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Clinical Trial Summary

Step training has been shown to be effective at reducing the incidence of falls and improving related risk factors, including choice stepping, in healthy older adults. However, the effects of step training have not been investigated in OWMD. The primary objective of the proposed project will be to assess the effects of a step-training program involving concurrent stepping and visuospatial tasks on choice stepping, prefrontal cortex functioning during choice stepping, and fall-related outcomes (i.e., step length, lower-limb muscle strength, balance, mobility, dual-task ability, and fear of falling) in OWMD. The prefrontal cortex is responsible for the executive functions such as attention and inhibitory function, which are integral to choice stepping reaction time tasks. However, the effects of step training on prefrontal cortex functioning during choice stepping in OWMD remain unclear. The neural mechanisms underlying the potential effects of step training on choice stepping have never been investigated in this population. Therefore, the secondary objective of the proposed project will be to evaluate the mediating effects of changes in the prefrontal cortex functioning during choice stepping on the potential benefits of a step-training program for choice stepping in OWMD. The proposed project will provide robust evidence to support the use of step training to improve choice stepping and reduce the risk of falls in OWMD. Disentangling the neural mechanisms underlying the effects of step training will be crucial to the development of the most effective interventions to target these mechanisms.


Clinical Trial Description

Falls are common in older adults with mild dementia (OWMD), and they are the leading cause of functional dependence, morbidity, and mortality in this population. The ability to take rapid, accurate, and effective steps in varied environmental conditions, such as walking on a wet floor or rough terrain, is crucial to ensuring safety and avoiding falls. OWMD often have difficulties in choice stepping (i.e., stepping on a specific target, while avoiding irrelevant distractions), which requires high levels of sensorimotor and cognitive function. As impaired choice stepping has been shown to predict falls in the general older population, improving choice stepping is expected to reduce the risk of falls in OWMD. Step training has been shown to be effective at reducing the incidence of falls and improving related risk factors, including choice stepping, in healthy older adults. However, the effects of step training have not been investigated in OWMD. The primary objective of the proposed project will be to assess the effects of a step-training program involving concurrent stepping and visuospatial tasks on choice stepping, prefrontal cortex functioning during choice stepping, and fall-related outcomes (i.e., step length, lower-limb muscle strength, balance, mobility, dual-task ability, and fear of falling) in OWMD. The prefrontal cortex is responsible for the executive functions such as attention and inhibitory function, which are integral to choice stepping reaction time tasks. However, the effects of step training on prefrontal cortex functioning during choice stepping in OWMD remain unclear. The neural mechanisms underlying the potential effects of step training on choice stepping have never been investigated in this population. Therefore, the secondary objective of the proposed project will be to evaluate the mediating effects of changes in the prefrontal cortex functioning during choice stepping on the potential benefits of a step-training program for choice stepping in OWMD. The proposed project will provide robust evidence to support the use of step training to improve choice stepping and reduce the risk of falls in OWMD. Disentangling the neural mechanisms underlying the effects of step training will be crucial to the development of the most effective interventions to target these mechanisms. Furthermore, the scientific evidence derived from the proposed project will motivate patients, caregivers, and clinicians to participate in such programs, and subsequently, relieve the fall-related burdens on multiple stakeholders. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT05655403
Study type Interventional
Source The Hong Kong Polytechnic University
Contact
Status Active, not recruiting
Phase N/A
Start date January 1, 2024
Completion date December 31, 2026

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