nor nalorphine, which are used in emergency cases of opioid overdose.


  • Medical uses 1
    • Alcohol dependence 1.1
    • Opioid dependence 1.2
  • Adverse effects 2
  • Contraindications 3
  • Pharmacogenetics 4
  • Mechanism of action 5
  • Structure and pharmacokinetics 6
  • Formulations 7
  • Controversies 8
  • Research 9
    • Depersonalization disorder 9.1
    • Low-dose naltrexone 9.2
    • Tobacco dependence 9.3
    • Self-injurious behaviors 9.4
    • Behavioral addiction 9.5
    • Countering adverse effects of interferon alpha 9.6
  • See also 10
  • References 11
  • External links 12

Medical uses

Alcohol dependence

The main use of naltrexone is for the treatment of alcohol dependence. Naltrexone has been shown to decrease heavy drinking.[2] The evidence for bringing about no drinking is less clear.[3]

There is competing research which suggests that individuals receiving naltrexone in combination with supportive therapy and abstinence see no benefit from the administration of naltrexone versus placebo. Instead it is suggested that continuing to drink while naltrexone is administered results in an extinction mechanism that is much stronger compared to administration of naltrexone in combination with abstinence alone. This is known as the The Sinclair Method.[3][4] This contradicts the previous claim that the administration of naltrexone is more beneficial for patients that maintain abstinence from alcohol compared with patients that continue to drink or experience relapse.

Naltrexone was approved by the U.S. Food and Drug Administration (FDA) for the treatment of alcohol dependence in 1994, following publication of the first two randomized, controlled trials in 1992. Since then a number of studies have confirmed its efficacy in reducing frequency and severity of relapse to drinking.[5] The multi-center COMBINE study showed the usefulness of naltrexone in a primary care setting, without add-on psychotherapy.[6]

As noted in the Pharmacogenetics section below, studies since the early 21st century have identified a gene, which is prevalent in roughly 25-30% of the white population, that results in a much more effective response to the use of naltrexone in reducing or ending dependence on alcohol. This gene is rarely present among those of African descent; it is common among 60-70 percent of Asians.[7]

Opioid dependence

Naltrexone helps patients overcome opioid addiction by blocking the drugs’ euphoric effects. Unlike when used for alcohol dependence (discussed above), naltrexone has little effect on opioid cravings.[8] Naltrexone has in general been better studied for alcohol dependence than in treating opioid dependence. It is also more frequently used for alcohol, despite originally being approved by the FDA in 1984 for opioid addiction.[9]

A 2011 review of studies suggested that naltrexone was not superior to placebo or to no pharmacological intervention, nor was naltrexone superior to benzodiazepine or buprenorphine. Because of the poor quality of the reviewed studies, the authors concluded that there was insufficient evidence to support naltrexone therapy for opioid dependence.[10] While some patients do well with the oral formulation, there is a drawback in that it must be taken daily, and a patient whose cravings become overwhelming can obtain opioid intoxication simply by skipping a dose before resuming opioid use. Due to this issue, the usefulness of oral naltrexone in opioid dependence is limited by the low retention in treatment. Oral naltrexone remains an ideal treatment only for a small part of the opioid-dependent population, usually the ones with an unusually stable social situation and motivation (e.g., opioid-dependent health care professionals). Naltrexone treats the physical dependence on opioids, but further psychosocial interventions (such as counseling and group therapy) are often required to enable people to maintain abstinence.[11]

Adverse effects

The most common side effects reported with naltrexone are non-specific gastrointestinal complaints such as diarrhea and abdominal cramping.

Naltrexone has been reported to cause liver damage (when given at doses higher than recommended). It carries an FDA boxed warning for this rare side effect. Due to these reports, some physicians may check liver function tests prior to starting naltrexone, and periodically thereafter. Concerns for liver toxicity initially arose from a study of non-addicted obese patients receiving 300 mg of naltrexone.[12] Subsequent studies have suggested limited toxicity in other patient populations.

