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Cannabis dependence
Classification and external resources
ICD-10 F12.2
ICD-9 304.3

Cannabis dependence is a condition defined in DSM-IV applying the general concept of substance dependence to cannabis.[1]

Despite cannabis being one of the most widely used illicit drugs in the world,[2] controlled trials for cannabis use disorder have only been reported in literature in the last 15 years. Although the chemicals in cannabis are not physically dependant, many clinicians continue to conclude that there are withdrawal syndromes associated with cannabis use. Research has shown that cannabis users may develop cannabis-related problems, including dependency. [citation needed]

Only a minority of cannabis users seek medical help with their addiction, but demand for treatment for cannabis use disorder is increasing internationally.[3] Evidence suggests that among those who have used cannabis more than a few times the risk of developing dependence is in the range of from 1 in 5 to 1 in 3; the more often cannabis has been used, and the longer it has been used, the higher the risk of the feeling of dependence. In addition, the majority of 'dependent' users continue to use cannabis without seeking treatment. Most users who are addicted to cannabis use it regulairly every 2-3 days, ranging from daily users to users who use frequently through the day. [citation needed]

Evidence for cannabis dependence comes from a number of sources including epidemiological surveys,[4][5][6][7] studies of long-term users,[8][9] clinical trials of people seeking treatment,[10][11][12] controlled experiments on withdrawal and tolerance [13][14][15] and laboratory studies on cannabis brain mechanisms.[16] Budney et al. state that "clinical and epidemiological studies indicate that cannabis dependence is a relatively common phenomenon associated with significant psychosocial abnormality. Basic research has identified a neurobiological system specific to the actions of cannabinoids. Human and non-human studies have demonstrated a valid withdrawal syndrome that is relatively common among heavy marijuana users".[17] In addition, clinical trials evaluating treatments for cannabis dependence indicate that, among other substance dependencies, cannabis dependency is responsive to intervention.[17]

Worldwide data on cannabis use and dependenceEdit

The Australian National Survey of Mental Health and Wellbeing[18] indicated that approximately 200,000 people (or 2.2% of the adult population of Australia) had some form of dependence to cannabis or use cannabis regularly. Swift et al.[18] estimate that this equates to roughly one in three individuals having used cannabis in the past 12 months. According to Swift, Hall and Teeson (2001),[19] the top four symptoms reported by dependent adults were: withdrawal or using cannabis as withdrawal relief (88.8%); persistent desire or unsuccessful attempts to control use (86.9%); tolerance (72.6%); and using cannabis in larger amounts or for a longer time than intended (62.8%).

Agosti and Levin (2004)[20] indicate that cannabis-dependent users are more likely to seek professional treatment for dependency if they had previously sought treatment or suffered from alcohol dependence. However, only 1/10 – 1/3 cannabis dependent users will seek treatment within a year.[21][22][23] And the percentage of cannabis-dependent users who entered treatment is the lowest of all illicit drugs.[24][25]

An Australian study showed that of individuals presenting for interventions for cannabis problems, many had been using on an almost daily basis for an average of 14 years and were suffering serious health and psychological consequences from cannabis use.[26] In addition, Arendt and Munk-Jorgensen (2004)[27] report that cannabis-dependent users entering treatment for cannabis dependency were found to have suffered from depression, schizophrenia and personality disorders more than people dependent on other drugs. This research indicates that these psychological problems are among the main reasons for seeking treatment for cannabis use.[28]

Studies of long-term and regular cannabis users have found that a variety of cannabis-related problems are reported. For example, among a sample of heavy cannabis users in rural Australia,[8] three in four people reported experiencing a persistent desire for cannabis and frequent intoxication during daily activities. Over half of the survey group (54%) reported tolerance while 5% reported suffering withdrawal symptoms. Swift et al.[5] surveyed long-term cannabis users in Sydney, Australia and found that 78% reported withdrawal and 76% reported tolerance. More than a third (39%) reported using cannabis to relieve withdrawal symptoms.

Hathaway reports that in a study of regular cannabis users in Canada the symptoms most frequently reported for the 12 months prior to the study were using cannabis in larger amounts or for longer than intended (32%) and a persistent desire to cut down or unsuccessful attempts to do so (24%). One in ten (10%) respondents reported giving up or reducing social, recreational or work activities due to cannabis use.[29]

Diagnostic criteriaEdit

According to Hall et al.[30] who quotes the Diagnostic and Statistical Manual of the American Psychiatric Association,[31][32] "the essential feature of Substance Dependence is a cluster of cognitive, behavioral and physiologic symptoms indicating that the individual continues use of the substance despite significant substance-related problems". Accordingly, a diagnosis of substance dependence is made if three or more of the following criteria occur at any time in the same 12-month period:

  • Tolerance, as defined by either or all of the following:
    • A need for markedly increased amounts of the substance to achieve intoxication or the desired effect
    • A markedly diminished effect on the user with continued use of the same amount of the substance
  • Withdrawal, as manifested by either of the following:
    • Characteristic withdrawal symptoms from the substance, such as insomnia or difficulty falling asleep, cravings, restlessness, loss of appetite, difficulty concentrating, sweating, mood swings, raise in tempature, depression, irritability, and anger.[33]
    • The same or closely related substance is taken to relieve or avoid withdrawal symptoms
  • The substance is often taken in larger amounts or over a longer period than was intended
  • There is a persistent desire to cut back or control substance use, or unsuccessful attempts to do so
  • Considerable time is spent obtaining the substance
  • Social, occupational or recreational activities are given up or reduced because of use of the substance
  • The substance is used despite knowledge of persistent or recurrent physical or psychological problems caused by the substance.

