At least so far, the currently limited research base does not establish that cannabis has additional adverse effects on brain development or functioning in adolescents or young adults with attention-deficit/hyperactivity disorder (ADHD), concludes a review in the July/August issue of Harvard Review of Psychiatry.
While ADHD is clinically defined to have impairments in cognitive functioning, cannabis use by itself is also associated with cognitive impairments: “[T]he evidence to date does not clearly support either an addictive effect or an interaction—whether protective or harmful—with cannabis use,” according to the study by Philip B. Cawkwell, MD, of Stanford University School of Medicine, and colleagues. They underscore the need for further research to clarify possible effects of cannabis on brain structure, function, and behavior in young people with ADHD.
‘Urgent need’ for definitive studies of cannabis risk in teens with ADHD
The trends toward legalization and increased accessibility and potency of cannabis pose special concerns in young people living with ADHD. About one-fourth of teens with substance use disorder also have ADHD, while youth with ADHD are six times more likely to have drug or alcohol abuse. Some people with ADHD may even feel that cannabis improves their symptoms, studies suggest. Both groups have similar difficulties on cognitive tests, suggesting that youth with ADHD might be particularly vulnerable to effects of cannabis on cognitive function.
Dr. Cawkwell and colleagues performed a systematic review of research on the combined effects of cannabis use and ADHD in adolescence. Out of hundreds of initial “hits,” the search identified just 11 studies assessing any type of neurodevelopmental outcome in adolescents or young adults with ADHD who did use cannabis compared with those who did not use cannabis.
Seven studies assessed neuroimaging findings for young ADHD patients, showing some significant differences in brain structure in cannabis users. Findings included decreased thickness in areas involved with motor and sensory function (such as the right precentral and postcentral gyri) and increased thickness in areas involved in the brain’s “reward” system (such as the left nucleus accumbens). Given the limitations of the studies, the authors stress that these findings must be considered with caution and that it was impossible to determine whether or not these findings reflect causal relationships.
Functional imaging studies also reported differences in cannabis users with ADHD. Findings included differences in performance on standardized tasks and reduced density of dopamine transporters, thereby affecting the availability of dopamine, which plays a key role in the reward system.
Four studies looked at the results of neuropsychological tests or questionnaires in young people with ADHD who did and did not use cannabis. Cannabis use was associated with impaired performance on tests of sustained attention. However, the studies found no significant interaction between ADHD and cannabis use.
“Surprisingly, as cannabis use demonstrates clear and consistent adverse effects on cognition as measured by neuropsychological task performance, no study identified a significant differential impact of cannabis use on these measures for individuals with ADHD compared to non-users,” Dr. Cawkwell and colleagues write. “However, this lack of interaction may just be due to the limited number of studies to date, rather than a true lack of impact,” caution the study authors.
The authors note that the key limitation to this research is both the number of studies and the overall number of participants are limited. Some studies suggested differences in the effects of cannabis use at earlier ages—a critical gap for further research. Additional factors the authors suggest need further examination include the potency of cannabis (which has roughly tripled in the past two decades, according to prior research) and the frequency of use.
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