View clinical trials related to Methamphetamine Dependence.
Filter by:A growing body of evidence suggests a wide range of brain areas are critical for regulating cognitive control over decisions and involving in drug related cue processing. Previous studies have demonstrated that transcranial alternating current stimulation (tACS) over prefrontal cortex reduces craving for meth dependences. In this study, the investigators investigated whether a current level of 15mA with a patented frequency of 77.5Hz tACS intervention of prefrontal cortex cortices in methamphetamine addiction could reduce the subjective craving and improve the cognitive abilities.
This study will leverage extracted leukocyte DNA specimens from a completed NIH-funded project to examine the efficacy of a behavioral intervention model that reduced stimulant use on DNA methylation over 6 months.
Use of crystal methamphetamine (MA) leads to changes in sexual risk behavior, adherence to HIV prevention tools, immune response to infection, and tissue inflammation that collectively increase risk for HIV transmission among MA-using men who have sex with men (MSM), their sexual partners, and their networks. Contingency Management (CM) offers a behavioral modification tool helpful for reducing frequency of MA use, but the effects of CM on the behavioral and biological factors that promote HIV transmission in MSM networks have only been partially evaluated. The intersection of substance use, sexual risk behavior, and HIV transmission in MSM networks presents a critical problem for contemporary HIV prevention as HIV-uninfected MSM who use MA have a 16%-33% greater risk for HIV infection, while only approximately 50% of HIV-infected MA-using MSM achieve and maintain an undetectable viral load. The investigators propose to compare two different CM models to integrate substance use treatment with HIV prevention among MA-using MSM: 1) Traditional CM targeted to MA abstinence and 2) Allternative CM based on ARV adherence.
Methamphetamine misuse has become a growing concern in Alberta, creating a burden on the health care system. Further, individuals who use methamphetamine in Alberta exhibit significant difficulty remaining in treatment. These troubling patterns necessitate the provision of evidence-based practices (EBPs)-those grounded in empirical evidence-to ensure the best possible care and outcomes for those struggling with this addiction. Within the field of substance use (SU), contingency management (CM) is an extensively studied evidence-based treatment (EBT) for addictive disorders. CM is an intervention that provides incentives to encourage positive behavioural change. Compared to standard care (treatment-as-usual (TAU)), CM has resulted in improvements in abstinence, attendance, adherence, retention, and quality of life. The efficacy of CM has largely been investigated in the context of reinforcing abstinence, though the literature suggests that CM which reinforces attendance may be as effective. Research from the US has examined the cost-effectiveness of CM and found that although CM costs more, it was associated with greater abstinence, treatment completion, and substance-absent urine compared to TAU. Despite the promising literature, the uptake of CM in Canada is limited making it difficult to understand whether this EBT is equally efficacious as compared to the US. This study will implement and evaluate the efficacy of virtually delivered attendance-based CM in outpatient addiction treatment in Alberta. Participants (N=544) will be individuals seeking treatment for methamphetamine use (n=304) and individuals seeking treatment for substance use issues other than methamphetamine use (n=240). It is hypothesized that compared to participants in TAU, participants in CM will evidence: (1) greater retention, (2) greater attendance, (3) greater abstinence from methamphetamine and less methamphetamine use, (4) greater abstinence from other SU and less SU, and (5) greater improvement in quality of life over the intervention and follow-up periods. Exploratory aims include understanding how: outcomes differ based remote versus in-person delivery of CM; outcomes differ between participants who use methamphetamine and participants who use substances other than methamphetamine; the costs of CM differ from TAU; CM changes health service use.