Naltrexone should not be started prior to several (typically 7-10) days of abstinence from opioids. This is due to the risk of acute opioid withdrawal if naltrexone is taken, as naltrexone will displace most opioids from their receptors. The time of abstinence may be shorter than 7 days, depending on the half-life of the specific opioid taken. Some physicians use a naloxone challenge to determine whether an individual has any opioids remaining. The challenge involves giving a test dose of naloxone and monitoring for opioid withdrawal. If withdrawal occurs, naltrexone should not be started.[9]

It is important that one not attempt to use opioids while using naltrexone. Although naltrexone blocks the opioid receptor, it is possible to override this blockade with very high doses of opioids. However this is quite dangerous and may lead to opioid overdose, respiratory depression, and death. Similarly one will not show normal response to opioid pain medications when taking naltrexone. In a supervised medical setting pain relief is possible but may require higher than usual doses, and the individual should be closely monitored for respiratory depression. All individuals taking naltrexone are encouraged to keep a card or a note in their wallet in case of an injury or another medical emergency. This is to let medical personnel know that special procedures are required if opiate-based painkillers are to be used.

There has been some controversy regarding the use of opioid-receptor antagonists, such as naltrexone, in the long-term management of opioid dependence due to the effect of these agents in sensitizing the opioid receptors. That is, after therapy, the opioid receptors continue to have increased sensitivity for a period during which the patient is at increased risk of opioid overdose. This effect reinforces the necessity of monitoring of therapy and provision of patient support measures by medical practitioners.


Naltrexone (50 mg per day) should not be used by persons with acute hepatitis or liver failure, or those with recent opioid use (typically 7–10 days).


A naltrexone treatment study by Anton et al., released by the National Institutes of Health in February 2008 and published in the Archives of General Psychiatry, has shown that alcoholics having a certain variant of the opioid receptor gene (G polymorphism of SNP Rs1799971 in the gene OPRM1) demonstrated strong response to naltrexone and were far more likely to experience success at cutting back or discontinuing their alcohol intake altogether, while for those lacking the gene variant, naltrexone appeared to be no different from placebo.[7] The G allele of OPRM1 is most common in individuals of Asian descent, with 60% to 70% of people of Chinese, Japanese, and Indian ancestry having at least one copy, as opposed to 30% of Europeans and very few Africans.[13]

Because of the characteristics of the patient group in the US, the first study was done on white patients, and the next without regard for ethnicity. Anton et al. found that patients of African descent did not have much success with naltrexone in treatment for alcohol dependence because of lacking the relevant gene.[7]

As white patients with the gene had a five times greater rate of success in reducing drinking when given naltrexone than did patients without the gene, when used in a protocol of Medical Management (MM), Anton et al. concluded,

"Because almost 25% of the treatment-seeking population carries the Asp40 allele, genetic testing of individuals before naltrexone treatment might be worth the cost and effort, especially if structured behavioral treatment were not being considered."[7] This would enable treatment to be targeted by genetics to patients for whom it would be most effective. They noted, "Naltrexone is relatively easy to administer and free of serious adverse effects and, as we observed in the Asp40 carriers we studied, it appears to be highly effective."[7]

Studies have found naltrexone to be more efficacious among certain white subjects, because of the genetic basis, than among black subjects, who generally do not carry the relevant gene.[14] A 2009 study of naltrexone as an alcohol dependence treatment among African Americans failed to find any statistically significant differences between naltrexone and a placebo.[15] Studies have suggested that carriers of the G allele may experience higher levels of craving and stronger "high" upon alcohol consumption, compared to carriers of the dominant allele, and naltrexone somewhat blunts these responses, leading to a reduction in alcohol use in some studies.[16]

Mechanism of action

Naltrexone and its active metabolite 6β-naltrexol are antagonists at the μ-opioid receptor (MOR), the κ-opioid receptor (KOR) to a lesser extent, and to a far lesser extent, at the δ-opioid receptor (DOR).[17] The Ki affinity values of naltrexone at the MOR, KOR, and DOR have been reported as 0.0825 nM, 0.509 nM, and 8.02 nM, respectively, demonstrating a KOR/MOR binding ratio of 6.17 and a DOR/MOR binding ratio of 97.2.[18]

