Dual Tasking Training to Enhance Self-Efficacy in Individuals With Parkinson's Disease
NCT07611578 · Status: NOT_YET_RECRUITING · Phase: NA · Type: INTERVENTIONAL · Enrollment: 112
Last updated 2026-05-28
Summary
Parkinson's disease (PD) is a neurodegenerative disorder characterized by motor and cognitive impairments that substantially reduce functional independence, social participation, and quality of life. A key psychosocial factor affected by these impairments is self-efficacy, defined as an individual's belief in their ability to successfully perform tasks and achieve personal goals. In people with PD, reduced self-efficacy is closely associated with motor dysfunction, cognitive decline, fear of falling, depressive symptoms, and decreased motivation for physical and social activities. These factors interact in a bidirectional manner, creating a negative cycle in which poor confidence limits participation, further accelerating functional deterioration.
From a neurophysiological perspective, the degeneration of dopaminergic neurons in PD disrupts the automatic control of movement. As a consequence, individuals with PD rely more heavily on cognitive and attentional resources to execute daily motor activities. This reliance becomes particularly problematic in dual-tasking situations, where two tasks must be performed simultaneously, such as a motor task combined with a cognitive task or two concurrent motor tasks. Because attentional capacity is limited, dividing attention across tasks frequently results in performance declines in one or both tasks, a phenomenon referred to as dual-task interference or dual-task cost. Low confidence when facing these situations may reinforce avoidance behaviors, thereby further diminishing physical activity and community engagement.
Dual-task training has been proposed as a rehabilitation strategy to improve functional performance, self-efficacy, and daily functioning in people with PD. However, important gaps remain in the evidence. It is currently unclear whether motor-cognitive or motor-motor dual-task training is more effective, particularly when considering the presence or absence of cognitive impairment. Additionally, the relative impact of secondary cognitive versus secondary motor tasks on primary motor task performance has not been well established. Another unresolved issue concerns attentional prioritization strategies during dual-task training. Fixed-priority strategies require individuals to attend equally to both tasks, whereas variable-priority strategies involve alternating attention between tasks. The optimal strategy for individuals with PD, especially those with cognitive deficits, remains unknown.
The proposed research aims to address these knowledge gaps by systematically evaluating the effects of different dual-task training modalities and attentional prioritization strategies on self-efficacy, functional performance, and quality of life in individuals with PD, both with and without cognitive impairment. An additional objective is to investigate whether improvements in dual-task performance are associated with reduced attentional demands, as reflected by decreased activity in the prefrontal cortex, which is considered a key neural marker of cognitive load during task performance.
The research program comprises two complementary studies. Study 1 is a randomized clinical trial with a factorial design stratified by cognitive status. Participants with PD are randomly assigned to one of four intervention groups combining dual-task modality (motor-cognitive or motor-motor) with attentional strategy (fixed-priority or variable-priority). All participants undergo baseline assessments conducted by an interdisciplinary team and complete 24 individualized training sessions over an eight-week period. Outcome measures include self-efficacy, motor and cognitive performance, quality of life, dual-task cost, and prefrontal cortex activity. Study 2 uses a cross-sectional design that includes individuals with PD from study 1 and a matched group of healthy older adults. Using identical assessment procedures, this study compares dual-task interference and prefrontal cortex activity between people with PD and healthy controls, providing additional insight into disease-specific cognitive-motor interactions. Overall, this research seeks to inform evidence-based, personalized rehabilitation strategies by identifying the most effective dual-task training approaches for improving confidence, functional ability, and quality of life in individuals with PD.
Conditions
- Parkinson´s Disease
Interventions
- OTHER
-
dual tasking training
Dual-tasking refers to the simultaneous performance of two tasks that compete for shared cognitive and/or motor resources. Typically, one task is motor (e.g., gait, balance, or upper-limb activity) and the other is cognitive (e.g., attention, executive function, or memory). The degree of performance decrement observed in one or both tasks commonly termed dual-task interference or dual-task cost is used as an index of cognitive motor integration and attentional resource allocation. Dual-task can be classified according to the nature of the paired task: Motor Cognitive Dual Tasks is the combination of a motor task with a cognitive task. Motor-Motor Dual Tasks is the concurrent execution of two motor tasks.Dual-task performance can be modulated by explicit or implicit prioritization strategies. Participants can be instructed to allocate attention equally to both tasks or to alternate prioritization between tasks, either across trials or within the same session
Sponsors & Collaborators
-
Alvaro Reyes
lead OTHER
Study Design
- Allocation
- RANDOMIZED
- Purpose
- TREATMENT
- Masking
- DOUBLE
- Model
- FACTORIAL
Eligibility
- Min Age
- 18 Years
- Sex
- ALL
- Healthy Volunteers
- No
Timeline & Regulatory
- Start
- 2026-06-01
- Primary Completion
- 2029-01-31
- Completion
- 2029-01-31
Countries
- Chile
Study Locations
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