Evidence suggests that cannabis users can develop tolerance to the effects of THC and experience withdrawal symptoms. Tolerance to the behavioral and psychological effects of THC has been demonstrated in humans and animals[34][35][36][37][38] The mechanisms that create this tolerance to THC are thought to involve changes in cannabinoid receptor function.[36][39]

Addiction potentialEdit

Research has shown the overall addiction potential for cannabis to be much less than for tobacco, alcohol, cocaine or heroin, but slightly higher than that for psilocybin, mescaline, LSD, and MDMA.[40] There is some evidence that dependence on cannabis can exist in some heavy users. One study with 500 heavy users of cannabis showed that when trying to cease consumption, some experience one or more symptoms such as insomnia, restlessness, loss of appetite, depression, irritability, and anger.[33] Cannabis Dependence has been recognized as a clinical entity in the DSM-IV.[41] Prolonged marijuana use produces both pharmacokinetic changes (how the drug is absorbed, distributed, metabolized, and excreted) and pharmacodynamic changes (how the drug interacts with target cells) to the body. These changes require the user to consume higher doses of the drug to achieve a common desirable effect (known as a higher tolerance), and reinforce the body's metabolic systems for synthesizing and eliminating the drug more efficiently.[42]

Preliminary research, published in the April 2006 issue of the Journal of Consulting and Clinical Psychology, indicates that cannabis addiction can be offset by a combination of cognitive-behavioral therapy and motivational incentives. Participants in the study (previously diagnosed with marijuana dependence) received either vouchers as incentives to stay drug free, cognitive-behavioral therapy, or both over a 14-week period. At the end of 3 months, 43 percent of those who received both treatments were no longer using marijuana, compared with 40 percent of the voucher group, and 30 percent of the therapy group. At the end of a 12-month follow-up, 37 percent of those who got both treatments remained abstinent, compared with 17 percent of the voucher group, and 23 percent of the therapy group.[43]

A 1998 French governmental report commissioned by Health Secretary of State Bernard Kouchner, and directed by Dr. Pierre-Bernard Roques, classed drugs according to addictiveness and neurotoxicity. It placed heroin, cocaine and alcohol in the most addictive and lethal categories; benzodiazepine, hallucinogens and tobacco in the medium category, and cannabis in the last category. The report stated that "Addiction to cannabis does not involve neurotoxicity such as it was defined in chapter 3 by neuroanatomical, neurochemical and behavioral criteria. Thus, former results suggesting anatomic changes in the brain of chronic cannabis users, measured by tomography, were not confirmed by the accurate modern neuro-imaging techniques. Moreover, morphological impairment of the hippocampus [which plays a part in memory and navigation] of rats after administration of very high doses of THC (Langfield et al., 1988) was not shown (Slikker et al., 1992)." Health Secretary Bernard Kouchner concluded that : "Scientific facts show that, for cannabis, no neurotoxicity is demonstrated, to the contrary of alcohol and cocaine."[44]

In treating marijuana use, Dr. David McDowell of Columbia University found that there is a need for the clinician to differentiate in the spectrum between a casual user who still has difficulty with drug screens, and a daily heavy user, to a cronic user who uses multiple times in a day.[45] McDowell found that the sedating and anxiolytic properties of THC in some users might make the use of cannabis an attempt to self-medicate personality or psychiatric disorders.[45]

Risk factors for developing cannabis dependencyEdit

Hall et al. conclude that around one in ten people who ever try cannabis will become dependent at some point.[46] For those who use cannabis several times the chance is increased from one in five to one in three and daily users are considered at the greatest risk of dependence with about a one in two chance.[46]

Certain factors are considered to heighten the risk of developing cannabis dependence and longitudinal studies over a number of years have enabled researchers to track aspects of social and psychological development concurrently with cannabis use. Increasing evidence is being shown for the elevation of associated problems by the frequency and age at which cannabis is used, with young and frequent users being at most risk.[47][48][49][50]

Cross-sectional studies that examine the association between conduct disorder and attention deficit hyperactivity disorder have reported a significant association in community[51][52] and in treatment populations[53] with cannabis use and dependence among adolescents. Although early cannabis initiation is considered a strong predictor of later cannabis-related problems, findings that early cannabis initiators are a group already facing social problems have been supported by longitudinal research in Australia. Coffey et al.,[47] in a study of 2032 secondary school students in Victoria, found that mid-school cannabis use was associated with factors including daily cigarette smoking, peer cannabis use and anti-social behaviour. The study also found that regular use at an early age predicted persistence in use from mid- to late-school, with potentially harmful late-school use occurring in 12% of mid-school initiators.[47] A recent follow-up of this group at age 20-21 found that one in five adolescent users experienced later cannabis dependence.[48]

According to Copeland, Gerber and Swift,[54] the main factors related to a heightened risk for developing problems with cannabis use include frequent use at a young age; personal maladjustment; emotional distress; poor parenting; school drop-out; affiliation with drug-using peers; moving away from home at an early age; daily cigarette smoking; and ready access to cannabis. The researchers conclude there is emerging evidence that positive experiences to early cannabis use are a significant predictor of late dependence and that genetic predisposition plays a role in the development of problematic use.