The blockade of opioid receptors is the basis behind naltrexone's action in the management of opioid dependence—it reversibly blocks or attenuates the effects of opioids. Its mechanism of action in alcohol dependence is not fully understood, but as an opioid receptor antagonist is likely to be due to the modulation of the dopaminergic mesolimbic pathway (one of the primary centers for risk-reward analysis in the brain, and a tertiary "pleasure center") which is hypothesized to be a major center of the reward associated with addiction that all major drugs of abuse are believed to activate. Mechanism of action may be antagonism to endogenous opiates such as tetrahydropapaveroline, whose production is augmented in the presence of alcohol.[19]

Structure and pharmacokinetics

Naltrexone can be described as a substituted oxymorphone – here the tertiary amine methyl-substituent is replaced with methylcyclopropane. Naltrexone is the N-cyclopropylmethyl derivative of oxymorphone.

Naltrexone is metabolized mainly to 6β-naltrexol by the liver enzyme dihydrodiol dehydrogenase. Other metabolites include 2-hydroxy-3-methoxy-6β-naltrexol and 2-hydroxy-3-methoxy-naltrexone. These are then further metabolised by conjugation with glucuronide.

The plasma half-life of naltrexone and its metabolite 6β-naltrexol are about 4 hours and 13 hours, respectively.


A naltrexone formulation for depot injection was approved by the FDA on April 13, 2006 for the treatment of alcohol dependence.[20] Alkermes manufactures and markets this version in the United States under the name Vivitrol (formerly Vivitrex, but changed after a request by the FDA); Johnson & Johnson markets it in Russia. Cephalon originally marketed the drug in the United States; however, Alkermes reclaimed Vivitrol commercialization rights in 2008.[21] The recommended dose of Vivitrol 380 mg is delivered intramuscularly once a month. The injection should be administered by a healthcare professional.[22]

Naltrexone Hydrochloride marketed as Naltima-50 (Intas Pharmaceuticals, India)

The clinical trial leading to the approval of Vivitrol showed that when compared with a placebo, 380 mg of Vivitrol resulted in a 25% decrease in the event rate of heavy drinking days and 190 mg resulted in a 17% decrease. The 6-month randomized, double-blind, placebo-controlled study was conducted between February 2002 and September 2003. Of the 899 individuals screened, 627 were diagnosed as alcohol-dependent adults and were randomized to receive treatment. The main outcome measure was the event rate of heavy drinking days in the intent-to-treat population. The study’s authors concluded that: “Long-acting naltrexone was well tolerated and resulted in reductions in heavy drinking among treatment-seeking alcohol dependent patients during 6 months of therapy.”[23]

The FDA approved Vivitrol on October 12, 2010 for the prevention of relapse to opioid dependence, following opioid detoxification. This injectable version was previously approved only for alcohol dependence. The phase 3 clinical study upon which the FDA granted approval for Vivitrol in treating opioid dependence had an enrollment of 250 patients and treated for six months. Primary outcome measures were percentage of weekly urine tests negative for opioids and length of study retention during the double-blind period. Alkermes presented positive results from this study at the American Psychiatric Association 2010 Annual Meeting in May 2010. The study met its primary efficacy endpoint and data showed that patients treated once-monthly with Vivitrol demonstrated statistically significant higher rates of opioid-free urine screens, compared to patients treated with a placebo, as measured by the cumulative distribution of clean urine screens (p<0.0002).[24][25]

“This drug approval represents a significant advancement in addiction treatment,” said Janet Woodcock, M.D., director of the FDA’s Center for Drug Evaluation and Research.[26] Nora Volkow, M.D., Director of the National Institute on Drug Abuse (NIDA), stated that: “As a depot formulation, dosed monthly, Vivitrol obviates the daily need for patients to motivate themselves to stick to a treatment regimen - a formidable task, especially in the face of multiple triggers of craving and relapse. This new option increases the pharmaceutical choices for treating opioid addiction, and may be seen as advantageous by those unwilling to consider agonist or partial agonist approaches to treatment. NIDA is continuing to support research on Vivitrol's effectiveness in this country, including a focus on criminal justice involved populations transitioning back into the community.”[27]

