Utilization of Exergame Programs Among Elderly Residents in Rural Nursing Care Centers

Background:

Cognitive impairment is prevalent among older adults and frequently misdiagnosed or diagnosed late, increasingly drawing attention as a significant health issue in aging populations. Compared to community-dwelling individuals, cognitive impairments are more common among residents of long-term care facilities (LTCFs). These facilities face challenges implementing organized exercise programs due to a shortage of professional caregivers and limited resources. Additionally, older adults may lose interest in repetitive interventions over time.

Despite the demonstrated clinical benefits of exergames for community-dwelling older adults, their effectiveness within LTCFs remains insufficiently explored. Current research primarily focuses on improvements in health-related quality of life, cognitive function, and overall functional status, with relatively few assessments targeting specific physical functions, such as flexibility, joint mobility, motor coordination, and hand dexterity. However, these physical capabilities are crucial for the independence of older adults. For instance, limited flexibility can hinder daily activities, directly impacting self-care abilities and increasing dependency on others. A reduction in joint mobility is often associated with joint stiffness and pain, restricting the range of motion and diminishing overall physical function, limiting the living space and activity radius of elderly individuals. Motor coordination is critical in balance maintenance and complex movements, where diminished coordination heightens the risk of falls. Falls can have severe consequences for older adults, including fractures, prolonged immobility, or even accelerated frailty, substantially reducing the quality of life. Hand dexterity also underpins the self-sufficiency of older adults. Loss of fine motor skills, such as gripping, pinching, and writing, can restrict their ability to perform daily tasks and participate socially, potentially leading to psychological distress.

The Nintendo exergame "WarioWare: Move It!" integrates twelve distinct movement modes, offering not only aerobic, coordination, and balance training but also cognitive exercises that engage memory, attention, and logical reasoning. The game's difficulty can be flexibly adjusted to match users' needs, ensuring optimal training effects at appropriate challenge levels. Despite its evident potential, comprehensive empirical studies are still required to substantiate its benefits fully. Therefore, this study conducted a 12-week longitudinal user study to examine the feasibility and potential clinical utility of "WarioWare: Move It!" for elderly populations in rural LTCFs. Furthermore, this research provides valuable insights and references for geriatric rehabilitation professionals and human-computer interaction researchers interested in designing exergame-based interventions for elderly care.

Methods:

The randomized controlled trial was conducted across multiple rural LTCFs in Shanxi Province, involving participants aged 65 and older. Participants were randomly assigned to either the intervention group (receiving the "WarioWare: Move It!" intervention) or the control group (receiving standard care). The intervention involved motion-sensing actions and postures (such as waving, jumping, arm swinging, rotating, and mimicking object movements) using the Joy-Con controllers for 60 minutes twice a week over 12 weeks. Primary outcome measures were derived from a battery of clinical tests, including the Sit and Reach test (the distance between the hands and toes when reaching forward), Shoulder Flexibility test (the distance between hands clasped behind the back), Trunk Rotation Flexibility test (the angle of the waist rotation to each side), Shoulder Range of Motion test (the angles of shoulder flexion, extension, abduction, and adduction), Elbow Range of Motion test (the angle of elbow flexion), Figure-of-Eight Walk test (completion time), Standing Balance test (balance duration), Hand Dexterity test (the number of blocks moved by the dominant hand in one minute), and Cognitive Function tests (e.g., Cognitive Abilities Screening Instrument, the Chinese version of the Mini-Mental State Examination, and the Montreal Cognitive Assessment). Statistical analysis was performed using mixed ANOVA, with time as the within-subject factor and intervention group as the between-subject factor, to assess the training effects on the various outcome measures.

Study Procedure:

Participants meeting the inclusion criteria will be recruited from long-term care facilities in Shanxi Province, including daycare centers and nursing homes. A purposive sampling method will be employed for participant selection, with the entire recruitment process strictly supervised by experienced neurologists.

Participants will be randomly assigned to either the intervention group or the control group.

All outcome measures will be assessed at baseline, after 12 weeks of intervention, and 6 months post-intervention.