Carla Silva-Batista, William Liu, Rodrigo Vitorio, Samuel Stuart, Joseph F Quinn, Martina Mancini
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To investigate whether clinical or gait variables would explain the PFC activity changes.</p><p><strong>Methods: </strong>Thirty-eight people with PD tested OFF medication wore a portable, functional near-infrared spectroscopy (fNIRS) system to record relative PFC activity while walking. Wearable inertial sensors recorded spatiotemporal gait characteristics. Based on the PFC activity (fNIRS) in the late phase of the walking task (final 40 seconds), compared to the early phase (initial 40 seconds), participants were separated into 2 groups: reduced or sustained PFC activity.</p><p><strong>Results: </strong>People with PD who reduced PFC activity during walking had less impaired gait (eg, faster gait speed) than those who had a sustained increase in PFC activity (<i>P</i> < .05). Cognitive set-shifting ability explained 18% of the PFC activation in the group with a sustained increase in PFC activity (<i>P</i> = .033).</p><p><strong>Conclusions: </strong>The time course of reduction in PFC activity corresponds to less impaired gait performance in people with PD, while a sustained increase in PFC activity is related to worse cognitive flexibility. 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引用次数: 0
摘要
背景:帕金森病(PD)患者行走异常的特征是运动控制从健康的自动性转向代偿性的执行控制,主要位于前额叶皮层(PFC)。虽然帕金森病患者行走时前额叶皮质的活动会增加,但行走时前额叶皮质活动的时间过程及其与临床或步态特征的关系尚不清楚:目的:确定帕金森氏症患者行走时PFC活动的时间过程。研究临床或步态变量是否能解释PFC活动的变化:方法:38 名未接受药物治疗的帕金森病患者佩戴便携式功能性近红外光谱(fNIRS)系统,记录行走时相对的 PFC 活动。可穿戴惯性传感器记录步态的时空特征。根据步行任务晚期(最后40秒)与早期(最初40秒)的PFC活动(fNIRS),将参与者分为两组:PFC活动减少组和PFC活动持续组:结果:与PFC活动持续增加的患者相比,行走过程中PFC活动减少的PD患者步态受损程度较轻(例如,步速较快)(P P = .033):结论:PFC活动减少的时间过程与PD患者步态受损程度较轻相对应,而PFC活动持续增加与认知灵活性较差有关。步行时PFC活动的减少可能表明步行的自动控制功能受损较轻。
The Time Course of Changes in Prefrontal Cortex Activity During Walking in People With Parkinson's Disease.
Background: Walking abnormalities in people with Parkinson's disease (PD) are characterized by a shift in locomotor control from healthy automaticity to compensatory, executive control, mainly located in the prefrontal cortex (PFC). Although PFC activity during walking increases in people with PD, the time course of PFC activity during walking and its relationship to clinical or gait characteristics is unknown.
Objective: To identify the time course of PFC activity during walking in people with PD. To investigate whether clinical or gait variables would explain the PFC activity changes.
Methods: Thirty-eight people with PD tested OFF medication wore a portable, functional near-infrared spectroscopy (fNIRS) system to record relative PFC activity while walking. Wearable inertial sensors recorded spatiotemporal gait characteristics. Based on the PFC activity (fNIRS) in the late phase of the walking task (final 40 seconds), compared to the early phase (initial 40 seconds), participants were separated into 2 groups: reduced or sustained PFC activity.
Results: People with PD who reduced PFC activity during walking had less impaired gait (eg, faster gait speed) than those who had a sustained increase in PFC activity (P < .05). Cognitive set-shifting ability explained 18% of the PFC activation in the group with a sustained increase in PFC activity (P = .033).
Conclusions: The time course of reduction in PFC activity corresponds to less impaired gait performance in people with PD, while a sustained increase in PFC activity is related to worse cognitive flexibility. Reduction in PFC activity while walking may indicate a less impaired, automatic control of walking.
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