Postural Balance Clinical Trial
Official title:
Can Training Balance, or Enjoying Music, Improve Executive Functions of Children?
This randomized controlled trial will investigate the hypothesis that since balance and executive functions (EFs) require a similar neural circuit and EFs are recruited when trying to maintain balance, that training balance might improve EFs as well as balance. There will be an active control condition (watching music videos) and a no-treatment condition. Children (18-12 years old) will be randomly assigned to one of these conditions for 12 weeks (36 per condition). The balance and music conditions will involve 15-min sessions 3x/week and a weekly check-in session with an investigator. Participants will be assessed pre-intervention, immediately post and 3-months post.
Status | Recruiting |
Enrollment | 108 |
Est. completion date | December 30, 2024 |
Est. primary completion date | November 30, 2024 |
Accepts healthy volunteers | Accepts Healthy Volunteers |
Gender | All |
Age group | 8 Years to 12 Years |
Eligibility | Inclusion Criteria • Children between 8 to 12 years old. Exclusion Criteria: - Children not fluent in English - Children with performance over the 85th percentile at screening assessment of postural balance or EFs that it leaves little room for them to improve further. - Children taking any medication that might affect cognition (e.g., psychostimulants) - Children undergoing EF training, which might affect their performance on EF tests. - Children undergoing other targeted training to improve their balance (e.g., dance, yoga, tai chi, martial arts), which might affect their performance on balance tests. - Children with severe anxiety who might find the balance training anxiety-provoking. - Children unable to perform simple balance exercises because of a physical handicap, disability, or musculoskeletal injury. - Children with significant hearing loss or visual impairment even with correction. - Neither the child's parent/guardian nor other responsible person strong enough to catch the child should he or she start to fall would be available to spot the child during the weekly session in case the child is assigned to the BT intervention. |
Country | Name | City | State |
---|---|---|---|
Canada | Developmental Cognitive Neuroscience Lab, Department of Psychiatry, UBC | Vancouver | British Columbia |
Lead Sponsor | Collaborator |
---|---|
University of British Columbia | Natural Sciences and Engineering Research Council, Canada |
Canada,
Type | Measure | Description | Time frame | Safety issue |
---|---|---|---|---|
Primary | Change from baseline in Working Memory accuracy composite score | Scores for accuracy (percentage of correct responses) from each individual EF test will be analyzed separately and, using z scores, will be combined into a composite score for WM. EF tests included N-back, Re-ordering digits, hearts and flowers, flanker/reverse flanker, street test, farmer Joe, tower of London and design fluency test | Baseline and post-intervention (12 weeks) | |
Primary | Change from baseline in Inhibitory Control accuracy composite score | Scores for accuracy (percentage of correct responses) from each individual EF test will be analyzed separately and, using z scores, will be combined into a composite score for IC. EF tests included N-back, Re-ordering digits, hearts and flowers, flanker/reverse flanker, street test, farmer Joe, tower of London and design fluency test | Baseline and post-intervention (12 weeks) | |
Primary | Change from baseline in Cognitive Flexibility accuracy composite score | Scores for accuracy (percentage of correct responses) from each EF test will be analyzed separately and, using z scores, will be combined into a composite score for CF, and planning/problem-solving. EF tests included N-back, Re-ordering digits, hearts and flowers, flanker/reverse flanker, street test, farmer Joe, tower of London and design fluency test | Baseline and post-intervention (12 weeks) | |
Primary | Change from baseline in Planning / problem solving accuracy composite score | Scores for accuracy (percentage of correct responses) from each EF test will be analyzed separately and, using z scores, will be combined into a composite score for planning/problem-solving. EF tests included N-back, Re-ordering digits, hearts and flowers, flanker/reverse flanker, street test, farmer Joe, tower of London and design fluency test | Baseline and post-intervention (12 weeks) | |
Primary | Change from baseline in Sway-area Bipedal stance, eyes closed | measure os postural sway (displacements in the center of pressure (COP)) in millimetres on static bipedal stance (feet shoulder width apart) with eyes closed | Baseline and post-intervention (12 weeks) | |
Primary | Change from baseline in Sway-area Bipedal stance, eyes open | measure postural sway (displacements in the center of pressure (COP)) in millimetres on static bipedal stance (feet shoulder width apart) with eyes open | Baseline and post-intervention (12 weeks) | |