Groups at higher risk of developing cannabis dependenceEdit

A number of groups have been identified as being at greater risk of developing cannabis dependence and include adolescent populations, Aboriginal and Torres Strait Islanders (in Australia) and people suffering from mental health conditions.[55]

Adolescent populationsEdit

In their review of the literature, McLaren and Mattick[56] indicate that young people are at greater risk of developing cannabis dependency because of the association between early initiation into substance use and subsequent problems such as dependence, and the risks associated with using cannabis at a developmentally vulnerable age. In addition there is evidence that cannabis use during adolescence, at a time when the brain is still developing, may have deleterious effects on neural development and later cognitive functioning.[57][58]

Aboriginal and Torres Strait Islanders (an Australian perspective)Edit

There is evidence that cannabis use occurs at higher rates among Aboriginal and Torres Strait Islander peoples when compared to the general population in Australia.[59][60][61] This is part of a broader picture of poor health and wellbeing, stemming from the alienation and dispossession experienced by this population over time.[62] Many of the social determinants of harmful substance use are disproportionately present in Aboriginal and Torres Strait Islander communities.[63]

Psychiatric disordersEdit

McLaren and Mattick show a correlation between populations who suffer from a mental disorder such as schizophrenia and a worsening of these symptoms with cannabis use.[64] In addition, people who are vulnerable to developing psychosis, such as people with a family history of the disorder or with a genetic predisposition, may be at risk of developing a psychotic disorder following frequent cannabis use.[65] Hall and Solowij[66] indicate that given this risk the finding that cannabis use if higher among those with mental health problems than those who do not suffer from such problems is of concern and this population should be treated as a group at risk of adverse effects from cannabis use. This is an especially challenging group to engage and retain in treatment and "clinician's recommendations for the management of substance use in the context of severe and persistent mental illness rests with integrated shared care or dual diagnosis services, in which the critical components are assertive outreach, motivational interventions, skilled counseling, social support interventions, a comprehensive and long-term perspective and cultural sensitivity and competence".[67][68]

TreatmentEdit

Demand for treatment for cannabis dependency is increasing internationally.[69][70][71][72] Cannabis is responsible for most illicit drug admissions in the USA, with a 32% increase in the proportion of admissions for cannabis-related problems from 12% in 1996 to 16% in 2006.[73] The most commonly accessed forms of treatment, according to Copeland and Swift,[74] were 12-step programmes, physicians, rehabilitation programmes, and detox services, with inpatient and outpatient services equally accessed (each approximately 10%).[75] In the EU approximately 20% of all primary admissions and 29% of all new drug clients in 2005, had primary cannabis problems. And in all countries that reported data between 1999-2005 the number of people seeking treatment for cannabis use increased.[76] In Australia between 2006 and 2007, cannabis was the second most common principal drug of concern for which treatment was sought after alcohol, accounting for 23% of closed treatment episodes. Among 10-19-year-old clients, cannabis represented 47% of episodes compared to 29% for alcohol.[77] Stephens et al.[78] describe the symptoms reported by 382 people who signed up for treatment for cannabis dependency. These included: "an inability to stop using (93%), feeling bad about using cannabis (87%), procrastinating (86%), loss of self-confidence (76%), memory loss (67%) and withdrawal symptoms (51%).

Treatment options for cannabis dependence are far fewer than for opiate or alcohol dependence. Most treatment falls into the categories of psychological or psychotherapeutic, intervention, pharmacological intervention or treatment through peer support and environmental approaches.[79] McRae, Budney and Brady postulate that, as with alcohol research, the therapeutic effects of pharacotherapy and psychotherapy may be synergistic, with greatest treatment efficacy seen when medications are combined with psychotherapy, as per the research of Anton et al., 1999.[80][81] Degenhardt et al.[82] indicate that screening and brief intervention sessions can be given in a variety of settings, particularly at doctor's surgeries, which is of importance as most cannabis users seeking help will do so from their general practitioner rather than a drug treatment service agency. Hall and Swift[83] conclude that brief intervention sessions should involve the provision of personalized advice about the client's cannabis use, information about cannabis use and dependence and self-help materials. Evidence suggests that there is value in brief sessions, even for highly dependent cannabis users,[84] and treatment outcomes for cannabis-dependent individuals is considered comparable to those suffering from dependence on other substances.[85]

Psychological interventionEdit

Psychological intervention is most commonly Cognitive Behavioral Therapy (CBT) or Motivational Interviewing (MI). According to Copeland et al.,[79] while CBT examines the interplay between thoughts, behaviour and environment, the main aim of MI is to enhance the motivation of the participant to change. Stevens et al.[86] conducted the first psychological intervention study in the US, with a sample of 212 heavy cannabis users. Participants were assigned to either a 10-week social support group or a 10-week relapse prevention group with a CBT focus. The support group took part in discussions that centered on issues such as: the giving and receiving of support; dealing with denial; and affiliating with friends who still used cannabis[86] The 10-week relapse prevention CBT group included planned exercises, homework and formalised quit contracts undertaken between participant and counsellor. A 12 month follow up revealed similar rates of reduction in cannabis use for both groups (15.2% remained abstinent in the CBT group; 18.1% in the social support group) and one in five people from both groups were judged to have improved, either reporting a 50% less usage than pre-treatment levels or no cannabis related problems.[79][86]

