View clinical trials related to Marijuana Abuse.
Filter by:The majority of the >3 million medical cannabis patients in the U.S. use cannabis products to manage pain but many questions remain. This project is designed to answer three questions that will fill important voids in the field's understanding of sustained cannabis use: 1) is abrupt cessation of cannabis associated with increased pain sensitivity; 2) does tolerance develop to the analgesic and abuse-related effects of repeatedly administered cannabis with varying ratios of THC and CBD, and is this tolerance reversible following a period of abstinence; 3) how does repeated cannabis use affect levels of endocannabinoids, and are these changes associated with changes in pain sensitivity and abuse liability? In this study, the investigators will enroll participants (N=100 healthy, cannabis-using men and non-pregnant women, ages 21-65) inpatient for 15 days. They will be randomized to one of four cannabis conditions (n=25/group). Following a day of standardization on which participants will receive their assigned cannabis condition (Day 1), cannabis will be administered repeatedly for 14 days (Day 2-15). The investigators will measure abuse-related effects ("Good Drug Effect"), endocannabinoid levels and two distinct types of experimental pain: The Cold Pressor Test and Quantitative Sensory Testing Thermal Temporal Summation. Given the widespread use of cannabis for pain, understanding the consequences of daily repeated administration of cannabis with THC:CBD ratios that are representative of most medical cannabis products on pain, abuse liability, and endocannabinoids is imperative.
This pilot crossover study will evaluate 3 different potencies of inhaled cannabis (2.5%, 5%, and 10%) and inhaled placebo cannabis for the acute treatment of migraine.
The growing legalization of cannabis across the U.S. is associated with increases in cannabis use, and accordingly, an increase in the number of individuals with cannabis use problems, including cannabis use disorder (CUD). While there are several medications being investigated as treatment options for CUD, none have been FDA-approved, and there is limited efficacy of traditional behavioral therapy approaches for this population. Consequently, there is a pressing need for the development of new treatments, including approaches that specifically target the brain areas associated with problematic cannabis use behaviors. Elevated attention to drug cues is one of the primary causes of relapse in heavy cannabis users. Preliminary data suggests that transcranial magnetic stimulation (TMS), a non-invasive form of brain stimulation, may be a novel brain-based tool to decrease heightened attention to drug cues in people with CUD. Building on prior data, the primary goal of this study is to evaluate the feasibility and effectiveness of TMS as a tool to decrease attention to drug cues and reduce cannabis use. This study will evaluate whether 2 weeks of rTMS can be used to decrease attentional bias to cannabis cues and reduce cannabis use in heavy cannabis users. We will recruit sixty (60) non-treatment seeking, near-daily cannabis users to receive 10 daily sessions of either real or sham (aka placebo) rTMS over a 2-week period. Participants will live on a residential research unit for 3 weeks. During the residential stay, data on cannabis use (measured using standard human laboratory measures of choice to smoke cannabis) and relevant brain activity (measured using drug cue exposure fMRI tasks) will be collected before and after the course of 10 daily rTMS sessions. We will aim to show whether real rTMS treatment reduces brain response and attentional bias to cannabis cues and reduces cannabis use levels.
Chronic pain is a significant public health concern in the U.S., for which prescription opioids have historically been the standard treatment. This has resulted in striking rates of opioid use disorders and fatal overdoses. Identifying non-opioid medications for the management of chronic pain with minimal abuse liability is a public health necessity, and cannabinoids are a promising drug class for this purpose. More than 80% of medicinal cannabis users report pain as their primary medical indication, and they report experiencing minimal psychoactive effects. However, there are few well-controlled human laboratory studies assessing cannabis' efficacy for pain in the context of abuse, and even less is known regarding the effects of daily repeated use of cannabis on pain and its relationship to abuse liability. Carefully controlled research is needed. The proposed randomized, within-subjects, placebo-controlled 16-day crossover inpatient human laboratory study (N = 20 healthy cannabis users; 10 men, 10 women) will address three important gaps in our understanding of the potential therapeutic utility of cannabis for pain: 1) Does tolerance develop to repeated, daily smoked cannabis administration on measures of experimental pain and abuse liability; 2) If so, is tolerance reversed during the 7 days of abstinence from active-THC cannabis; 3) Does abrupt abstinence from active cannabis increase experimental pain sensitivity, i.e. hyperalgesia, relative to baseline, and do these effects parallel measures of cannabis withdrawal such as disrupted mood and sleep? Two distinct modalities of experimental pain will be assessed: The Cold Pressor Test (CPT) and Quantitative Sensory Testing Thermal Temporal Summation (QST-TTS). Throughout the study, experimental pain and abuse-related effects will be assessed, as will sleep and subjective mood assessments.
Chronic pain is a significant public health concern in the U.S., for which prescription opioids have historically been the standard treatment. This has resulted in striking rates of opioid use disorders and fatal overdoses. Identifying non-opioid medications for the management of chronic pain with minimal abuse liability is a public health necessity, and cannabinoids are a promising drug class for this purpose. More than 80% of medicinal cannabis users report pain as their primary medical indication. These patients tend to seek products that are low in delta-9-tetrahydrocannabinol (THC; the primary psychoactive, and thus intoxicating, component of cannabis), and high in cannabidiol (CBD), a cannabinoid that purportedly has therapeutic benefit for pain but does not produce intoxicating effects [1]. However, there are few well-controlled human laboratory studies assessing the efficacy of high-CBD cannabis for pain in the context of abuse, and even less is known regarding the effects of daily repeated use of cannabis on pain and its relationship to abuse liability. The proposed randomized, within-subjects, placebo-controlled 16-day crossover inpatient human laboratory pilot study (N = 16 healthy cannabis users; 8 men, 8 women) will address important gaps in our understanding of the potential therapeutic utility of cannabis for pain: 1) If repeated cannabis use can result in hyperalgesia; 2) If tolerance to the analgesic and abuse-related effects of cannabis develops and is reversible. Two distinct modalities of experimental pain will be assessed: The Cold Pressor Test (CPT) and Quantitative Sensory Testing Thermal Temporal Summation (QST-TTS), and participants will smoke cannabis 3x/day. Throughout the study, experimental pain and abuse-related effects will be assessed, as will sleep and subjective mood assessments.
Cannabis smokers who also smoke tobacco cigarettes have markedly higher rates of cannabis relapse relative to those who do not use tobacco. There is a clear need to develop and evaluate interventions for dual tobacco and cannabis users. The investigators of this study have previously shown that the co-use of tobacco cigarettes contributes to the maintenance of daily cannabis use, and that age of cigarette onset is a critical predictor of treatment outcome. Short-term tobacco cessation may suffice in altering cannabis relapse rates in later-onset cigarette smokers, while a longer period of tobacco cessation may be needed for earlier-onset smokers. In the current study, a human laboratory model will be utilized to determine whether cannabis relapse varies as a function of tobacco cessation duration and age of tobacco use onset.