This is a pilot study to test the feasibility of a recruitment strategy and study protocol to examine the effects of a dual target transcranial magnetic stimulation treatment in methamphetamine use disorder. The study will test intermittent theta burst stimulation (TBS) targeting the dorsolateral prefrontal cortex (DLPFC) combined with continuous TBS targeting the medial prefrontal cortex (MPFC) in people with methamphetamine use disorder (MAUD) who are engaged in psychosocial treatment. Intermittent TBS targeting the DLPFC is approved by the Food and Drug Administration for major depressive disorder, and continuous TBS targeting the MPFC has been studied in cocaine use disorder. We will administer this dual target TBS daily for 2 weeks, followed by three times weekly for 2 weeks, and monitor depressive symptoms, anxiety, sleep, craving, quality of life, and methamphetamine use for three months. Changes in functional connectivity of brain circuits will be evaluated with functional magnetic resonance imaging (fMRI) before and after treatment. We expect to observe changes in connectivity between the DLPFC, MPFC, and other regions implicated in addiction and impulsivity. Furthermore, we will evaluate if baseline differences in functional connectivity can be used to predict response. Psychological tests focusing on state impulsivity and risk taking will be administered, and we expect to observe reductions in these characteristics after treatment. We will test this protocol in 20 patients recruited from clinical care settings at University of Iowa Hospitals and Clinics, University of New Mexico Health System, and University of Utah Health to illustrate the feasibility of recruitment and completing the protocol, to support an external funding proposal.
A growing body of evidence suggests a wide range of brain areas including medial prefrontal cortex (mPFC), dorsolateral prefrontal cortex (DLPFC) and other subcortical regions, such as anterior cingulate cortex (ACC) are critical for regulating cognitive control over decisions and involving in drug related cue processing. Previous studies have demonstrated that transcranial magnetic stimulation (rTMS) over dorsolateral prefrontal cortex reduces craving for meth dependences. Specifically, the H7 coil induces a magnetic field can target mPFC and ACC. In this study, the investigators investigated whether repeated dTMS intervention of medial prefrontal and cingulate cortices in methamphetamine addiction could reduce the subjective craving and improve the cognitive abilities.
Addiction to methamphetamine (MA) is a serious health problem in the United States. Right now, there are no medically approved treatments for MA dependence. More research is needed to understand how MA affects the brain and to eventually develop medical interventions for MA addiction. The purpose of the study is to learn more about how MA use affects the brain by investigating a receptor in the brain called trace amine-associated receptor 1 (TAAR1). The investigators are hoping to find out if individuals with certain versions of the brain receptor react differently when given MA. The TAAR1 receptor has two prevalent genetic variations due to a single nucleotide polymorphism. These are the wild type (WT) and a common variant (CV). Preliminary studies have shown that these variants produce different connectivity (resting state functional connectivity or RSFC) in the brains of individuals with MA use disorder (MUD), specifically that individuals with the CV genotype exhibit lower RSFC than WT. In this study, MA will be administered to individuals with MA use disorder and healthy controls in order to: 1. Determine the influence of CV vs. WT genotype on RSFC and craving in individuals with chronic MUD and healthy controls. 2. Determine the effect of acute methamphetamine or placebo administration on the interaction of CV vs WT genotype on RSFC, craving, cognitive control, attention and subjective experience in MUD and healthy controls.
Repetitive transcranial magnetic stimulation (rTMS) was used to treat methamphetamine (MA) addiction in previous studies, while the evidence-based protocols still required. The aim of this research is to evaluating the effectiveness and safety of rTMS treatment in improving the days of abstinence maintenance. In addition, treatment effect on cognitive impairment, psychological craving and depression are also evaluated during the study.
The most commonly used illicit stimulant in HIV-infected individuals is methamphetamine (MA). Prior studies demonstrate strong evidence that MA promotes increased HIV transcription as well as immune dysregulation. A challenge in achieving worldwide HIV eradication is targeting specific marginalized populations who are most likely to benefit from an HIV cure but possess poorer immune responses. For this study, HIV+ infected ART-suppressed individuals with no prior history of MA use disorder will be administered oral methamphetamine (the maximum FDA approved daily dose for the treatment of childhood obesity) to determine the effects of short-term MA exposure on residual virus production, gene expression, and inflammation. Measures of MA exposure in urine and serum will then be associated with residual virus production, gene expression, cell surface immune marker protein expression, and systemic markers of inflammation. The clinical trial data will generate advanced gene expression and immunologic data to identify potential novel targets for reversing HIV latency, reducing inflammation, and personalizing future therapies in HIV+ individuals who use MA.
This study evaluates the ability of IXT-m200 to change methamphetamine concentrations in blood and alter the way methamphetamine feels. Participants will receive either placebo, a low or high dose of IXT-m200, in addition to methamphetamine challenge doses.