Different Domains of Executive Function Dual Task Walking on Brain Activation and Gait Performance in Healthy Adults
2022年6月12日 更新者:National Taiwan University Hospital
The Effects of Different Domains of Executive Function Dual Task Walking on Brain Activation and Gait Performance in Healthy Adults
The aim of this study is to investigate the effects of different domains of executive function (EF) during dual task walking condition on brain activation and gait performance in healthy adults.
There are two experiments will be conducted in this study.
Experiment 1 is a pilot study to determine the same level of difficulty in 3 EF domains, including inhibition, working memory and cognitive flexibility.
Experiment 2 is carried out to investigate the effects of 3 different domains of EF which difficulties are controlled on gait performance and brain activation in dual task condition.
10 subjects will perform Stroop test (2s/3s/4s to change question), backward digit spans (3/4/5 digits) and naming test in Experiment 1.
In Experiment 1, the primary outcome is the correct response speed (CRS) while secondary outcome will be the brain activity.
In Experiment 2, 30 subjects will perform the single cognitive task A (SCTA, Stroop test), single cognitive task B (SCTB, backward digit spans), single cognitive task C (SCTC, naming test), single walking task (SWT), dual task A (DTA, walking while performing cognitive task A), dual task B (DTB, walking while performing cognitive task B) and dual task C (DTC, walking while performing cognitive task C).
The CRS, gait performance, brain activity and the dual task costs (DTC) will be recorded in the Experiment 2. Brain activities in prefrontal cortex (PFC), premotor cortex (PMC) and supplementary motor area (SMAs) will be measured by functional near-infrared spectroscopy (fNIRS) during this study.
One-way ANOVA with Tukey post-hoc test will be performed to establish the effect of different type of executive task on CRS or the brain activity.
The differences of gait parameters and brain activity in different condition in the Experiment 2 will be examined by one-way ANOVA with repeated measured.
Furthermore, the Pearson correlation coefficient will be used to examine the correlation of brain activation and executive function performance or gait parameters.
研究概览
研究类型
观察性的
注册 (实际的)
39
联系人和位置
本节提供了进行研究的人员的详细联系信息,以及有关进行该研究的地点的信息。
学习地点
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Taipei、台湾
- National Taiwan University Hospital
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参与标准
研究人员寻找符合特定描述的人,称为资格标准。这些标准的一些例子是一个人的一般健康状况或先前的治疗。
资格标准
适合学习的年龄
20年 至 30年 (成人)
接受健康志愿者
是的
有资格学习的性别
全部
取样方法
非概率样本
研究人群
The population in this study are heathy adults.
描述
Inclusion Criteria:
- 20-30 years (Experiment 1 & 2)
- Mini-Mental State Examination (MMSE) score greater than 24 points (Experiment 1 & 2)
- ability to walk 10 meters independently without an assistive device (Experiment 2)
Exclusion Criteria:
- any neurologic, orthopedic or psychological diseases (Experiment 1 & 2)
- color vision deficiency (Experiment 1 & 2)
- had the fall experiences within 6 months before the study (Experiment 2)
学习计划
本节提供研究计划的详细信息,包括研究的设计方式和研究的衡量标准。
研究是如何设计的?
设计细节
队列和干预
团体/队列 |
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healthy adults
This is a cross-over study with no intervention.
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研究衡量的是什么?
