Effect of cannabis on brain activity in males: Quantitative electroencephalography and its relationship with duration, dosage, and age of onset

•Cannabis users had higher theta power in both the eyes-closed and eyes-open conditions compared to healthy individuals and nicotine smokers.•In the eyes-closed condition, cannabis users showed lower beta and gamma power in parietal and occipital areas vs. nicotine smokers.•In the eyes-open conditio...

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Bibliographic Details
Published in:Journal of clinical neuroscience 2025-02, Vol.132, p.110982, Article 110982
Main Authors: Vahed, Neda, Saberizafarghandi, Mohammad Bagher, Bashirpour, Hamed, Ahmadkhaniha, Hamid Reza, Arezoomandan, Reza
Format: Article
Language:English
Subjects:
Age
Brain
Cannabis
Dosage
Duration
Nicotine
QEEG
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Summary:•Cannabis users had higher theta power in both the eyes-closed and eyes-open conditions compared to healthy individuals and nicotine smokers.•In the eyes-closed condition, cannabis users showed lower beta and gamma power in parietal and occipital areas vs. nicotine smokers.•In the eyes-open condition, cannabis users showed lower beta and gamma power in frontal lobe vs. healthy and several regions vs. nicotine smokers.•Gamma band power correlates significantly with age of onset and dosage.•These findings indicate distinct patterns of brain activity associated with cannabis use. Brain function changes as a result of cannabis use. This study examined the brain activity of cannabis users compared to a healthy group and nicotine smokers, focusing on the age of onset, duration of use, and dosage. Demographic and quantitative electroencephalography (QEEG) data of 15 healthy individuals, 20 patients with chronic cannabis use, and 15 nicotine smokers were collected and recorded during the eyes-closed and eyes-open conditions in the resting state. The data were analyzed using MATLAB software and the EEGLAB toolbox. In the eyes-closed condition, cannabis users exhibited significantly elevated relative theta band power in widespread brain regions compared to both the healthy group and nicotine smokers. They showed decreased relative power in the beta and gamma bands in the parietal and occipital regions when compared to nicotine smokers. In the eyes-open condition, cannabis users displayed increased relative theta band power in widespread brain regions relative to both groups. Additionally, lower relative power in the beta and gamma bands was observed in cannabis users compared to the healthy group in the frontal region, as well as in various brain regions compared to nicotine smokers. A significant relationship was identified between gamma-band power, age of onset, and dosage of cannabis use. These findings suggest that cannabis use leads to changes in brain wave patterns during the resting state, which may be linked to cognitive impairments affecting functions. Understanding these associations is essential for developing effective intervention programs aimed at mitigating cognitive deficits related to cannabis use.
ISSN:0967-5868
1532-2653
1532-2653
DOI:10.1016/j.jocn.2024.110982