Later follow up of this study saw Stevens et al. introduce a delayed treatment condition, offered four months later than in the active treatment groups, a 14-week CBT relapse prevention group and a brief two-session MI interview (to create a control group for comparison).[87] Results showed that at the follow-up participants in the active treatment groups had a significantly lower number of dependence symptoms and fewer cannabis-related problems compared to the delayed treatment group. Abstinence rates at four months were 37% for both active groups, compared to 9% for the delayed treatment condition.[87]

An Australian study undertaken by Copeland, Swift, Roffman and Stevens[88] further supported the effectiveness of brief interventions for cannabis use. 229 cannabis users were allocated treatment in either six sessions of CBT, one session of CBT or a delayed treatment control group. The CBT interventions incorporated elements of MI and thereby compared two matching therapies, the only difference being in length. At follow up it was found that 15.1% of participants in the six-session CBT group had achieved continuous abstinence as compared to 4.9% in the single session CBT group and 0% in the delayed treatment group.[88] In addition, those in the active treatment groups were considered to be less severely dependent than before the study and reported "higher levels of control over their cannabis use and fewer cannabis-related problems compared to those in the delayed treatment group"[88]

Budney et al. conducted a smaller study that tested the effect of a voucher system, whereby heavy cannabis users were offered vouchers that could be exchanged for retail items in exchange for abstinence.[89]

Participants had to provide cannabinoid-free urine samples to be eligible for the vouchers, the rationale of the study being that previous research indicated that voucher incentives, in conjunction with behavioral interventions, improved the treatment outcome of cocaine-dependent individuals.[90] Results showed that the group receiving motivational enhancement (ME), CBT and voucher incentives (as opposed to ME; ME and CBT) were more likely to have been abstinent during the last week of treatment (35% as opposed to ME/ CBT: 10%; MET: 5%).[89] Furthermore, at 30 days post treatment although all groups reported using substantially less cannabis than before treatment, there was a higher reduction for the voucher group.[79] A recent study with cannabis users referred from probation strengthens these findings further. Participants were involved in either three sessions of motivational enhancement therapy, or this same therapy with added vouchers for attendance. Results showed that significant reductions in cannabis use were noted in both groups, however, more participants in the voucher group completed the treatment.[91] Research undertaken by Copeland and the Cannabis Centre at the University of NSW indicates that although relatively brief, CBT has the strongest evidence of success for adults with cannabis dependence, among adolescents involved in the juvenile justice system and those with severe persistent mental illness.[92]

Pharmacological interventionEdit

Research that relates to pharmacological intervention for cannabis dependency is in its infancy. Carl Hart, in the journal Drug and Alcohol Dependence[93] reviews data from recent research on cannabinoids. The discussion considers the findings from studies that have assessed the ability of medications to ameliorate cannabis-related symptoms in laboratory animals and human research participants. In addition, "data from studies that have investigated the effects of pharmacological agents on cannabis self-administration are also reviews because these data may provide information critical for informing relapse prevention medication development efforts".[93] A number of small-scale trials have examined the impact of mood-altering substances on cannabis withdrawal,[94][95][96] and the impact of drugs that block the acute effects of cannabis.[94] Drugs such as Buproprion, Nefazodone and Lithium Carbonate have all been tested with variable results. Studies that consider the effects of oral THC maintenance for cannabis craving and withdrawal also produced mixed results. Hanley et al.[94] proved that the administration of oral THC had no significant effect on the frequency at which participants chose to smoke cannabis. A 2001 study published in the Journal of Neuroscience, however, indicated that the effects of a mood stabilizer (divalproex) and oral THC on cannabis cravings and withdrawal symptoms effectively reduced cannabis craving and very low doses of oral THC were effective in decreasing all measured withdrawal symptoms in addition to craving.[97] The use of antagonistic pharmacotherapies, agents that block the effects of drugs by binding to receptors in the brain, is used in the treatment of opiates, alcohol and nicotine. One drug that shows promise in this field is CB1 cannabinoid receptor antagonist SR141716A (Rimonabant), which inhibits signs of THC intoxications in monkeys, rats and pigeons.[98] A human clinical trial undertaken in 2002[96] found that SR141716 blocked the acute effects of smoked cannabis.

Columbia University, in collaboration with the National Institute on Drug Abuse (NIDA), is undertaking a clinical trial that looks at the effects of combined pharmacotherapy on cannabis dependency, to see if Lofexidine in combination with Marinol is superior to placebo in achieving abstinence, reducing cannabis use and reducing withdrawal in cannabis-dependent patients seeking treatment for their marijuana use.[99] 180 men and women between the ages of 18-60 who met DSM-IV criteria for current marijuana dependence were enrolled in a 12 week trial that started in January 2010.

