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胼胝体的青春期。

Puberty in the corpus callosum.

作者信息

Chavarria M C, Sánchez F J, Chou Y-Y, Thompson P M, Luders E

机构信息

Department of Neurology, UCLA School of Medicine, Los Angeles, CA, United States.

Department of Counseling Psychology, University of Wisconsin, Madison, WI, United States.

出版信息

Neuroscience. 2014 Apr 18;265:1-8. doi: 10.1016/j.neuroscience.2014.01.030. Epub 2014 Jan 24.

Abstract

Adolescence is an important period for brain development. White matter growth is influenced by sex hormones such as testosterone, and the corpus callosum-the largest white matter structure in the human brain-may change structurally during the hormone-laden period of adolescence. Little is known about puberty's relationship to structural brain development, even though pubertal stage may better predict cognitive and behavioral maturity than chronological age. We therefore aimed to establish the presence and direction of pubertal effects on callosal anatomy. For this purpose, we applied advanced surface-based mesh-modeling to map correlations between callosal thickness and pubertal stage in a large and well-matched sample of 124 children and adolescents (62 female and 62 male) aged 5-18years from a normative database. When linking callosal anatomy to pubertal status, only positive correlations reached statistical significance, indicating that callosal growth advances with puberty. In tests of differences in callosal anatomy at different stages of puberty, callosal growth was concentrated in different locations depending on the pubertal stage. Changing levels of circulating sex hormones during different phases of puberty likely contributed to the observed effects, and further research is clearly needed. Direct quantification of sex hormone levels and regional fiber connectivity-ideally using fiber tractography-will reveal whether hormones are the main drivers of callosal change during puberty. These callosal findings may lead to hypotheses regarding cortical changes during puberty, which may promote or result from changes in inter-hemispheric connectivity.

摘要

青春期是大脑发育的重要时期。白质生长受睾酮等性激素影响,而胼胝体(人类大脑中最大的白质结构)可能在充满激素的青春期发生结构变化。尽管青春期阶段可能比实际年龄更能预测认知和行为成熟度,但关于青春期与大脑结构发育的关系却知之甚少。因此,我们旨在确定青春期对胼胝体解剖结构影响的存在及方向。为此,我们应用先进的基于表面的网格建模技术,在一个来自标准数据库的124名5至18岁儿童和青少年(62名女性和62名男性)的大型且匹配良好的样本中,绘制胼胝体厚度与青春期阶段之间的相关性。当将胼胝体解剖结构与青春期状态联系起来时,只有正相关达到统计学意义,表明胼胝体生长随着青春期推进。在青春期不同阶段胼胝体解剖结构差异的测试中,胼胝体生长集中在不同位置,这取决于青春期阶段。青春期不同阶段循环性激素水平的变化可能导致了观察到的这些影响,显然还需要进一步研究。直接量化性激素水平和区域纤维连接性——理想情况下使用纤维束成像技术——将揭示激素是否是青春期胼胝体变化的主要驱动因素。这些关于胼胝体的研究结果可能会引发关于青春期皮质变化的假设,这些变化可能是半球间连接性变化所促进或导致的。

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