Dual-Task Exercise Effects on Balance and Cognition by Physical Performance Level

Not Applicable

Recruiting

• Conditions: Dual Task; Physical Activity Levels

• Registration Number: NCT07120074
• Lead Sponsor: Bahçeşehir University

Brief Summary

This study aims to investigate the effects of dual-task exercises on balance and cognitive function in individuals with varying levels of physical performance. Dual-task training, which involves performing cognitive and motor activities simultaneously, has been shown to improve functional mobility, especially in older adults and patients with neurological conditions. However, limited data exist on how these effects differ among individuals with different physical capacities. The findings of this study will contribute to understanding the therapeutic value of dual-task exercises in promoting both physical and cognitive health.

Detailed Description

Physical activity is a fundamental element of a healthy lifestyle, playing a critical role in improving overall health and enhancing long-term quality of life. Defined as any bodily movement produced by skeletal muscles that results in energy expenditure, physical activity encompasses a broad range of behaviors, including household chores, leisure-time sports, school physical education, and structured exercise. Exercise, a subset of physical activity, refers to planned, repetitive, and purposeful movement aimed at improving physical fitness. The frequency, intensity, and duration of activity are key factors in its classification and effectiveness. Physical activities can also be categorized by context-such as those occurring during work, sleep, or leisure time-with leisure-time activities further divided into exercise, sports, domestic chores, and other tasks.

Daily life often requires performing multiple tasks at the same time, placing simultaneous demands on both motor and cognitive functions. Dual-task training, which evaluates the ability to perform cognitive and motor activities concurrently, is gaining increasing attention. In recent years, shifts in occupational and lifestyle demands-driven by technological advancement-have led to increased reliance on cognitive skills, underscoring the importance of dual-task capacity in modern life.

Research has shown that performing simultaneous tasks can challenge attentional resources, particularly when cognitive and motor demands are high. This can lead to decreased performance, a phenomenon referred to as dual-task interference. Such interference is influenced by multiple factors, including task difficulty, attentional demands, task prioritization, and individual characteristics like age, fear of falling, and cognitive or motor abilities.

Balance control depends on the integration of visual, vestibular, and somatosensory inputs, alongside neuromuscular feedback. It is fundamental to the performance of voluntary motor actions and is affected by environmental context and task specificity.

The literature demonstrates that dual-task training has been effective in older adults, improving functions such as gait, balance, and reducing fall risk. Studies involving patients with neurological conditions (e.g., Parkinson's disease) also highlight improvements in motor and cognitive performance following dual-task interventions. These gains have been associated with greater autonomy in activities of daily living.

Despite these promising outcomes, few studies have examined the effects of dual-task training across populations with different physical performance levels. Our study aims to address this gap by evaluating how individuals with varying physical capacities respond to dual-task exercise programs in terms of balance and cognitive function. The overarching goal is to contribute to evidence supporting the integration of dual-task interventions into broader health promotion and rehabilitation strategies targeting both physical and mental well-being.

Study Timeline

• Study First Submitted: 2025-07-20
• Status Verified: 2025-08
• Study Start: 2025-08-03
• Study First Submitted QC: 2025-08-06
• Last Update Submitted: 2025-08-06
• Study First Posted: 2025-08-13
• Last Update Posted: 2025-08-13
• Primary Completion: 2025-10-04
• Study Completion: 2025-11-18

Recruitment & Eligibility

• Status: RECRUITING
• Sex: All
• Target Recruitment: 52

Inclusion Criteria

Aged between 20 and 50 years Adequate cognitive function to understand instructions and participate in the study Willingness and ability to participate regularly in the exercise program Ability to comprehend and follow the study procedures

Exclusion Criteria

Diagnosed with rheumatoid arthritis Diagnosed with systemic lupus erythematosus (SLE) Diagnosed with Parkinson's disease Diagnosed with multiple sclerosis History of stroke Diagnosed with Alzheimer's disease or other dementias Diagnosed with scoliosis causing physical limitation History of lower limb fractures Presence of foot or ankle tendonitis Diagnosed with color blindness or legal blindness History of major surgery (e.g., orthopedic, spinal, abdominal) within the past 6 months Irregular attendance or non-compliance with the exercise protocol

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Primary Outcome Measures

Name	Time	Method
Single-Leg Stance Test	At baseline and after 6 weeks	First, the participant will be asked which foot they prefer to stand on or which foot makes them feel more stable. Then, they will be instructed to distribute their weight evenly on both feet and, while maintaining this position, lift one foot off the ground. The timer will start as soon as the participant lifts their foot. The timer will be stopped if any signs of balance disturbance occur, such as the lifted foot making contact with the ground, the standing foot jumping, or the participant needing to support themselves in order to maintain balance. The longer an individual is able to maintain a single-leg stance, the better their static balance is considered to be.
Y Balance Test	At baseline and after 6 weeks exercise program	The Y-Balance Test (YBT) is a widely used, valid, and reliable tool for assessing dynamic balance. In this test, the participant stands on one leg and reaches in specific directions (anterior, posteromedial, and posterolateral) with the opposite leg. In this study, only the anterior reach direction was assessed.; Participants performed three practice trials for familiarization, followed by three recorded trials. During the test, the participant stood barefoot on a flat surface, maintaining balance on one leg. With the contralateral leg, they reached forward as far as possible and returned to the starting position without losing balance. The distance was measured from the tip of the big toe of the stance foot to the point where the toes of the reaching foot touched the ground. The longest distance achieved among the trials was used for statistical analysis.; Greater reach distances were interpreted as better dynamic balance performance.
Stroop Test	At baseline and after 6 weeks exercise program	The aim of the Stroop test is to evaluate the person's speed of processing information, especially simple and complex attention, inhibition ability, ability to be resistant to interference. The test to be used in our study includes 3 steps: In the first step, the person is asked to say the colours of the boxes in the form, in the second step to read the words in the form quickly, and in the last step to say the colours of the words. The time taken to complete each step is noted. The time difference between steps 2 and 3, the error made and the self-correction scores are recorded.

Secondary Outcome Measures

Name	Time	Method
Health-Related Quality of Life assessed by the SF-36 Questionnaire	At baseline and after 6 weeks exercise program	The SF-36 questionnaire is a quality of life questionnaire that includes 36 questions divided into 8 different categories (physical functioning, limitations due to physical condition, physical pain, perceived health, vitality, social functioning or well-being, limitations due to mental condition, mental health). These 8 dimensions are used to calculate two scores on the quality of life of individuals: the physical composite score and the mental composite score. The higher the score, the greater the capacity. It is self-administered and takes less than 10 minutes. Higher scores indicate better quality of life

Trial Locations

Locations (1)

Bahcesehir University; 🇹🇷 Istanbul, Maltepe, Turkey