主要结果指标
结果测量 |
措施说明 |
大体时间 |
|---|---|---|
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Experiment 1: Executive function performance- correct response speed (CRS)
大体时间:Day 1
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CRS is the number of correct responses per unit time (correct responses/ second)
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Day 1
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Experiment 2: Executive function performance- correct response speed (CRS)
大体时间:Day 1
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CRS is the number of correct responses per unit time (correct responses/ second)
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Day 1
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Experiment 2: walking performance- gait speed
大体时间:Day 1
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The unit is m/s
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Day 1
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Experiment 2: walking performance- cadence
大体时间:Day 1
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The unit is steps/min
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Day 1
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Experiment 2: walking performance- stride length
大体时间:Day 1
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The unit is m
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Day 1
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Experiment 2: dual task performance- dual task costs(DTC) in mobility
大体时间:Day 1
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DTC in mobility = (single task gait speed - dual task gait speed) / single task gait speed x 100%
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Day 1
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Experiment 2: dual task performance- dual task costs(DTC) in executive function
大体时间:Day 1
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DTC in executive function = (single task correct response speed - dual task correct response speed) / single task correct response speed x 100%
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Day 1
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Experiment 2: dual task performance- combine mean of dual task costs(DTC)
大体时间:Day 1
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combine mean of DTC = ( DTC in mobility + DTC in executive function) / 2
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Day 1
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次要结果测量
结果测量 |
措施说明 |
大体时间 |
|---|---|---|
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Experiment 1: Brain activation over prefrontal cortex
大体时间:Day 1
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The unit is micro mole (μmol).
A multichannel wearable fNIRS imaging system (NIRSport2, NIRx Medical Technologies LLC, Glen Head, NY, USA) is used to detect the hemodynamics, including oxygenated-hemoglobin and de-oxygenated hemoglobin.
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Day 1
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Experiment 1: Brain activities over supplementary motor area
大体时间:Day 1
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The unit is micro mole (μmol).
A multichannel wearable fNIRS imaging system (NIRSport2, NIRx Medical Technologies LLC, Glen Head, NY, USA) is used to detect the hemodynamics, including oxygenated-hemoglobin and de-oxygenated hemoglobin.
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Day 1
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Experiment 1: Brain activities over premotor cortex
大体时间:Day 1
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The unit is micro mole (μmol).
A multichannel wearable fNIRS imaging system (NIRSport2, NIRx Medical Technologies LLC, Glen Head, NY, USA) is used to detect the hemodynamics, including oxygenated-hemoglobin and de-oxygenated hemoglobin.
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Day 1
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Questionnaire in Chinese version
大体时间:Day 1
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used for the participants to sort the task by the difficulty level based on their own experiences.The participants will be asked to grade the tasks from 1-10 scale.
Scale one is the simplest and 10 is the hardest.
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Day 1
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Experiment 2: Brain activities over prefrontal cortex
大体时间:Day 1
|
The unit is micro mole (μmol).
A multichannel wearable fNIRS imaging system (NIRSport2, NIRx Medical Technologies LLC, Glen Head, NY, USA) is used to detect the hemodynamics, including oxygenated-hemoglobin and de-oxygenated hemoglobin.
|
Day 1
|
|
Experiment 2: Brain activities over supplementary motor area
大体时间:Day 1
|
The unit is micro mole (μmol).
A multichannel wearable fNIRS imaging system (NIRSport2, NIRx Medical Technologies LLC, Glen Head, NY, USA) is used to detect the hemodynamics, including oxygenated-hemoglobin and de-oxygenated hemoglobin.
|
Day 1
|
|
Experiment 2: Brain activities over premotor cortex
大体时间:Day 1
|
The unit is micro mole (μmol).
A multichannel wearable fNIRS imaging system (NIRSport2, NIRx Medical Technologies LLC, Glen Head, NY, USA) is used to detect the hemodynamics, including oxygenated-hemoglobin and de-oxygenated hemoglobin.
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Day 1
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合作者和调查者
在这里您可以找到参与这项研究的人员和组织。
研究记录日期
这些日期跟踪向 ClinicalTrials.gov 提交研究记录和摘要结果的进度。研究记录和报告的结果由国家医学图书馆 (NLM) 审查,以确保它们在发布到公共网站之前符合特定的质量控制标准。
研究主要日期
学习开始 (实际的)
2021年8月1日
初级完成 (实际的)
2022年5月23日
研究完成 (实际的)
2022年5月23日
研究注册日期
首次提交
2021年5月13日
首先提交符合 QC 标准的
2021年5月23日
首次发布 (实际的)
2021年5月27日
研究记录更新
最后更新发布 (实际的)
2022年6月14日
上次提交的符合 QC 标准的更新
2022年6月12日
最后验证
2022年6月1日
更多信息
与本研究相关的术语
其他研究编号
- 202103125RINC
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