A newer option is the naltrexone implant, which must be surgically inserted under the skin. The implant provides a sustained dose of naltrexone to the patient, thereby preventing the problems which may be associated with missing doses. It must be replaced every several months. Naltrexone implants are made by at least three companies, though none have been approved by the U.S. Food and Drug Administration (FDA) or the Australian Therapeutic Goods Administration.[28] Naltrexone implants have been used successfully in Australia for a number of years as part of a long-term protocol for treating opiate addiction.[29]


The FDA authorized use of injectable Naltrexone for opioid addiction using a single study.[30] This study was run out of Russia, a country where opioid agonists such as methadone and buprenorphine are not available. Therefore, this single trial of naltrexone was performed not by comparing it to the best available, evidence-based treatment (methadone or buprenorphine) but by comparing it with a placebo.[31] In addition, the study failed to follow-up on participants to document post-treatment overdose - a key measure for opioid substitution therapies.[32] These factors led to criticism of the study's design and ethics, and, by extension, of the FDA's approval of injectable naltrexone for opioid addiction based on this study.[33]


Depersonalization disorder

Naltrexone is sometimes used in the treatment of depersonalization disorder. While studies have suggested it is less effective than naloxone for treating depersonalization, naloxone is impractical for daily use because it must be injected intravenously. A small (12 patients), open label, non-controlled 2005 naltrexone study demonstrated an improvement in 4 patients of depersonalization symptoms, as measured by 3 validated dissociation scales.[34]

Low-dose naltrexone

"Low-dose naltrexone" (LDN) describes the "off-label" use of naltrexone at low doses for diseases not related to chemical dependency or intoxication, such as multiple sclerosis.[35] Much more research needs to be done before it can be recommended for clinical use.

Although there are scientific studies showing its efficacy in some conditions such as

  •, a website dedicated to promoting and studying the therapeutic indications of low dose naltrexone.