Peer support and environmental approachesEdit

Self-help groups that strongly endorse the therapeutic potential of peer support, such as Narcotics Anonymous (NA), are increasingly used as an approach to cannabis dependency.[100] The only requirement for membership at NA is a 'desire to stop using drugs'.[101] Twelve step programs such as NA view addiction as a disease, with complete abstinence the only option for recovery; the support of a former addict helping another is at the core of the program's philosophy and people who become a part of the NA program acquire a 'sponsor', someone who provides personal support and helps recovering addicts implement the 12 steps. These steps include belief in a higher power and keeping a fearless moral inventory of oneself.[101]

Evaluations of Marijuana Anonymous programs, modelled on the 12-step lines of Alcoholics Anonymous and Narcotics Anonymous, have shown small beneficial effects for general drug use reduction.[101]

Barriers to cannabis treatmentEdit

Research that looks at barriers to cannabis treatment frequently cites a lack of interest in treatment, lack of motivation and knowledge of treatment facilities, an overall lack of facilities, costs associated with treatment, difficulty meeting program eligibility criteria and transport difficulties.[102][103][104][105] According to Marlatt et al.,[106] the most frequently reported social barrier to treatment entry is the stigma associated with being labelled as an illicit drug user and associated concerns over privacy. A recent technical report compiled by Australia's National Cannabis Centre[107]


