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.
Study Type
OBSERVATIONAL
Enrollment
39
National Taiwan University Hospital
Taipei, Taiwan
Experiment 1: Executive function performance- correct response speed (CRS)
CRS is the number of correct responses per unit time (correct responses/ second)
Time frame: Day 1
Experiment 2: Executive function performance- correct response speed (CRS)
CRS is the number of correct responses per unit time (correct responses/ second)
Time frame: Day 1
Experiment 2: walking performance- gait speed
The unit is m/s
Time frame: Day 1
Experiment 2: walking performance- cadence
The unit is steps/min
Time frame: Day 1
Experiment 2: walking performance- stride length
The unit is m
Time frame: Day 1
Experiment 2: dual task performance- dual task costs(DTC) in mobility
DTC in mobility = (single task gait speed - dual task gait speed) / single task gait speed x 100%
Time frame: Day 1
Experiment 2: dual task performance- dual task costs(DTC) in executive function
DTC in executive function = (single task correct response speed - dual task correct response speed) / single task correct response speed x 100%
Time frame: Day 1
Experiment 2: dual task performance- combine mean of dual task costs(DTC)
combine mean of DTC = ( DTC in mobility + DTC in executive function) / 2
Time frame: Day 1
Experiment 1: Brain activation over prefrontal cortex
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.
Time frame: Day 1
Experiment 1: Brain activities over supplementary motor area
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.
Time frame: Day 1
Experiment 1: Brain activities over premotor cortex
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.
Time frame: Day 1
Questionnaire in Chinese version
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.
Time frame: Day 1
Experiment 2: Brain activities over prefrontal cortex
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.
Time frame: Day 1
Experiment 2: Brain activities over supplementary motor area
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.
Time frame: Day 1
Experiment 2: Brain activities over premotor cortex
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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.
Time frame: Day 1