External links

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  2. ^ Rösner, S; Hackl-Herrwerth, A; Leucht, S; Vecchi, S; Srisurapanont, M; Soyka, M (8 December 2010). "Opioid antagonists for alcohol dependence.". The Cochrane database of systematic reviews (12): CD001867.  
  3. ^ a b Pettinati, HM; O'Brien, CP; Rabinowitz, AR; Wortman, SP; Oslin, DW; Kampman, KM; Dackis, CA (December 2006). "The status of naltrexone in the treatment of alcohol dependence: specific effects on heavy drinking.". Journal of clinical psychopharmacology 26 (6): 610–25.  
  4. ^ Sinclair, John David (Jan 2001). "Evidence about the use of naltrexone and for different ways of using it in the treatment of alcoholism.". Alcohal and 36 (1): 2–10.  
  5. ^ Latt NC, Jurd S, Houseman J, Wutzke SE (June 2002). "Naltrexone in alcohol dependence: a randomised controlled trial of effectiveness in a standard clinical setting". Med J Aust 176 (11): 530–4.  
  6. ^ "Naltrexone or Specialized Alcohol Counseling an Effective Treatment for Alcohol Dependence When Delivered with Medical Management" (Press release).  
  7. ^ a b c d e Anton R, Oroszi G, O’Malley S, Couper D, Swift R, Pettinati H, Goldman D (2008). "An Evaluation of Opioid Receptor (OPRM1) as a Predictor of Naltrexone Response in the Treatment of Alcohol Dependence". Archives of General Psychiatry 65 (2): 135–144.  
  8. ^ Dijkstra BA, De Jong CA, Bluschke SM, Krabbe PF, van der Staak CP (June 2007). "Does naltrexone affect craving in abstinent opioid-dependent patients?". Addict Biol 12 (2): 176–82.  
  9. ^ a b Galanter, Marc; Kleber, Herbert. The American Psychiatric Publishing Textbook of Substance Abuse Treatment, 4th Edition. ISBN 1585622761
  10. ^ Minozzi S, Amato L, Vecchi S, Davoli M, Kirchmayer U, Verster A (2011). "Oral naltrexone maintenance treatment for opioid dependence". Cochrane Database Syst Rev (4): CD001333.  
  11. ^ Hanson, Merideth (2001). "Three". In Alex Gitterman. The Handbook of Social Work practice with vulnerable and resilient populations, 2nd Edition (Second ed.). New York: Columbia University Press. 
  12. ^ Pfohl DN, Allen JI, Atkinson, RL, et al: Naltrexone hydrochloride (Trexan): a review of serum transaminase elevations at high dosage. Reports of false-positive urinalysis results were found for the following formulary and nonprescription medications brompheniramine, bupropion, chlorpromazine, clomipramine, dextromethorphan, diphenhydramine, doxylamine, ibuprofen, naproxen, promethazine, quetiapine, quinolones (ofloxacin and gatifloxacin), ranitidine, sertraline, thioridazine, trazodone, venlafaxine, verapamil, and a nonprescription nasal inhaler. False-positive urinalysis results for amphetamine and methamphetamine were the most commonly reported. Problems of Drug Dependence, 1985 (NIDA Research Monograph 67). Edited by Harris LS. Washington, DC, U.S. Government Printing Office, 1986, pp 66–72
  13. ^ "Rs1799971 (SNPedia)". 
  14. ^ HR Kranzler; et al. (2001). "Efficacy of Naltrexone and Acamprosate for Alcoholism Treatment: A Meta‐Analysis". Alcoholism: Clinical and Experimental Research 25: 1335–1341.  
  15. ^ Laura A. Ray, David W. Oslin (2009). "Naltrexone for the treatment of alcohol dependence among African Americans: Results from the COMBINE Study". Drug and Alcohol Dependence 105: 256–258.  
  16. ^ Laura A. Ray; et al. (March 2012). "The Role of the Asn40Asp Polymorphism of the Mu Opioid Receptor Gene (OPRM1) on Alcoholism Etiology and Treatment: A Critical Review". Alcohol Clin Exp Res 36 (3): 385–94.  
  17. ^ Shader RI (August 2003). "Antagonists, Inverse Agonists, and Protagonists."Journal of Clinical Psychopharmacology". 2003 Aug; 23 (4): 321–322.  
  18. ^ Codd EE, Shank RP, Schupsky JJ, Raffa RB (September 1995). "Serotonin and norepinephrine uptake inhibiting activity of centrally acting analgesics: structural determinants and role in antinociception". J. Pharmacol. Exp. Ther. 274 (3): 1263–70.  
  19. ^ Haber, H.; Roske, I.; Rottmann, M.; Georgi, M.; Melzig, M. F. (1997). "Alcohol induces formation of morphine precursors in the striatum of rats". Life Sciences 60 (2): 79–89.  
  20. ^ "Alcoholism Once A Month Injectable Drug, Vivitrol, Approved By FDA," Medical News Today, April 16, 2006.
  21. ^ "Alkermes reclaims Vivitrol commercialization rights from Cephalon," Mass High Tech, December 1, 2008.
  22. ^ Vivitrol Prescribing Information
  23. ^ James C. Garbutt, MD; Henry R. Kranzler, MD; Stephanie S. O’Malley, PhD; David R. Gastfriend, MD; Helen M. Pettinati, PhD; Bernard L. Silverman, MD; John W. Loewy, PhD; Elliot W. Ehrich, MD; "Efficacy and Tolerability of Long-Acting Injectable Naltrexone for Alcohol DependenceA Randomized Controlled Trial," Journal of the American Medical Association, Vol. 293 No. 13, April 6, 2005.
