Pallidum Functional Hypoconnectivity and Inhibitory Control as Partial Mediators of Environmental Influences on Tobacco and Marijuana Initiation.

Journal of cellular neuroscience Pub Date : 2025-01-01 Epub Date: 2025-01-24 DOI:10.31586/jcn.2025.1140

Shervin Assari, Hossein Zare

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Abstract

Background: Low socioeconomic status (SES) has been linked to higher rates of tobacco and marijuana use initiation; however, the contributions of environmental and neurocognitive factors remain underexplored. This study investigates a potential pathway connecting low SES, fine particulate matter (PM2.5) exposure, brain functional connectivity, and inhibitory control to increased tobacco and marijuana use initiation among adolescents.

Objectives: To examine the mediating roles of PM2.5 exposure, resting-state functional connectivity between the right pallidum and the ventral attention network (P-VAN rsFC), and inhibitory control in the relationship between low SES and tobacco and marijuana use initiation.

Methods: Data were drawn from the Adolescent Brain Cognitive Development (ABCD) study to assess associations between baseline SES, baseline PM2.5 exposure (based on zip code), baseline P-VAN rsFC, baseline inhibitory control, and subsequent tobacco and marijuana use initiation. Mediation models were used to determine whether PM2.5 exposure and changes in P-VAN rsFC act as pathways linking low SES to diminished inhibitory control and subsequent substance use initiation.

Results: Low SES was associated with higher PM2.5 exposure, which, in turn, was linked to alterations in P-VAN rsFC. These alterations were correlated with lower inhibitory control, which significantly predicted tobacco and marijuana use initiation over time. Inhibitory control partially mediated the relationship between low SES and substance use initiation, indicating a complex pathway influenced by environmental and neurocognitive factors.

Conclusions: This study identifies a potential mechanism linking low SES to tobacco and marijuana use initiation through environmental and neurobiological pathways. Understanding how PM2.5 exposure and neurofunctional connectivity impact inhibitory control can provide valuable insights for developing targeted interventions to reduce substance use among adolescents in low SES environments.

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白白质功能性低连通性和抑制控制作为环境影响烟草和大麻起始的部分介质。

背景：低社会经济地位（SES）与较高的烟草和大麻使用率有关；然而，环境和神经认知因素的作用仍未得到充分探讨。本研究探讨了低社会地位、细颗粒物（PM2.5）暴露、大脑功能连接和抑制控制与青少年烟草和大麻使用增加之间的潜在联系。目的：探讨PM2.5暴露、右侧白质与腹侧注意网络（P-VAN rsFC）静息状态功能连通性以及抑制控制在低SES与烟草和大麻开始使用之间的中介作用。方法：从青少年大脑认知发展（ABCD）研究中提取数据，评估基线SES、基线PM2.5暴露（基于邮政编码）、基线P-VAN rsFC、基线抑制控制和随后的烟草和大麻使用开始之间的关系。使用中介模型来确定PM2.5暴露和P-VAN rsFC的变化是否作为连接低SES与抑制控制减弱和随后的物质使用开始的途径。结果：低SES与较高的PM2.5暴露有关，而PM2.5暴露又与P-VAN rsFC的改变有关。这些改变与较低的抑制控制相关，这显著预测了烟草和大麻使用的起始时间。抑制控制部分介导了低SES与物质使用起始之间的关系，表明这是一个受环境和神经认知因素影响的复杂途径。结论：本研究通过环境和神经生物学途径确定了将低社会经济地位与烟草和大麻开始使用联系起来的潜在机制。了解PM2.5暴露和神经功能连接如何影响抑制控制，可以为制定有针对性的干预措施以减少低社会经济地位环境中青少年的物质使用提供有价值的见解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of cellular neuroscience

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