Background: Attention deficit/hyperactivity disorder is a common neurodevelopmental disorder. Its core symptoms and related executive function, emotional and motor coordination problems often persist into adulthood, significantly affecting the academic performance and quality of life of college students. Current drug interventions have limitations, while exercise interventions, especially training focused on balance ability, show potential in improving cognitive functions, but systematic research on this aspect for the college student population is still insufficient. Research Objectives: This study aims to explore the effects of different exercise intervention models on college students with attention deficit hyperactivity disorder. The main objectives include: The system assessment focuses on the characteristics of college students with attention deficit hyperactivity disorder in terms of core symptoms, executive functions, emotional issues, and balance abilities. Compare the effects of eight-week aerobic training, conventional balance training, and "cognitive-balance dual-task" training on improving the symptoms of attention deficit hyperactivity disorder and cognitive function. By utilizing functional near-infrared spectroscopy technology, we aim to explore the potential brain mechanisms (such as changes in activation of the prefrontal cortex) through which exercise intervention can improve attention deficit hyperactivity disorder. Participants: This study will recruit college students who meet the diagnostic criteria for attention deficit hyperactivity disorder as the experimental group, and at the same time recruit healthy college students of the same age and gender as the control group. Research Design: This study consists of three parts: Study 1 (Cross-sectional Comparison): To compare the baseline differences in symptoms, cognition, emotions, and balance ability between college students with attention deficit hyperactivity disorder and healthy college students. Study Two (Randomized Controlled Trial): College students with attention deficit hyperactivity disorder were randomly assigned to three 8-week (3 times per week) intervention groups: the aerobic treadmill training group, the conventional balance training group, and the cognitive-balance dual-task training group. All participants underwent comprehensive assessments before the intervention, 4 weeks into the intervention, and 8 weeks into the intervention. Study 3 (Exploration of Neural Mechanisms): Before and after the intervention, the functional near-infrared spectroscopy technique was used to detect the activation of the prefrontal cortex in college students with attention deficit hyperactivity disorder when they were performing cognitive tasks. Measurement indicators: The study will use standardized scales to assess the core symptoms of attention deficit hyperactivity disorder, anxiety, depression, self-esteem, and quality of life; use neuropsychological tasks to evaluate "cold" and "hot" executive functions; and use high-precision balance testing systems (such as the Biodex Balance Analyzer, Y Balance Test) to assess postural control and dynamic balance abilities. Expected significance: This study is expected to provide a scientific and effective new non-pharmacological intervention plan for adult attention deficit hyperactivity disorder, and clarify the "brain-behavior" mechanism of the synergistic enhancement of "cognitive-motor" training, providing a theoretical basis for future personalized and mechanism-driven clinical rehabilitation strategies.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
SINGLE
Enrollment
130
Participants undergo structured aerobic training on a treadmill for 30 minutes per session, 3 times per week over 8 weeks. Each session includes a 5-minute warm-up (slow walking/jogging), 20 minutes of main exercise, and a 5-minute cool-down. Intensity is maintained at moderate level (60-75% of heart rate maximum, HRmax) monitored by heart rate monitor, and Borg Rating of Perceived Exertion (RPE) scale 12-14 ("somewhat hard" to "hard"). The intervention aims to improve cardiorespiratory fitness and general health.
Participants receive progressive balance training for 30 minutes per session, 3 times per week for 8 weeks. Training follows a 3-phase progression: Phase 1 (weeks 1-2): static stance and weight shifting on stable surfaces; Phase 2 (weeks 3-5): dynamic tasks on unstable surfaces (e.g., balance pads, wobble boards) with vestibular challenges; Phase 3 (weeks 6-8): functional multi-task activities (e.g., single-leg stance with trunk rotation, holding objects). Difficulty is manipulated by altering base of support, visual input (eyes open/closed), and task complexity. All sessions are supervised by trained staff. The goal is to enhance static and dynamic balance and proprioceptive function.