  24. ^ "Alkermes Announces Positive Results from Phase 3 Clinical Study of Naltrexone for Extended-Release Injectable Suspension for the Treatment of Opioid Dependence", November 16, 2009.
  25. ^ Krupitsky E, Nunes EV, Ling W, Illeperuma A, Gastfriend DR, Silverman BL (April 2011). "Injectable extended-release naltrexone for opioid dependence: a double-blind, placebo-controlled, multicentre randomised trial". Lancet 377 (9776): 1506–13.  
  26. ^ "FDA approves injectable drug to treat opioid-dependence patients," U.S. Food and Drug Administration press announcement.
  27. ^ Nora D. Volkow, M.D, "Message from the Director on Important Treatment Advances for Addiction to Heroin and other Opiates," National Institute on Drug Abuse, National Institutes of Health, October 2010.
  28. ^ Therapeutic Goods Administration. "Australian Register of Therapeutic Goods Medicines" (Online database of approved medicines). Retrieved 2009-03-22. 
  29. ^ Hulse, Gary K.; Morris, Noella; Arnold-Reed, Diane; Tait, Robert J. (October 2009). "Improving Clinical Outcomes in Treating Heroin Dependence: Randomized, Controlled Trial of Oral or Implant Naltrexone". Archives of General Psychiatry 66 (10): 1108–1115.  
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  34. ^ Simeon, Daphne. "An Open Trial of Naltrexone in the Treatment of Depersonalization Disorder". Journal of Clinical Psychopharmacology. Retrieved 2011-10-13. 
  35. ^ a b Novella, Steven (5 May 2010). "Low Dose Naltrexone – Bogus or Cutting Edge Science?". Science-Based Medicine. Retrieved 5 July 2011. 
  36. ^ Younger, Jarred (22 April 2009). "Fibromyalgia Symptoms are Reduced by Low-Dose Naltrexone: A Pilot Study". Science-Based Medicine. Retrieved 21 April 2014. 
  37. ^ Bowling, Allen C. "Low-dose naltrexone (LDN) The "411" on LDN". National Multiple Sclerosis Society. Retrieved 6 July 2011. 
  38. ^ King A, de Wit H, Riley R, Cao D, Niaura R, Hatsukami D (2006). "Efficacy of naltrexone in smoking cessation: A preliminary study and an examination of sex differences". Nicotine & Tobacco Research 8 (5): 671–82.  
  39. ^ Smith, Stanley G.; Gupta, Krishan K.; Smith, Sylvia H. (June 1995). "Effects of naltrexone on self-injury, stereotypy, and social behavior of adults with developmental disabilities". Journal of Developmental and Physical Disabilities 7 (2): 137–146.  
  40. ^ Manley, Cynthia (1998-03-20). "Self-injuries may have biochemical base: study". The Reporter. 
  41. ^ Grant, J (2009-04-03). "Drug Suppresses The Compulsion To Steal, Study Shows". Science daily. 
  42. ^ "A randomized, double blind, placebo controlled trial of naltrexone in the treatment of concurrent alcohol dependence and pathological gambling"
  43. ^ Suck Won Kim, Jon E Grant, David E Adson, Young Chul Shin, Double-blind naltrexone and placebo comparison study in the treatment of pathological gambling, Biological Psychiatry, Volume 49, Issue 11, 1 June 2001, Pages 914-921. (
  44. ^ Bostwick, J. M. (2008-02-01). "Internet Sex Addiction Treated With Naltrexone". Mayo Clinic Proceedings. 
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  46. ^ Małyszczak K, Inglot M, Pawłowski T, Czarnecki M, Rymer W, Kiejna A (2006). "[Neuropsychiatric symptoms related to interferon alpha]". Psychiatr. Pol. (in Polish) 40 (4): 787–97.  


See also

Naltrexone is effective in suppressing the cytokine type mediated adverse neuropsychiatric effects of interferon alpha therapy.[45][46]

Countering adverse effects of interferon alpha

There are indications that naltrexone might be beneficial in the treatment of impulse control disorders such as kleptomania, compulsive gambling, or trichotillomania (compulsive hair pulling), but there is conflicting evidence of its effectiveness for gambling.[41][42][43] A 2008 case study reported successful use of naltrexone in suppressing and treating an internet pornography addiction.[44]

Behavioral addiction

Some studies suggest that self-injurious behaviors present in persons with developmental disabilities (including autism) can sometimes be remedied with naltrexone.[39] In these cases, it is believed that the self-injury is being done to release beta-endorphin, which binds to the same receptors as heroin and morphine.[40] If the "rush" generated by self-injury is removed, the behavior may stop.

Self-injurious behaviors

A study done by The Chicago Stop Smoking Research Project at the University of Chicago found that Naltrexone did not help to improve a subject's chance of attaining smoking cessation when compared to a placebo.[38]

Tobacco dependence


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