ReferencesEdit

  1. (2004) DSM-IV-TR guidebook, 124–, American Psychiatric Pub. URL accessed 3 May 2010.
  2. (1994). Comparative epidemiology of dependence on tobacco, alcohol, controlled substance and inhalants: Basic findings from the National Comorbidity Survey. Experimental and Clinical Psychopharmacology 2 (3): 244–268.
  3. Substance Abuse and Mental Health Services Administration, Office of Applied Studies. (2003). Emergency department trends from the drug abuse warning network, final estimates 1995–2002, DAWN Series: D-24, DHHS Publication No. (SMA) 03-3780.
  4. (2001). The relationship between cannabis use and other substance use in the general population. Drug and Alcohol Dependence 64 (3): 319–327.
  5. 5.0 5.1 (1998). Characteristics of long term cannabis users in Sydney, Australia. European Addiction Research 4 (4): 190–197.
  6. Robins, L.N. and Regier, D.A. (eds) (1991). Psychiatric Disorders in America: the Epidemiologic Catchment Area Study. New York: Free Press.273.
  7. (2002). The structure of cannabis dependence in the community. Drug and Alcohol Dependence 68 (3): 255–262.
  8. 8.0 8.1 (2002). Dose-related neurocognitive effects of marijuana use. Neurology 59 (9): 1337–1343.
  9. (2000). Driving impairment from marijuana and alcohol. American Family Physician 62 (7).
  10. Shand, F. and Mattick, R.P. (2001). Clients of Treatment Service Agencies: May 2001 Census Findings. (National Drug Strategy Monograph 47). Canberra: Commonwealth Department of Health and Ageing
  11. Substance Abuse and Mental Health Services Administration (2002). Treatment Episode Data Set (TEDS): 1992–2000: national admissions to substance abuse treatment services. (DASIS Series: s-17, DHHS Publication no. (SMA) 02-3727). Rockville, Maryland: US Department of Health and Human Services
  12. European Monitoring Centre for Drugs and Drug Addiction (2002). Annual Report on the State of the Drugs Problem in the European Union and Norway. Luxembourg: Office for Official Publications of the European Communities
  13. (2001). Marijuana abstinence effects in marijuana smokers maintained in their home environment. Archives of General Psychiatry 58 (10): 917–924.
  14. (2003). The time course and significance of cannabis withdrawal. Journal of Abnormal Psychology 112 (3): 393–402.
  15. James, J.S. (2000). Marijuana safety study completed: weight gain, no safety problems. AIDS Treatment News No. 348: 3–4
  16. (2003). Neuromorphological background of cannabis addiction. Brain Research Bulletin 61 (2): 125–8.
  17. 17.0 17.1 Budney, A J., Moore, B A., Development and consequences of cannabis dependence. Journal of Clinical Pharmacology, 2002; 42: 28S-33S
  18. 18.0 18.1 (2001). Cannabis use and dependence among Australian adults: results from the National Survey of Mental Health and Wellbeing. Addiction 96 (5): 737–748.
  19. (2001). Characteristics of DSM-IV and ICD-10 cannabis dependence among Australian adults: results from the National Survey of Mental Health and Wellbeing. Drug and Alcohol Dependence 63 (2): 147–153.
  20. (2004). Predictors of treatment contact among individuals with cannabis dependence. The American Journal of Drug and Alcohol Abuse 30 (1): 121–127.
  21. (10) Agosti, V. & Levin, F.R. (2004). Predictors of treatment contact among individuals with cannabis dependence. The American Journal of Drug and Alcohol Abuse 30, 121-127
  22. (2000). One year follow-up of cannabis dependence among longterm users in Sydney, Australia. Drug and Alcohol Dependence 59 (3): 309–318.
  23. (2007). The Marijuana Check-up: Promoting change in ambivalent marijuana users. Addiction 102 (6): 947–957.
  24. (2002). Correlates of pretreatment drop-out among persons with marijuana dependence. Addiction 97: 125–134.
  25. Substance Abuse and Mental Health Services Administration. (2007). Results from the 2006 National Survey on Drug Use and Health: National findings (NSDUH Series H-32), Rockville, Maryland, United States: Department of Health and Human Services (DHHS Publication No. SMA 07-4293).
  26. (1999). Help seeking among a sample entering treatment for cannabis dependence. Australian Family Physician 28 (6): 540–541.
  27. (2004). Heavy cannabis users seeking treatment, prevalence of psychiatric disorders. Social Psychiatry Psychiatric Epidemiology 39 (2): 97–105.
  28. Gates, P., Taplin, S., Copeland, J., Swift, W., Martin, G (2008). Barriers and Facilitators to Cannabis Treatment. National Cannabis Prevention and Information Centre Technical Report No. 1, University of NSW
  29. (2003). Cannabis effects and dependency concerns in long-term frequent users: a a missing piece of the public health puzzle. Addiction Research and Theory 11 (6): 441–458.
  30. Hall, W., Degenhardt, L., Lynskey M., The health and psychological effects of cannabis useNational Drug and Alcohol Research Centre University of New South Wales. Publications approval number 2970. ISBN 0-644-50364-8
  31. American Psychiatric Association (1994) Diagnostic and Statistical Manual of Mental Disorders (Fourth Edition)Washington, D.C., American Psychiatric Association
  32. American Psychiatric Association (1987) Diagnostic and Statistical Manual of Mental Disorders (Third Edition revised)Washington, D.C., American Psychiatric Association
  33. 33.0 33.1 Laino, Charlene Withdrawal Symptoms From Smoking Pot?. CBS News. URL accessed on 2009-09-05.
  34. (1977) Problem behavior and psychosocial development: a longitudinal study of youth, Boston: Academic Press.Template:Page needed
  35. Donovan JE, Jessor R (December 1985). Structure of problem behavior in adolescence and young adulthood. Journal of Consulting and Clinical Psychology 53 (6): 890–904.
  36. 36.0 36.1 Newcomb MD, Bentler PM (February 1989). Substance use and abuse among children and teenagers. The American Psychologist 44 (2): 242–8.
  37. Rutter, M. (1988). Longitudinal data in the study of causal processes: Some uses and some pitfalls, Cambridge: Cambridge University Press.Template:Page needed
  38. Newcomb, M. D. & Bentler, P. (1988). Consequences of adolescent drug use, California: Sage Publications.Template:Page needed
  39. Fergusson DM, Lynskey MT, Horwood LJ (August 1996). The short-term consequences of early onset cannabis use. Journal of Abnormal Child Psychology 24 (4): 499–512.
