发表一篇学和医学成像类SCI论文
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Abstract:
:Brain iron is vital to multiple aspects of brain function, including oxidative metabolism, myelination, and neurotransmitter synthesis. Atypical iron concentration in the basal ganglia is associated with neurodegenerative disorders in aging and cognitive deficits. However, the normative development of brain iron concentration in adolescence and its relationship to cognition are less well understood. Here, we address this gap in a longitudinal sample of 922 humans aged 8-26 years at the first visit (M = 15.1, SD = 3.72; 336 males, 486 females) with up to four multi-echo T2* scans each. Using this sample of 1,236 imaging sessions, we assessed the longitudinal developmental trajectories of tissue iron in the basal ganglia. We quantified tissue iron concentration using R2* relaxometry within four basal ganglia regions, including the caudate, putamen, nucleus accumbens, and globus pallidus. The longitudinal development of R2* was modeled using generalized additive mixed models (GAMMs) with splines to capture linear and nonlinear developmental processes. We observed significant increases in R2* across all regions, with the greatest and most prolonged increases occurring in the globus pallidus and putamen. Further, we found that the developmental trajectory of R2* in the putamen is significantly related to individual differences in cognitive ability, such that greater cognitive ability is increasingly associated with greater iron concentration through late adolescence and young-adulthood. Together, our results suggest a prolonged period of basal ganglia iron enrichment that extends into the mid-twenties, with diminished iron concentration associated with poorer cognitive ability during late adolescence.SIGNIFICANCE STATEMENTBrain tissue iron is essential to healthy brain function. Atypical basal ganglia tissue iron levels have been linked to impaired cognition in iron deficient children and adults with neurodegenerative disorders. However, the normative developmental trajectory of basal ganglia iron concentration during adolescence and its association with cognition are less well understood. In the largest study of tissue iron development yet reported, we characterize the developmental trajectory of tissue iron concentration across the basal ganglia during adolescence and provide evidence that diminished iron content is associated with poorer cognitive performance even in healthy youth. These results highlight the transition from adolescence to adulthood as a period of dynamic maturation of tissue iron concentration in the basal ganglia.
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最新影响因子:6.709 | 期刊ISSN:0270-6474 | CiteScore:5.89 |
出版周期:Weekly | 是否OA:YES | 出版年份:1981 |
期刊官方网址:http://www.jneurosci.org/
自引率:5.50% | 研究方向:医学-神经科学 |
出版地区:UNITED STATES |
SCI期刊coverage:Science Citation Index Expanded(科学引文索引扩展)
专业编辑在线一对一答疑及时解决您的问题
The official journal of the Society for Neuroscience, available in full text 1996 forward with plans to archive five years of full text issues. Tables of contents for future issues. Publication precedes receipt of print edition. Available free to Society members and selected librarians for 1997. Available for subscription in 1998. Includes thumbnail expandable graphics.
神经科学学会的官方期刊,1996年出版全文,计划存档5年的全文。未来问题的目录。出版先于收到印刷版。1997年免费提供给社会成员和选定的图书馆员。于一九九八年可供订阅。包括缩略图可扩展的图形。
大类(学科) | 小类(学科) | 学科排名 |
医学 |
NEUROSCIENCES (神经科学) 2区 |
30/261 |
年度总发文量 | 年度论文发表量 | 年度综述发表量 |
931 | 931 | 0 |
引文计数(2018)
文献(2015-2017)
24720次引用
4194篇文献
序号 | 类别 | 排名 | 百分位 |
1 |
大类(学科):Neuroscience
小类(学科):General Neuroscience
|
#12/111
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研究方向:生命科学 遗传学 生物信息学 动物遗传学
审稿时间: 1个月内
影响因子:5.315
ISSN:0148-396X
研究方向:医学-临床神经学
影响因子:1.725
ISSN:0028-3770
研究方向:医学-临床神经学
影响因子:2.21
ISSN:1878-8750
研究方向:CLINICAL NEUROLOGY-SURGERY
影响因子:4.332
ISSN:1092-0684
研究方向:CLINICAL NEUROLOGY-SURGERY
影响因子:2.816
ISSN:0001-6268
研究方向:医学-临床神经学
影响因子:2.8
ISSN:0344-5607
研究方向:医学-临床神经学
影响因子:0.972
ISSN:1019-5149
研究方向:医学-临床神经学
影响因子:1.532
ISSN:0256-7040
研究方向:医学-临床神经学
影响因子:1.165
ISSN:1016-2291
研究方向:医学-临床神经学
发表一篇学和医学成像类SCI论文
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