Chronic cigarette smoking is linked with structural alterations in brain regions showing acute nicotinic drug-induced functional modulations.

IF 4.7 2区 心理学 Q1 BEHAVIORAL SCIENCES Behavioral and Brain Functions Pub Date : 2016-06-02 DOI:10.1186/s12993-016-0100-5
Matthew T Sutherland, Michael C Riedel, Jessica S Flannery, Julio A Yanes, Peter T Fox, Elliot A Stein, Angela R Laird
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引用次数: 2

Abstract

Background: Whereas acute nicotine administration alters brain function which may, in turn, contribute to enhanced attention and performance, chronic cigarette smoking is linked with regional brain atrophy and poorer cognition. However, results from structural magnetic resonance imaging (MRI) studies comparing smokers versus nonsmokers have been inconsistent and measures of gray matter possess limited ability to inform functional relations or behavioral implications. The purpose of this study was to address these interpretational challenges through meta-analytic techniques in the service of clarifying the impact of chronic smoking on gray matter integrity and more fully contextualizing such structural alterations.

Methods: We first conducted a coordinate-based meta-analysis of structural MRI studies to identify consistent structural alterations associated with chronic smoking. Subsequently, we conducted two additional meta-analytic assessments to enhance insight into potential functional and behavioral relations. Specifically, we performed a multimodal meta-analytic assessment to test the structural-functional hypothesis that smoking-related structural alterations overlapped those same regions showing acute nicotinic drug-induced functional modulations. Finally, we employed database driven tools to identify pairs of structurally impacted regions that were also functionally related via meta-analytic connectivity modeling, and then delineated behavioral phenomena associated with such functional interactions via behavioral decoding.

Results: Across studies, smoking was associated with convergent structural decreases in the left insula, right cerebellum, parahippocampus, multiple prefrontal cortex (PFC) regions, and the thalamus. Indicating a structural-functional relation, we observed that smoking-related gray matter decreases overlapped with the acute functional effects of nicotinic agonist administration in the left insula, ventromedial PFC, and mediodorsal thalamus. Suggesting structural-behavioral implications, we observed that the left insula's task-based, functional interactions with multiple other structurally impacted regions were linked with pain perception, the right cerebellum's interactions with other regions were associated with overt body movements, interactions between the parahippocampus and thalamus were linked with memory processes, and interactions between medial PFC regions were associated with face processing.

Conclusions: Collectively, these findings emphasize brain regions (e.g., ventromedial PFC, insula, thalamus) critically linked with cigarette smoking, suggest neuroimaging paradigms warranting additional consideration among smokers (e.g., pain processing), and highlight regions in need of further elucidation in addiction (e.g., cerebellum).

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慢性吸烟与大脑区域的结构改变有关,显示出急性尼古丁药物诱导的功能调节。
背景:虽然急性尼古丁摄入会改变大脑功能,从而有助于提高注意力和表现,但长期吸烟与局部脑萎缩和认知能力下降有关。然而,结构磁共振成像(MRI)研究比较吸烟者和非吸烟者的结果不一致,灰质的测量具有有限的能力,可以告知功能关系或行为影响。本研究的目的是通过荟萃分析技术来解决这些解释性挑战,以澄清长期吸烟对灰质完整性的影响,并更全面地将这种结构改变置于背景下。方法:我们首先对结构MRI研究进行了基于坐标的荟萃分析,以确定与慢性吸烟相关的一致的结构改变。随后,我们进行了两个额外的元分析评估,以增强对潜在功能和行为关系的了解。具体来说,我们进行了一项多模式荟萃分析评估,以检验结构-功能假说,即吸烟相关的结构改变与显示急性尼古丁药物诱导的功能调节的相同区域重叠。最后,我们利用数据库驱动的工具,通过元分析连通性建模来识别功能相关的结构影响区域对,然后通过行为解码描述与这种功能交互相关的行为现象。结果:在所有研究中,吸烟与左脑岛、右小脑、副海马体、多个前额叶皮层(PFC)区域和丘脑的会聚性结构减少有关。我们观察到,吸烟相关的灰质减少与尼古丁激动剂给药在左岛、腹内侧PFC和丘脑中背侧的急性功能影响重叠,这表明了结构-功能关系。我们观察到左脑岛与多个其他结构影响区域的任务型功能相互作用与疼痛感知有关,右小脑与其他区域的相互作用与明显的身体运动有关,副海马体和丘脑之间的相互作用与记忆过程有关,内侧PFC区域之间的相互作用与面部加工有关。结论:总的来说,这些发现强调了与吸烟密切相关的大脑区域(如腹内侧PFC、脑岛、丘脑),提示了在吸烟者中需要额外考虑的神经影像学范式(如疼痛处理),并强调了需要进一步阐明成瘾的区域(如小脑)。
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来源期刊
Behavioral and Brain Functions
Behavioral and Brain Functions 医学-行为科学
CiteScore
5.90
自引率
0.00%
发文量
11
审稿时长
6-12 weeks
期刊介绍: A well-established journal in the field of behavioral and cognitive neuroscience, Behavioral and Brain Functions welcomes manuscripts which provide insight into the neurobiological mechanisms underlying behavior and brain function, or dysfunction. The journal gives priority to manuscripts that combine both neurobiology and behavior in a non-clinical manner.
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