Participants undergo the same progressive balance training protocol as the Balance Training Group, but with simultaneous cognitive tasks superimposed throughout each session. Cognitive tasks include: serial subtraction, N-back tasks, alternating arithmetic operations, word generation/categorization, and Stroop tasks. These tasks engage working memory, cognitive flexibility, and attention. Training follows a progressive difficulty principle: initial weeks involve simple cognitive tasks during static balance; later weeks incorporate complex cognitive tasks during dynamic balance challenges. The dual-task interference is systematically increased to optimize cognitive resource allocation and postural control strategies. Sessions are 30 minutes, 3 times per week for 8 weeks, supervised by trained staff.
Beijing Normal University
Beijing, China
ADHD Core Symptom Severity
Change in ADHD core symptoms assessed by the Adult ADHD Self-Report Scale (ASRS). The ASRS is an 18-item self-report questionnaire measuring inattention and hyperactivity-impulsivity symptoms over the past week. Total scores range from 0 to 72, with higher scores indicating greater symptom severity.Score on a scale (0-72)
Time frame: Baseline, Week 4 (mid-intervention), Week 8 (post-intervention)
Working Memory - N-back Task Accuracy
Change in working memory performance measured by accuracy (%) on the N-back task. Participants respond when the current stimulus matches the one presented N trials earlier. Higher accuracy indicates better working memory.Unit of Measure:Percentage (%)
Time frame: Baseline, Week 4 (mid-intervention), Week 8 (post-intervention)
Prefrontal Cortex Activation
Change in prefrontal cortex hemodynamic response measured by functional near-infrared spectroscopy (fNIRS) during cognitive tasks (N-back and emotional Stroop). Primary outcomes include oxygenated hemoglobin (HbO) concentration changes in the dorsolateral prefrontal cortex (DLPFC) and orbitofrontal cortex (OFC).
Time frame: Baseline (pre-intervention), Week 8 (post-intervention)
Cognitive Flexibility - Wisconsin Card Sorting Test Perseverative Errors
Change in cognitive flexibility measured by the number of perseverative errors on the Wisconsin Card Sorting Test (WCST). Perseverative errors occur when participants persist with an incorrect sorting rule despite negative feedback. Fewer perseverative errors indicate better cognitive flexibility.Unit of Measure: Number of errors
Time frame: Baseline, Week 4, Week 8
Cognitive Flexibility - Wisconsin Card Sorting Test Categories Completed
Change in cognitive flexibility measured by the number of categories completed on the Wisconsin Card Sorting Test (WCST). A maximum of 6 categories can be completed. More categories completed indicate better cognitive flexibility.Unit of Measure: Number of categories
Time frame: Baseline, Week 4, Week 8
Inhibitory Control - Stroop Task Interference Effect
Change in inhibitory control measured by the Stroop interference effect (mean reaction time for incongruent trials minus congruent trials) on the Stroop color-word task. Smaller interference effects indicate better inhibitory control.Unit of Measure: Milliseconds (ms)
Time frame: Baseline, Week 4, Week 8
Inhibitory Control - Stroop Task Accuracy
Change in inhibitory control measured by accuracy (%) across all trial types on the Stroop color-word task. Higher accuracy indicates better performance.Unit of Measure:Percentage (%)
Time frame: Baseline, Week 4, Week 8
Affective Decision-Making - Iowa Gambling Task Net Score
Change in affective decision-making measured by the net score (total advantageous selections minus total disadvantageous selections) on the modified Iowa Gambling Task. Higher net scores indicate better risk-adjusted decision-making.Unit of Measure:Net score
Time frame: Baseline, Week 4, Week 8
Affective Decision-Making - Iowa Gambling Task Reaction Time
Change in affective decision-making measured by mean reaction time (milliseconds) across all trials on the modified Iowa Gambling Task. Shorter reaction times indicate faster decision-making.Unit of Measure: Milliseconds (ms)
Time frame: Baseline, Week 4, Week 8
Emotional Interference Control - Emotional Stroop Task Interference Effect
Change in emotional interference control measured by the emotional Stroop interference effect (mean reaction time for negative/emotional words minus neutral words). Larger interference effects indicate greater emotional distractibility.Unit of Measure:Milliseconds (ms)
Time frame: Baseline, Week 4, Week 8
Emotional Interference Control - Emotional Stroop Task Accuracy
Change in emotional interference control measured by accuracy (%) across all trial types on the emotional Stroop task. Higher accuracy indicates better performance.Unit of Measure:Percentage (%)
Time frame: Baseline, Week 4, Week 8
Functional Balance - Berg Balance Scale Total Score
Change in functional balance measured by the Berg Balance Scale (BBS) total score. The BBS assesses ability to maintain balance during 14 daily activities (e.g., sitting, standing, reaching, turning). Total scores range from 0 to 56. Higher scores indicate better balance performance.
