GLIA 投稿模板-刊鹿论文编译

White matter plasticity and maturation in human cognition

Abstract:

White matter plasticity likely plays a critical role in supporting cognitive development. However, few studies have used the imaging methods specific to white matter tissue structure or experimental designs sensitive to change in white matter necessary to elucidate these relations. Here we briefly review novel imaging approaches that provide more specific information regarding white matter microstructure. Furthermore, we highlight recent studies that provide greater clarity regarding the relations between changes in white matter and cognition maturation in both healthy children and adolescents and those with white matter insult. Finally, we examine the hypothesis that white matter is linked to cognitive function via its impact on neural synchronization. We test this hypothesis in a population of children and adolescents with recurrent demyelinating syndromes. Specifically, we evaluate group differences in white matter microstructure within the optic radiation; and neural phase synchrony in visual cortex during a visual task between 25 patients and 28 typically developing age‐matched controls. Children and adolescents with demyelinating syndromes show evidence of myelin and axonal compromise and this compromise predicts reduced phase synchrony during a visual task compared to typically developing controls. We investigate one plausible mechanism at play in this relationship using a computational model of gamma generation in early visual cortical areas. Overall, our findings show a fundamental connection between white matter microstructure and neural synchronization that may be critical for cognitive processing. In the future, longitudinal or interventional studies can build upon our knowledge of these exciting relations between white matter, neural communication, and cognition.

Author Listing： Sonya Bells;Jérémie Lefebvre;Giulia Longoni;Sridar Narayanan;Douglas L Arnold;Eleun Ann Yeh;Donald J Mabbott

Volume： 67

Pages： 2020 - 2037

DOI： 10.1002/glia.23661

Language： English

Journal： Glia

GLIA

影响因子：5.1

是否综述期刊：否

是否OA：否

是否预警：不在预警名单内

发行时间：1988

ISSN：0894-1491

发刊频率：Semimonthly

收录数据库：SCIE/Scopus收录

出版国家/地区：UNITED STATES

出版社：John Wiley and Sons Inc.

期刊介绍

GLIA is a peer-reviewed journal, which publishes articles dealing with all aspects of glial structure and function. This includes all aspects of glial cell biology in health and disease.

GLIA是一个同行评审期刊，发表涉及神经胶质结构和功能各个方面的文章。这包括健康和疾病中神经胶质细胞生物学的所有方面。

年发文量	138
国人发稿量	29
国人发文占比	20.9%
自引率	3.9%
平均录取率	较难
平均审稿周期	一般,3-8周
版面费	US$4800
偏重研究方向	医学-神经科学
期刊官网	http://onlinelibrary.wiley.com/journal/10.1002/(ISSN)1098-1136
投稿链接	https://mc.manuscriptcentral.com/glia/

质量指标占比

研究类文章占比	OA被引用占比	撤稿占比	出版后修正文章占比
96.38%	51.66%	0.00%	1.14%

预警情况

时间	预警情况
2025年03月发布的2025版	不在预警名单中
2024年02月发布的2024版	不在预警名单中
2023年01月发布的2023版	不在预警名单中
2021年12月发布的2021版	不在预警名单中
2020年12月发布的2020版	不在预警名单中

JCR分区 WOS分区等级：Q1区

版本	按学科	分区
WOS期刊SCI分区（2021-2022年最新版）
	NEUROSCIENCES	Q1

中科院分区

版本	大类学科	小类学科	Top期刊	综述期刊
	医学 1区	NEUROSCIENCES 神经科学 2区	否	是
2021年12月基础版	医学 2区	NEUROSCIENCES 神经科学 2区	否	否
2021年12月升级版	医学 1区	NEUROSCIENCES 神经科学 2区	否	是
2020年12月旧的升级版	医学 1区	NEUROSCIENCES 神经科学 2区	否	是
2022年12月最新升级版	医学 2区	NEUROSCIENCES 神经科学 2区	否	否