Disability Moderates Dual Task Walking Performance and Neural Efficiency in Older Adults With Multiple Sclerosis.

Neurorehabilitation and neural repair Pub Date : 2024-12-01 Epub Date: 2024-08-23 DOI:10.1177/15459683241273411

Manuel E Hernandez, Robert W Motl, Frederick W Foley, Mary Ann Picone, Meltem Izzetoglu, Michael L Lipton, Mark Wagshul, Roee Holtzer

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Abstract

Background: Mobility and cognitive impairment are prevalent and co-occurring in older adults with multiple sclerosis (OAMS), yet there is limited research concerning the role of disability status in the cognitive control of gait among OAMS.

Objective: We investigated the levels of prefrontal cortex (PFC) activation, using oxygenated hemoglobin (HbO₂), during cognitively-demanding tasks in OAMS with lower and higher disability using functional near-infrared spectroscopy (fNIRS) to: (1) identify PFC activation differences in single task walk and cognitively-demanding tasks in OAMS with different levels of disability; and (2) evaluate if disability may moderate practice-related changes in neural efficiency in OAMS.

Methods: We gathered data from OAMS with lower (n = 51, age = 65 ± 4 years) or higher disability (n = 48, age = 65 ± 5 years), using a cutoff of 3 or more, in the Patient Determined Disease Steps, for higher disability, under 3 different conditions (single-task walk, Single-Task-Alpha, and Dual-Task-Walk [DTW]) administered over 3 counterbalanced, repeated trials.

Results: OAMS who had a lower disability level exhibited decreased PFC activation levels during Single-Task-Walk (STW) and larger increases in PFC activation levels, when going from STW to a cognitively-demanding task, such as a DTW, than those with higher disability. OAMS with a lower disability level exhibited greater declines in PFC activation levels with additional within session practice than those with a higher disability level.

Conclusions: These findings suggest that disability moderates brain adaptability to cognitively-demanding tasks and demonstrate the potential for fNIRS-derived outcome measures to complement neurorehabilitation outcomes.

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残疾对多发性硬化症老年人的双重任务行走表现和神经效率具有调节作用。

背景：在患有多发性硬化症的老年人（OAMS）中，行动能力和认知障碍是普遍存在且同时存在的问题，但有关残疾状况在多发性硬化症老年人步态认知控制中的作用的研究却很有限：我们使用功能性近红外光谱仪（fNIRS），利用氧合血红蛋白（HbO2）调查了残疾程度较低和较高的多发性硬化症老年人在完成认知要求较高的任务时前额叶皮质（PFC）的激活水平，目的是：（1）确定前额叶皮质激活的差异：(1) 确定不同残疾程度的 OAMS 在完成单一任务和认知需求任务时的 PFC 激活差异；(2) 评估残疾是否会缓和 OAMS 神经效率中与练习相关的变化：我们收集了残疾程度较低（n = 51，年龄 = 65 ± 4 岁）或残疾程度较高（n = 48，年龄 = 65 ± 5 岁）的 OAMS 的数据，在 3 种不同条件下（单任务步行、单任务-阿尔法和双任务步行 [DTW]）进行了 3 次平衡重复试验：与残疾程度较高的人相比，残疾程度较低的 OAMS 在 "单任务步行"（STW）过程中表现出较低的前额叶激活水平，而当从 STW 过渡到认知要求较高的任务（如 DTW）时，前额叶激活水平会有较高的升高。与残疾程度较高的人相比，残疾程度较低的 OAMS 在进行额外的会话练习时，其 PFC 激活水平的下降幅度更大：这些研究结果表明，残疾程度会调节大脑对认知需求任务的适应性，并证明了 fNIRS 衍生的结果测量法在补充神经康复结果方面的潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Neurorehabilitation and neural repair

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