  40. Relative Addictiveness of Various Substances. Druglibrary.org. URL accessed on 2011-04-20.
  41. Proposed Revision | APA DSM-5. Dsm5.org. URL accessed on 2011-04-20.
  42. J.E. Joy, S. J. Watson, Jr., and J.A. Benson, Jr, (1999). Marijuana and Medicine: Assessing The Science Base, Washington, D.C.: National Academy of Sciences Press.
  43. National Institutes of Health (April 1, 2006). Combination of Cognitive-Behavioral Therapy and Motivational Incentives Enhance Treatment for Marijuana Addiction. Press release.
  44. 1998 INSERMCNRS report, directed by Pr. Bernard Roques and commissioned by Health Secretary of State Bernard Kouchner [1] [2] [3] [4]
  45. 45.0 45.1 Clinical Textbook of Addictive Disorders, Marijuana, David McDowell, page 169, Published by Guilford Press, 2005 ISBN 159385174X.
  46. 46.0 46.1 Hall, W., Degenhardt, L. and Lynskey, M. (2001). The Health and Psychological Effects of Cannabis Use. (National Drug Strategy Monograph Series, no. 44). Canberra: Commonwealth Department of Health and Ageing
  47. 47.0 47.1 47.2 (2000). Initiation and progression of cannabis use in a population-based Australian adolescent longitudinal study. Addiction 95 (11): 1679–1690.
  48. 48.0 48.1 (2003). Adolescent precursors of cannabis dependence: findings from the Victorian Adolescent Health Cohort Study. British Journal of Psychiatry 182 (4): 330–336.
  49. (1997). Early onset cannabis use and psychosocial adjustment in young adults. Addiction 92 (3): 279–296.
  50. (2002). Cannabis use and psychosocial adjustment in adolescence and young adulthood. Addiction 97 (9): 1123–1135.
  51. (2000). Prevalence of attention-deficit/hyperactivity disorder and conduct disorder among substance abusers. Journal of Clinical Psychiatry 61 (4): 244–251.
  52. (2002). Young adults with attention deficit hyperactivity disorder: differences in cormorbidity, educational and clinical history. Journal of Nervous and Mental Diseases 190 (3): 147–157.
  53. Tims, F.M., Dennis, M.L., Hamilton, N., Buchan, J., Diamond, G. and Funk, R. (2002). Characteristics and problems of 600 adolescent cannabis abusers in outpatient treatment. Addiction 97(S1): 46–57.
  54. Copeland, J., Gerber, S., Swift, W., Evidence-based answers to cannabis questions a review of the literature. National Drug and Alcohol Research Centre University of New South Wales A report prepared for the Australian National Council on Drugs, December 2004
  55. McLaren, J, Mattick, R P., Cannabis in Australia Use, supply, harms, and responses Monograph series No. 57 Report prepared for: Drug Strategy Branch Australian Government Department of Health and Ageing. National Drug and Alcohol Research Centre University of New South Wales, Australia.
  56. Cannabis in Australia Use, supply, harms, and responses Monograph series No. 57. Report prepared for: Drug Strategy Branch Australian Government Department of Health and Ageing. National Drug and Alcohol Research Centre University of New South Wales, Australia.
  57. (1999). Specific attentional dysfunction in adults following early start of cannabis use. Psychopharmacology 142 (3): 295–301.
  58. (2000). Brain morphological changes and early marijuana use: A magnetic resonance and positron emission tomography study. Journal of Addictive Diseases 19 (1): 1–22.
  59. Australian Institute of Health and Welfare (2002) 2001 National Drug Strategy Household Survey: Detailed findings. AIHW cat. no. PHE 41 Canberra, AIHW.
  60. (1999). Substance use and sociodemographic factors among Aboriginal and Torres Strait Islander school students in New South Wales. Australian and New Zealand Journal of Public Health 23 (3): 295–300.
  61. Commonwealth Department of Human Services and Health (1994) National Drug Strategy Household Survey. Urban Aboriginal and Torres Strait Islander Peoples supplement 1994, Australian Government Publishing Service, Canberra
  62. Ministerial Council on Drug Strategy (2003) Background paper: National Drug Strategy. Aboriginal and Torres Strait Islander peoples complementary action plan 2003-2006, Commonwealth of Australia, Canberra.
  63. Spooner, C. and Hetherington, K. (2005) Social determinants of drug use. NDARC technical report No. 228 Sydney, National Drug and Alcohol Research Centre, University of New South Wales
  64. McLaren, J, Mattick, R P., Cannabis in Australia: Use, supply, harms, and responses. Monograph series No. 57. Report prepared for: Drug Strategy Branch, Australian Government Department of Health and Ageing. National Drug and Alcohol Research Centre, University of New South Wales, Australia.
  65. (2005). Moderation of the effect of adolescent-onset cannabis use on adult psychosis by a functional polymorphism in the catechol-o-methyltransferase gene: Longitudinal evidence of a gene X environment interaction Biological. Psychiatry 57: 1117–1127.
  66. Hall, W. and Solowij, N. (2006) The adverse health and psychological consequences of cannabis dependence, in Cannabis dependence. Its nature, consequences, and treatment (Eds, Roffman, R. A. and Stephens, R. S.) Cambridge University Press, Cambridge, pp. 106-128.
  67. Copeland, J,. Swift, W., Cannabis use disorder: Epidemiology and management. International Review of PsychiatryApril 2009; 21 (2): 96-103
  68. (2000). Treating substance abuse in the context of severs and persistent mental illness clinician. Journal of Substance Abuse Treatment 19 (2): 189–198.
  69. Substance Abuse and Mental Health Services Administration, Office of Applied Studies (2003)Emergency department trends from the drug abuse warning network, final estimates 1999-2002DAWN series: D-24, DHHS Publication No. (SMA) 03-3780. Rockville, Maryland: Substance Abuse and Mental Health Services Administration, Office of Applied Studies.
  70. (2002). Results from the 4th National Clients of Treatment Service Agencies census: Changes in clients' substance use and other characteristics. Australian and New Zealand Journal of Public Health 26 (4): 352–357.
  71. Australian Institute of Health and Welfare (2005d) Alcohol and other drug treatment services in Australia 2003-04: Report on the national minimum data set. Drug Treatment Series 4. AIHW cat. no. HSE 100 Canberra, Australian Institute of Health and Welfare.
  72. (2004). Developments in the treatment of cannabis use disorder. Current Opinion in Psychiatry 17: 2114–2121.
