View clinical trials related to Cannabis Use.
Filter by:To date, there is little data on the consumption of young adults in detention. The main objective of this project is to document the prevalence of problematic cannabis use before incarceration among juveniles detained in the various detention centers in the PACA Secondary objectives are to document: - the prevalence of cannabis use over the course of life, last year and last month; - the prevalence of harm and risky behavior associated with the use of a psychoactive substance - associated addictions and first and foremost tobacco - the determinants (socio-demographic, socio-economic, environmental, etc.) of problem use and cannabis use. This is a multicenter cross-sectional study aimed at establishing an exhaustive picture of the defined population region over a 12-month period. The holder of the parental authority exercise and the individual agreeing to participate in the study must: - sign an informed consent a no objection card - complete a car book and hetero-questionnaires. The time of handover is evaluated at 30 minutes. The CAST questionnaire will be used to answer the main purpose of the study and to identify consumers with problematic cannabis use. CAST scores will be calculated. Abnormal CAST proportions will be presented along with their 95% confidence intervals. The links between the score and the various variables identified as determinants will be tested using uni and multivariate analyzes. The assessment of the health status and needs of this extremely vulnerable population is a prerequisite for defining specific regional objectives and for establishing a coherent and coordinated effective health intervention within the community. prisoner in France.
This is a follow-up project to a proof-of-concept study to determine if Cannabis use in male humans is associated with changes in deoxyribonucleic acid (DNA) methylation profile of sperm. This proposal will examine the epigenome of sperm from men actively using Cannabis before and after a period of Cannabis abstinence. The results will be compared to control non-users.
Severe mental illness (SMI) refers to the most burdensome psychiatric conditions. The need to pre-empt the onset of SMI is pressing because once SMI develops, quality of life is poor and available treatments have limited efficacy. Most risk factors for SMI are either unchangeable (e.g., genetics) or difficult to alter (e.g., low socio-economic status). In contrast, cannabis use is one specific risk factor that could be avoided. Certain individuals are more vulnerable to the harmful effects of cannabis. Genetic factors can help us identify these high-risk individuals. One in three individuals are carriers of a higher-risk genetic variant, and cannabis users with this genotype are at up to 7-fold increased risk of developing schizophrenia. In our study, genetic counselling will be provided to participants by a board-certified genetic counsellor. During the genetic counselling session, participants will have the option to receive their genotype. Participants will be counselled regarding their individualized risk of developing and of not developing SMI based on family history, whether or not they choose to use cannabis, and genotype (if the participants accept the genetic test results). The investigators hypothesize that this intervention will reduce exposure to cannabis compared to the youth who are not offered the intervention.
Driving is a set of complex tasks and requires use of multiple cognitive domains, including attention, planning, and memory. In laboratory studies, the main psychoactive component in cannabis, delta-9-tetrahydrocannabinol (THC), was shown to impair short-term memory, attention, reaction time, tracking, and coordination, resulting, for instance, in significantly more deviations from the lane and increased break latency. Surveys and epidemiological studies suggest that cannabis consumption is associated with increased risks of collision. The current study aims to evaluate individual driving behavior and performance on various neurocognitive tests and their correlated neural networks while under the influence of cannabis and while sober. The investigators will use the STISIM driving simulator, which is fully MRI compatible, to study brain activation, while participants are performing various driving maneuvers. The goals of the study are: 1. identify driving performance and patterns in brain activation associated with cannabis exposure and compare them to brain patterns of the same participants while sober; 2. compare participant's performance on cognitive tasks while under the influence of cannabis and sober; 3. look for correlations between concentration of cannabinoids in the participants' blood and their driving performance and performance on cognitive tasks; 4. correlate demographic variables and personal history (e.g. tolerance to drug) with performance and brain activation while driving under the influence of cannabis.
This study tests the effects of cannabinoid levels in blood on pain relief, inflammation, and cognitive dysfunction in chronic pain patients who choose to use edible cannabis. Over a two-week period, participants use an edible product of their choice. Blood levels of 9-delta-tetrahydrocannabinol (THC) and cannabidiol (CBD) will be measured before, during, and after the two-week exposure period to determine whether there are associations with pain, inflammation, sleep, physical activity, anxiety/depression, and cognitive dysfunction. After the two-week self-administration period, participants will be followed for six months to collect self-report data on cannabis use, pain levels, sleep quality, and mental health symptoms.
Incidence of strokes has increased these last 20 years in young population. This rise could be linked to alcohol, tobacco or drug use like cannabis. Cannabis has previously been descripted as a potential factor of reversible vasoconstriction. The main objective is to show that an exhaustive assessment of a stroke facing a young person frequently lead to a diagnostic of reversible vasoconstriction due to cannabis use. Evaluation will focus on prevalence of strokes secondary to a reversible vasoconstriction attributable to cannabis in young subjects. There's a real public healthcare interest in terms of primary and secondary prevention to evaluate the role of cannabis as a risk factor of stroke in young population.
Cannabis use can lead to addiction in about 5 to 10 % of users in France. Currently, behavioral interventions are the most dependable but effectiveness is still reduced. Mindfulness meditation has demonstrated an effectiveness in several meta analysis (anxiety and depressive disorder) and seems to be relevant to reduce anxious and impulsive symptoms found in cannabis use disorders. This study proposes to determinate the mindfulness effectiveness in reduction of cannabis use in regular consumer. The consumption decrease is estimated with a retrospective diary, TLFB (Timeline Follow Back) which collect cannabis use every week until the 12th. Urine (week 0/baseline, 2, 4, 6, 8, 10, 12) and hair (week 0/baseline, 10) analyses are regularly effected. Patients included in control group get classic cares in an addictology center in CHRU of Nancy. Patients included in mindfulness group receive one session a week during eight weeks (MBRP protocol : Mindfulness -Based Relapse Prevention). The study process goes on for 12 weeks. An ancillary study measures the impact of cannabis decreases on retinal electrophysiological and architectural markers, usually disturbed by cannabis uses.
This study aims to identify unusual experiences and psychiatric symptoms that indicate a heightened risk for severe mental disorders - especially psychoses. It is important to develop reliable questionnaire methods that are cost-effective in first-stage screening, leading to in-depth assessments and targeted care. However, existing psychosis-risk questionnaires are limited in content, intended for adults, and have been insufficiently tested for actual predictive value. Therefore we will collect a new, large dataset from an unselected group of adolescents entering psychiatric care in three major urban areas of Finland. Comprehensive national health care registers will be used to assess how well the selected experiences and symptoms predict the participants' mental health over the following few years.
This study will use a randomized controlled design to test whether 30 days of cannabis abstinence, compared to 30 days of monitoring, is associated with improvements in cognitive functioning. Non-using controls will also be enrolled to determine the clinical significance of any cognitive improvements with abstinence.
In this study, the investigators are interested in testing how lorcaserin influences the effects of cannabis in a human laboratory model of cannabis use.