新皮层和幕下结构的形态计量学分析:来自双胞胎神经解剖学研究的遗传和环境见解。

IF 2.9 4区 医学 Q1 MEDICINE, GENERAL & INTERNAL Medicina-Lithuania Pub Date : 2025-02-04 DOI:10.3390/medicina61020261
Amirreza Alijanpourotaghsara, Arsalan Vessal, Amirmasoud Alijanpour, David Strelnikov, Marton Piroska, Aliz Persely, Zsofia Jokkel, Laszlo Szalontai, Bianka Forgo, Lajos Rudolf Kozak, Adam Bekesy-Szabo, Pal Maurovich-Horvat, David Laszlo Tarnoki, Adam Domonkos Tarnoki
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引用次数: 0

摘要

背景与目的:脑形态测量学是由遗传和环境因素(包括生理和神经精神状况)的复杂相互作用形成的。这些影响可能在不同的大脑区域有所不同,但遗传和环境对健康大脑区域差异的确切贡献仍然知之甚少。这项研究考察了特定大脑结构的遗传性,以提供对其发展的更深入的了解。材料和方法:我们使用t1加权磁共振成像(T1W MRI)和volBrain管道进行结构测量,研究了118对来自匈牙利双胞胎登记处的健康成年双胞胎。结果:在所有区域中,同卵(MZ)双胞胎在脑干和小脑总体积上表现出比异卵(DZ)双胞胎更高的相似性,具有显著的遗传力(a: 90.5-92.6%)和最小的独特环境影响(E:结论:遗传强烈影响幕上区域(整体和局部)的皮质灰质体积,以及幕下区域的脑干总体积和小脑的总灰质体积和皮质灰质体积。这种遗传影响延伸到顶叶、中央后回和枕叶的平均皮质厚度,而额叶、颞叶和中央前回受环境因素的影响更大。这些发现强调了了解特定区域的遗传和环境对大脑结构的影响的重要性,这可以指导神经系统疾病的个性化治疗和预防策略。
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Morphometric Analysis of Neocortical and Infratentorial Structures: Genetic and Environmental Insights from a Twin Neuroanatomical Study.

Background and Objective: Brain morphometry is shaped by a complex interplay of genetic and environmental factors, including physiological and neuropsychiatric conditions. These influences can vary across distinct brain regions, yet the precise contributions of genetics and environment to regional variation in healthy brains remain poorly understood. This study examines the heritability of specific brain structures to provide deeper insights into their development. Materials and Methods: We studied 118 healthy adult twins from the Hungarian Twin Registry using T1-weighted magnetic resonance imaging (T1W MRI) and the volBrain pipeline for structural measurements. Results: In all regions, monozygotic (MZ) twins showed a higher resemblance than dizygotic (DZ) twins in total brainstem and cerebellar volumes, with significant heritability (A: 90.5-92.6%) and minimal unique environmental effects (E: <1%). For supratentorial regions, regarding the total gray matter volume, all regions exhibited high heritability (A: 74.5-92.4%) and minimal environmental influence (E: <1.5%). In average cortical thickness analysis, the frontal lobe, temporal lobe, and pre-central gyrus were influenced by shared and unique environmental factors (C: 63-66.5%; E: 33.4-37%), whereas genetics were more prominent in the parietal lobe, occipital lobe, and post-central gyrus (A: 67.7-85%; E: 15-32.3%). Conclusions: Genetics strongly influence cortical gray matter volume in supratentorial regions (both total and regional), as well as the total brainstem volume and the total and cortical gray matter volumes of the cerebellum in infratentorial regions. This genetic influence extends to the average cortical thickness of the parietal lobe, post-central gyrus, and occipital lobe, while the frontal lobe, temporal lobe, and pre-central gyrus are more affected by environmental factors. These findings emphasize the importance of understanding region-specific genetic and environmental contributions to brain structure, which could guide personalized therapeutic and preventive strategies for neurological conditions.

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来源期刊
Medicina-Lithuania
Medicina-Lithuania 医学-医学:内科
CiteScore
3.30
自引率
3.80%
发文量
1578
审稿时长
25.04 days
期刊介绍: The journal’s main focus is on reviews as well as clinical and experimental investigations. The journal aims to advance knowledge related to problems in medicine in developing countries as well as developed economies, to disseminate research on global health, and to promote and foster prevention and treatment of diseases worldwide. MEDICINA publications cater to clinicians, diagnosticians and researchers, and serve as a forum to discuss the current status of health-related matters and their impact on a global and local scale.
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