  73. SAMHSA (2008) Treatment Episode Data Set (TEDS): 1996-2006. National admissions to substance abuse treatment services (DASIS Series S-43; DHHS Publication No. (SMA) 08-4347). Rockville, Maryland: Office of Applied Studies
  74. (2009). Cannabis use disorder: Epidemiology and management. International Review of Psychiatry 21 (2): 96–103.
  75. (2006). Cannabis use disorders in the USA: Prevalence, correlates and co-morbidity. Psychological Medicine 36 (10): 1447–1460.
  76. EMCDDA (2007). Annual report 2007: The state of the drugs problem in Europe. Luxembourg: Office for Official Publications of the European Communities
  77. AIHW (2007)Alcohol and other drug treatment services in Australia 2005-2006: Report on the National Minimum Dataset. Drug Treatment Series No. 7. cat. No. HSE53Canberra AIHW
  78. (1993). Adult Marijuana users seeking treatment. Journal of Consulting and Clinical Psychology 61 (6): 1100–1104.
  79. 79.0 79.1 79.2 79.3 Copeland, J, Gerber, S, Swift, W. Evidence-based answers to cannabis questions a review of the literatureNational Drug and Alcohol Research Centre University of New South Wales A report prepared for the Australian National Council on Drugs, December 2004
  80. McRae, A L., Budney, A J., Brady, K T.,(2003) Treatment of marijuana dependence: a review of the literature. Journal of Substance Abuse Treatment24 (2003)369-376
  81. (1999). Naltrexone and cognitive behavioral therapy for the treatment of outpatient alcoholics: results of a placebo-controlled trial. American Journal of Psychiatry 156 (11): 1758–1764.
  82. Degenhardt, L., Hall, W. and Lynskey, M. (2000a) Cannabis use and mental health among Australian adults: Findings from the National Survey of Mental Health and Well-being. NDARC Technical Report No. 98 Sydney, National Drug and Alcohol Research Centre, University of New South Wales.
  83. Hall, W. and Swift, W. (2006) The policy implications of cannabis dependence, In Cannabis dependence: Its nature, consequences and treatment (Eds, Roffman, R. A. and Stephens, R. S.) Cambridge University Press, Cambridge, pp. 315-339.
  84. (2001b). A randomized controlled trial of brief cognitive-behavioral interventions for cannabis use disorder. Journal of Substance Abuse Treatment 21 (2): 55–64.
  85. Budney, A. J. and Moore, B. A. (2002) Development and consequences of cannabis dependence Journal of Clinical Pharmacology, 42, 28S-33S.
  86. 86.0 86.1 86.2 Stephens, R.S., Roffman, R. and Simpson, E.E. (1994). Treating adult marijuana dependence: a test of the relapse prevention model. Journal of Consulting and Clinical Psychology 62: 92–99.
  87. 87.0 87.1 (2000). Comparison of extended versus brief treatments for marijuana use. Journal of Consulting and Clinical Psychology 68 (5): 898–908.
  88. 88.0 88.1 88.2 (2001). A randomized controlled trial of brief cognitive behavioral interventions for cannabis use disorder. Journal of Substance Abuse Treatment 21 (2): 55–64.
  89. 89.0 89.1 (2000). Adding voucher-based incentives to coping skills and motivational enhancement improves outcomes during treatment for marijuana dependence. Journal of Consulting and Clinical Psychology 68 (6): 1051–1061.
  90. (1994). Incentives improve outcome in outpatient behavioral treatment for cocaine dependence. Archives of General Psychiatry 54: 568–576.
  91. (2003). Engaging young probation-referred marijuana abusing individuals in treatment: a pilot trial. American Journal on Addictions 12 (4): 314–323.
  92. Copeland, J (2004) Developments in the treatment of cannabis use disorder. Journal of Addictive DisordersLippincott Williams & Wilkins
  93. 93.0 93.1 Hart, C (2005) Increasing treatment options for cannabis dependence: A review of potential pharmacotherapies. Drug and Alcohol Dependence Volume 80, Issue 2, November 2005
  94. 94.0 94.1 94.2 (2003). Nefazodone decreases anxiety during marijuana withdrawal in humans. Psychopharmacology 165 (2): 157–165.
  95. (2001). Bupropion SR worsens mood during marijuana withdrawal in humans. Psychopharmacology 155 (2): 171–179.
  96. 96.0 96.1 (2002). Effects of oral THC maintenance on smoked marijuana self-administration. Drug and Alcohol Dependence 67 (3): 301–309.
  97. (2001). Prevention of cannabinoid withdrawal syndrome by lithium: involvement of oxytocinergic neuronal activity. Journal of Neuroscience 21 (24): 9867–9876.
  98. (1996). Effects of the cannabinoid CB1 receptor antagonist SR141716A on the behavior of pigeons and rats. Psychopharmacology 124 (4): 315–322.
  99. US National Institute of Health. Clinicaltrials.gov. URL accessed on 2011-04-20.
  100. Copeland, J, Gerber, S, Swift, W (2004) Evidence-based answers to cannabis questions a review of the literatureNational Drug and Alcohol Research Centre University of New South Wales A report prepared for the Australian National Council on Drugs, December 2004
  101. 101.0 101.1 101.2 (1996). Central mediation of the cannabinoid cue: activity of a selective CB1 antagonist, SR 141716A. Behavioural Pharmacology 7 (1): 65–71.
  102. (2006). Deficit models and divergent philosophies: Service providers' perspectives on barriers and incentives to drug treatment. Drugs: Education prevention and policy 13 (4): 367–382.
  103. (1998). Gender, HIV knowledge and risk-taking behaviour among substance using adolescents in custody in New South Wales. Journal of Substance Misuse 3 (4): 206–212.
  104. (2001). Predictors of program completion for women in residential substance abuse treatment. American Journal of Drug and Alcohol Abuse 27 (1): 1–18.
  105. Treloar, C., Abelson, J., Cao, W., Brener, L., Kippax, S., Schultz, L., Schultz, M., & Bath, N. (2004). Barriers and incentives to treatment for illicit drug users(Monograph Series 53). Canberra: Department of Health and Ageing, National Drug Strategy.
  106. (1997). Help-seeking by substance abusers: The role of harm reduction and behavioral-economic approaches to facilitate treatment entry and retention. NIDA Research Monographs 165: 44–84.
  107. Gates, P., Taplin, S., Copeland, J., swift, W., Martin G. (2008) Barriers and Facilitators to Cannabis TreatmentNational Cannabis Prevention and Information Centre, University of New South Wales, Sydney


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