Primary | Change from baseline in Sway-area Tandem stance, eyes closed | measure postural sway (displacements in the center of pressure (COP)) in millimetres on static Tandem stance with eyes closed | Baseline and post-intervention (12 weeks) | |
Primary | Change from baseline in Sway-area Tandem stance, eyes open | measure postural sway (displacements in the center of pressure (COP)) in millimetres on static Tandem stance with eyes open | Baseline and post-intervention (12 weeks) | |
Primary | Change from baseline in Sway-area Unipedal stance, eyes closed | measure postural sway (displacements in the center of pressure (COP)) in millimetres on static Unipedal stance with eyes closed | Baseline and post-intervention (12 weeks) | |
Primary | Change from baseline in Sway-area Unipedal stance, eyes open | measure postural sway (displacements in the center of pressure (COP)) in millimetres on static Unipedal stance with eyes open | Baseline and post-intervention (12 weeks) | |
Primary | Change from baseline in time standing on a wobble board, eyes open | measure the maximum time participants can maintain their balance standing on a wobble board with their eyes open. | Baseline and post-intervention (12 weeks) | |
Secondary | Change from baseline in Working Memory accuracy composite score | Scores for accuracy (percentage of correct responses) from each individual EF test will be analyzed separately and, using z scores, will be combined into a composite score for WM. EF tests included N-back, Re-ordering digits, hearts and flowers, flanker/reverse flanker, street test, farmer Joe, tower of London and design fluency test | Baseline and 3 months post-intervention | |
Secondary | Change from baseline in Planning / problem solving accuracy composite score | Scores for accuracy (percentage of correct responses) from each EF test will be analyzed separately and, using z scores, will be combined into a composite score for planning/problem-solving. EF tests included N-back, Re-ordering digits, hearts and flowers, flanker/reverse flanker, street test, farmer Joe, tower of London and design fluency test | Baseline and 3 months post-intervention | |
Secondary | Change from baseline in Inhibitory Control accuracy composite score | Scores for accuracy (percentage of correct responses) from each individual EF test will be analyzed separately and, using z scores, will be combined into a composite score for IC. EF tests included N-back, Re-ordering digits, hearts and flowers, flanker/reverse flanker, street test, farmer Joe, tower of London and design fluency test | Baseline and 3 months post-intervention | |
Secondary | Change from baseline in Cognitive Flexibility accuracy composite score | Scores for accuracy (percentage of correct responses) from each EF test will be analyzed separately and, using z scores, will be combined into a composite score for CF, and planning/problem-solving. EF tests included N-back, Re-ordering digits, hearts and flowers, flanker/reverse flanker, street test, farmer Joe, tower of London and design fluency test | Baseline and 3 months post-intervention | |
Secondary | Change from baseline in Sway-area Bipedal stance, eyes closed | measure os postural sway (displacements in the center of pressure (COP)) in millimetres on static bipedal stance (feet shoulder width apart) with eyes closed | Baseline and 3 months post-intervention | |
Secondary | Change from baseline in Sway-area Bipedal stance, eyes open | measure os postural sway (displacements in the center of pressure (COP)) in millimetres on static bipedal stance (feet shoulder width apart) with eyes closed | Baseline and 3 months post-intervention | |
Secondary | Change from baseline in Sway-area Tandem stance, eyes closed | measure postural sway (displacements in the center of pressure (COP)) in millimetres on static Tandem stance with eyes closed | Baseline and 3 months post-intervention | |
Secondary | Change from baseline in Sway-area Tandem stance, eyes open | measure postural sway (displacements in the center of pressure (COP)) in millimetres on static Tandem stance with eyes closed | Baseline and 3 months post-intervention | |
Secondary | Change from baseline in Sway-area Unipedal stance, eyes closed | measure postural sway (displacements in the center of pressure (COP)) in millimetres on static Unipedal stance with eyes closed | Baseline and 3 months post-intervention | |
Secondary | Change from baseline in Sway-area Unipedal stance, eyes open | measure postural sway (displacements in the center of pressure (COP)) in millimetres on static Unipedal stance with eyes closed | Baseline and 3 months post-intervention | |
Secondary | Change from baseline in time standing on a wobble board, eyes open | measure the maximum time participants can maintain their balance standing on a wobble board with their eyes open. | Baseline and 3 months post-intervention |
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