Time frame: Baseline, Week 4, Week 8
Gait Performance - Functional Gait Assessment Total Score
Change in complex gait performance measured by the Functional Gait Assessment (FGA) total score. The FGA evaluates gait during 10 tasks (e.g., walking with head turns, stepping over obstacles, walking backward). Total scores range from 0 to 30. Higher scores indicate better gait performance.
Time frame: Baseline, Week 4, Week 8
Dynamic Balance - Y-Balance Test Right Anterior Reach Distance
Change in dynamic balance measured by the normalized reach distance (%) of the right leg in the anterior direction on the Y-Balance Test. Reach distance is normalized to leg length. Longer reach distances indicate better dynamic balance.
Time frame: Baseline, Week 4, Week 8
Dynamic Balance - Y-Balance Test Right Posteromedial Reach Distance
Change in dynamic balance measured by the normalized reach distance (%) of the right leg in the posteromedial direction on the Y-Balance Test. Reach distance is normalized to leg length. Longer reach distances indicate better dynamic balance.
Time frame: Baseline, Week 4, Week 8
Dynamic Balance - Y-Balance Test Right Posterolateral Reach Distance
Change in dynamic balance measured by the normalized reach distance (%) of the right leg in the posterolateral direction on the Y-Balance Test. Reach distance is normalized to leg length. Longer reach distances indicate better dynamic balance.
Time frame: Baseline, Week 4, Week 8
Dynamic Balance - Y-Balance Test Left Anterior Reach Distance
Change in dynamic balance measured by the normalized reach distance (%) of the left leg in the anterior direction on the Y-Balance Test. Reach distance is normalized to leg length. Longer reach distances indicate better dynamic balance.
Time frame: Baseline, Week 4, Week 8
Dynamic Balance - Y-Balance Test Left Posteromedial Reach Distance
Change in dynamic balance measured by the normalized reach distance (%) of the left leg in the posteromedial direction on the Y-Balance Test. Reach distance is normalized to leg length. Longer reach distances indicate better dynamic balance.
Time frame: Baseline, Week 4, Week 8
Dynamic Balance - Y-Balance Test Left Posterolateral Reach Distance
Change in dynamic balance measured by the normalized reach distance (%) of the left leg in the posterolateral direction on the Y-Balance Test. Reach distance is normalized to leg length. Longer reach distances indicate better dynamic balance.
Time frame: Baseline, Week 4, Week 8
Limb Asymmetry - Y-Balance Test Anterior Asymmetry Index
Change in inter-limb coordination measured by the anterior asymmetry index (%) on the Y-Balance Test. The index is calculated as the absolute difference between right and left anterior reach distances divided by the average of both legs. Lower asymmetry indicates better bilateral coordination.
Time frame: Baseline, Week 4, Week 8
Limb Asymmetry - Y-Balance Test Posteromedial Asymmetry Index
Change in inter-limb coordination measured by the posteromedial asymmetry index (%) on the Y-Balance Test. The index is calculated as the absolute difference between right and left posteromedial reach distances divided by the average of both legs. Lower asymmetry indicates better bilateral coordination.
Time frame: Baseline, Week 4, Week 8
Limb Asymmetry - Y-Balance Test Posterolateral Asymmetry Index
Change in inter-limb coordination measured by the posterolateral asymmetry index (%) on the Y-Balance Test. The index is calculated as the absolute difference between right and left posterolateral reach distances divided by the average of both legs. Lower asymmetry indicates better bilateral coordination.
