用共激活模式分析观察功能性网络动态的性别差异。

IF 2 4区 医学 Q3 NEUROSCIENCES
Cognitive Neuroscience Pub Date : 2021-07-01 Epub Date: 2021-03-18 DOI:10.1080/17588928.2021.1880383
Laura Murray, J Michael Maurer, Alyssa L Peechatka, Blaise B Frederick, Roselinde H Kaiser, Amy C Janes
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引用次数: 9

摘要

在大规模静息状态大脑网络的组织中,性别差异已经通过传统的静态测量来确定,静态测量是指在较长时间内平均功能连接。相比之下,新兴的动态测量方法有可能定义网络随时间变化的性别差异,为神经生物学上的性别差异提供额外的理解。为了实现这一目标,我们使用了共激活模式分析(CAP),使用了来自人类连接组计划的181名男性和181名女性的静息状态功能磁共振成像数据。在两个独立的成像过程中观察到性别的显著主要影响。与男性相比,女性在两种瞬时网络状态(tns)上花费的时间更多,这两种网络状态在空间上与背侧注意网络和枕部/感觉-运动网络重叠。与男性相比,女性在这些TNSs中花费的时间更长与更频繁地过渡到这些TNSs有关。相比之下,雄性在与显著性网络空间重叠的tns中花费的总时间更长,这与雄性进入tns后停留的时间较雌性更长有关。状态到状态的转换在性别之间也存在显著差异:女性更频繁地从默认模式网络(DMN)状态过渡到背侧注意网络状态,而男性更频繁地从DMN状态过渡到突出网络状态。结果表明,男性和女性在两个不同的注意相关网络中花费不同的休息时间,并表现出从DMN状态到这些注意相关网络的性别特异性转换模式。这项工作为未来研究这些性别特异性网络动态的认知和行为含义奠定了基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Sex differences in functional network dynamics observed using coactivation pattern analysis.

Sex differences in functional network dynamics observed using coactivation pattern analysis.

Sex differences in functional network dynamics observed using coactivation pattern analysis.

Sex differences in functional network dynamics observed using coactivation pattern analysis.

Sex differences in the organization of large-scale resting-state brain networks have been identified using traditional static measures, which average functional connectivity over extended time periods. In contrast, emerging dynamic measures have the potential to define sex differences in network changes over time, providing additional understanding of neurobiological sex differences. To meet this goal, we used a Coactivation Pattern Analysis (CAP) using resting-state functional magnetic resonance imaging data from 181 males and 181 females from the Human Connectome Project. Significant main effects of sex were observed across two independent imaging sessions. Relative to males, females spent more total time in two transient network states (TNSs) spatially overlapping with the dorsal attention network and occipital/sensory-motor network. Greater time spent in these TNSs was related to females making more frequent transitions into these TNSs compared to males. In contrast, males spent more total time in TNSs spatially overlapping with the salience network, which was related to males staying for longer periods once entering these TNSs compared to females. State-to-state transitions also significantly differed between sexes: females transitioned more frequently from default mode network (DMN) states to the dorsal attention network state, whereas males transitioned more frequently from DMN states to salience network states. Results show that males and females spend differing amounts of time at rest in two distinct attention-related networks and show sex-specific transition patterns from DMN states into these attention-related networks. This work lays the groundwork for future investigations into the cognitive and behavioral implications of these sex-specific network dynamics.

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来源期刊
Cognitive Neuroscience
Cognitive Neuroscience NEUROSCIENCES-
CiteScore
3.60
自引率
0.00%
发文量
27
审稿时长
>12 weeks
期刊介绍: Cognitive Neuroscience publishes high quality discussion papers and empirical papers on any topic in the field of cognitive neuroscience including perception, attention, memory, language, action, social cognition, and executive function. The journal covers findings based on a variety of techniques such as fMRI, ERPs, MEG, TMS, and focal lesion studies. Contributions that employ or discuss multiple techniques to shed light on the spatial-temporal brain mechanisms underlying a cognitive process are encouraged.
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