View clinical trials related to Marijuana Abuse.
Filter by:The primary objective of this study was to evaluate the pharmacokinetics (PK) of THC, 11-OH-THC and CBD following a single inhaled dose of PPP001 administered by vaporization. The secondary objective of this study was to determine the safety and tolerability of THC and CBD after a single inhaled dose of PPP001 administered by vaporization in healthy volunteers.
The overall objective of this proposed project is to prospectively evaluate the epigenetic and developmental effects of paternal cannabis and other drug use in offspring.
This is a randomized, crossover study enrolling experienced dual cannabis-tobacco smokers (N=18) to describe the differences in THC and toxicant exposure, examining pharmacokinetic, subjective, and cardiovascular effects from smoking and vaping dry herb cannabis. This study will also examine the differences in toxicant exposure and cardiovascular disease risk between smoking cannabis and smoking tobacco cigarettes.
Patients with inflammatory rheumatism very often have residual pain that is not easily relieved by conventional treatments. They can then use non-drug methods, such as physiotherapy, hypnosis or even cannabis. The aim of this study is to assess the percentage of patients who use cannabis to better relieve their pain or anxiety in chronic inflammatory rheumatism.
Cannabis is the most frequently consumed drug in France and its use continues to increase. Over the 18-64 age group as a whole, experimentation with cannabis at least once in a lifetime increased from 33% in 2010 to 42% in 2014, confirming the upward trend observed since the 1990. Cannabis, like all drugs, disrupts the reward circuit whose neurons originate in the ventral tegmental area and project into the mesolimbic and cortical structures. Acute cannabis use is thought to increase mesolimbic dopamine by affecting the Gabaergic or Glutamatergic system. Chronic cannabis use usurps the reward system and leads to changes in the mesolimbic circuit (nucleus accumbens, ventral tegmental area, amygdala, and prefrontal cortex), inducing increased craving, with persistent craving for the substance and vulnerability to relapse. Cognitively, addiction is associated with increased impulsivity, with a propensity to take risks leading to impaired decision-making. There is currently no validated drug treatment for cannabis addiction. Non-invasive brain stimulation could be an interesting therapeutic alternative.
Cannabis use is prevalent among pregnant women, but the effects of use on both the developing fetus and pregnant woman are unknown. Importantly, drug exposure could be influenced by the impact of pregnancy-associated hormones on the metabolism of tetrahydrocannabinol (THC), the main psychoactive component of cannabis. The goal of this study is to determine whether cortisol and estradiol - hormones that rise dramatically during pregnancy - increase the clearance of dronabinol (THC) in reproductive age women to simulate the pregnant state. The collected data will then be used to predict the time course and magnitude of changes in THC metabolism in pregnant women, particularly with gradually increasing estradiol and cortisol concentrations that evolve over the course of pregnancy. The overall objective of this study is to better understand the effects of THC use during pregnancy on the health of the pregnant woman and developing fetus.
Most of the studies assessing Cannabis Use Disorder (CUD) and neurocognitive functions are cross-sectional without examining the longitudinal changes in neurocognitive function at a within-subject level with respect to the continuum of cannabis use behavior, or mainly studying on the acute cannabis effect. As for the Genome-wide Association studies, the population analyzed for addressing the underlying genetic susceptibility between neurocognitive functions and/or cannabis use or CUD were almost exclusively based on African- or European- American samples or other Caucasian subjects, and thus generalizability to Chinese or to the non-Caucasian population definitely demands more studies. With the upsweeping statistical figures of cannabis use in Hong Kong and Asia, and the substantial falls in the perceived risk and personal disapproval from using cannabis amongst young abusers, coinciding the global advocacy of de-criminalizing cannabis and the increased availability of recreational cannabis worldwide, it is reasonable to predict that there will be a further upsurge in numbers of all aged cannabis users in Hong Kong as in the other part of the world. Therefore, the SToP-C-PeCoG study proposed here as a prospective study in assessing the longer term changes in neurocognitive functions and the associated genetic risks for those repeated and active cannabis users without psychiatric co-morbidity is definitely warranted. The PeCoG study will not only provide the scientific evidence to further unveil the harmful effects on neurocognitive functions for those self-perceived "healthy" users, but also help to raise the public awareness and to improve the understandings to the long-term detrimental effects of cannabis amongst users and non-users. Furthermore, it will provide a chance to study the associated genetic risks for cannabis abusers, in particular in the Asian minority and Chinese, on CUD and poorer neurocognitive outcomes, with genetic vulnerability being generalizable to the local population in Asia. The current study hypothesises that cannabis abusers have neurocognitive function decline over time, and genetic vulnerability is associated with cannabis abusers who have poorer neurocognitive outcomes or with the severity of CUD.
This crossover study will evaluate 3 different treatments of vaporized cannabis (THC, THC/CBD mix, and CBD) and vaporized placebo cannabis for the acute treatment of migraine.
Epidemiological studies suggest that the use of cannabis is associated with an increase in the risk of motor vehicle collisions. It is also known that younger users may be at increased risk for motor vehicle collisions. Further, the frequency with which cannabis is used may be an important variable in determining the effects of cannabis on driving. The purpose of the present study will be to investigate the effects of cannabis on simulated driving in young as compared to middle-aged drivers. Half of the participants will be occasional users of cannabis and half will be frequent users of cannabis.
We have interviewed more than 120+ candidates and recruited 44 chronic marijuana users and 11 non-user healthy controls: 26 of the 44 MJ users actually participated in the study, 6 of the 26 MJ participants dropped out after their baseline magnetic resonance (MR) visits and the remaining 20 participants completed the study protocol, namely completed three MR visits for measurement of brain metabolites (baseline, day 7, and day 21); among the 11 healthy controls, 10 completed the study protocol. We are currently analyzing collected data and preparing manuscripts for peer reviewed journals.