Time frame: Baseline, Week 4, Week 8
Postural Stability - Biodex Overall Stability Index
Change in static postural stability measured by the Overall Stability Index from the Biodex Balance System. The index quantifies the variance of foot platform displacement in degrees. Lower scores indicate better stability.Unit of Measure: Degrees (°)
Time frame: Baseline, Week 4, Week 8
Dynamic Postural Control - Biodex Limits of Stability Completion Time
Change in dynamic postural control measured by the completion time (seconds) on the Limits of Stability test of the Biodex Balance System. Participants move their center of gravity to targets in 8 directions. Shorter completion times indicate better dynamic control.Unit of Measure:Seconds (s)
Time frame: Baseline, Week 4, Week 8
Dynamic Postural Control - Biodex Limits of Stability Directional Control
Change in dynamic postural control measured by the directional control score (%) on the Limits of Stability test of the Biodex Balance System. Higher percentages indicate more efficient movement of the center of gravity toward targets.Unit of Measure:Percentage (%)
Time frame: Baseline, Week 4, Week 8
Anxiety Symptoms
Change in anxiety symptoms assessed by the Generalized Anxiety Disorder 7-item scale (GAD-7). The GAD-7 is a self-report questionnaire measuring anxiety symptoms over the past two weeks. Total scores range from 0 to 21, with higher scores indicating greater anxiety severity.
Time frame: Baseline, Week 4 (mid-intervention), Week 8 (post-intervention)
Depressive Symptoms
Change in depressive symptoms assessed by the Patient Health Questionnaire 9-item scale (PHQ-9). The PHQ-9 is a self-report questionnaire measuring depression symptoms over the past two weeks. Total scores range from 0 to 27, with higher scores indicating greater depression severity.
Time frame: Baseline, Week 4 (mid-intervention), Week 8 (post-intervention)
Self-Esteem Level
Change in self-esteem assessed by the Rosenberg Self-Esteem Scale (RSES). The RSES is a 10-item self-report scale measuring global self-worth. Scores range from 0 to 30, with higher scores indicating higher self-esteem.
Time frame: Baseline, Week 4 (mid-intervention), Week 8 (post-intervention)
Motor Coordination Difficulties
Change in motor coordination assessed by the Adult Developmental Coordination Disorder Questionnaire (DCDQ). The DCDQ is a self-report measure evaluating motor coordination difficulties in daily activities. Total scores range from 15 to 75, with higher scores indicating greater coordination problems.
Time frame: Baseline, Week 4 (mid-intervention), Week 8 (post-intervention)
ADHD-Specific Quality of Life
Change in quality of life assessed by the Adult ADHD Quality of Life measure (AAQoL-29). The AAQoL-29 is a 29-item self-report questionnaire measuring life productivity, psychological health, relationships, and life outlook. Total scores range from 29 to 145, with higher scores indicating better quality of life.
Time frame: Baseline, Week 4 (mid-intervention), Week 8 (post-intervention)
Prefrontal Cortex Activation (Exploratory)
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Change in prefrontal cortex hemodynamic response measured by functional near-infrared spectroscopy (fNIRS) during cognitive tasks (N-back and emotional Stroop). Outcomes include oxygenated hemoglobin (HbO) concentration changes in dorsolateral prefrontal cortex (DLPFC), orbitofrontal cortex (OFC), and frontopolar area (FPA).
Time frame: Baseline (pre-intervention), Week 8 (post-intervention)
Age
Participant age at the time of enrollment. Age is recorded as a continuous variable for descriptive purposes and will be used as a covariate in analyses.Unit of Measure: Years
Time frame: Baseline
Height
Participant height measured in centimeters (cm) using a standardized stadiometer. Unit of Measure:Centimeters (cm)
Time frame: Baseline
Weight
Participant weight measured in kilograms (kg) using a calibrated digital scale.
Time frame: Baseline