Description

Geriatric individuals with Type 2 DM experience balance, gait, and cognitive impairments. Type 2 DM has been found to be associated with a 1.5 to 2.5-fold increased risk of dementia in the elderly population. In individuals with Type 2 DM, cognitive decline risk is heightened due to factors such as insulin resistance, impaired glucose metabolism, advanced glycation end-products, impaired amyloid beta degradation, increased oxidative stress, and inflammation. Among adults with Type 2 DM, the global prevalence of cognitive impairment is approximately 45%, with rates varying between 21.8% and 67.5% in different countries. Type 2 DM is most commonly linked to declines in episodic memory, verbal fluency, working memory, processing speed, and executive functions. Executive functions are "higher-level" processes that oversee and control other cognitive functions. These capabilities underpin activities such as planning, decision-making, switching between tasks, goal-directed behavior, and coordinating ongoing activities (e.g., multitasking or planning a series of activities). More importantly, executive function is critical for sensory integration used to coordinate balance and gait motor output. Declines in executive function serve as a risk factor for falls in geriatric individuals with DM. Dual-task paradigms are used to examine the degree of automaticity of movement. In these paradigms, a primary task, often walking, is undertaken with the main focus on attention. Secondary tasks are added, and the effects on both tasks are evaluated. In everyday situations, such as walking and talking, it is common to perform multiple tasks simultaneously, thus these situations are essentially dual-task paradigms. When the combined load of two or more tasks exceeds available attention capacity, performance on one or both tasks will deteriorate. Impairments in executive function lead to the emergence of dual-task paradigms. These tasks can be motor-cognitive, cognitive-cognitive, or motor-motor. A previous study observed a negative impact of dual-tasking on gait parameters in individuals with Type 2 DM. This suggests that impaired dual-task capacity in Type 2 DM may contribute to the higher incidence of falls in this population. This highlights the need for training that develops the relationship between cognitive abilities and motor skills when planning rehabilitation programs. In studies conducted on other high-fall-risk groups (stroke survivors, Parkinson's disease, and elderly individuals with a fall history), the effects of dual-task training on balance have been described. Improvements in balance were explained by physical parameters such as gait speed and step length. However, since cognitive factors significantly influence balance, in addition to physical components, it is necessary to investigate the underlying cognitive functions of balance following dual-task training. In a study of elderly adults with a history of falls, it was shown that dual-task training was effective in improving both balance and executive function. It is believed that improvements in executive function in elderly individuals may be an effective way to enhance balance. A 2023 meta-analysis showed that combined exercise training (aerobic + resistance) improved cognitive function, particularly executive function, in individuals with Type 2 DM. Studies conducted on healthy adults have demonstrated that participation in simultaneous combined exercise and cognitive training (dual-task training) improves cognition beyond the effects of the individual components. These combined effects may have an additional impact on brain and physiological functions. While many studies in the literature have shown the positive effects of combined exercise on executive function in Type 2 DM, there are few studies investigating whether dual-task training, which has shown positive effects in other populations, is more effective in improving balance and executive function in individuals with Type 2 DM. A 2018 study demonstrated that step training exercises were feasible and improved executive function in adults with Type 2 DM and cognitive complaints. However, the effect of dual-task training combined with aerobic, strength, and balance exercises in individuals with Type 2 DM has not been previously investigated.

The aim of this study is to investigate the effects of dual-task training on balance, exercise capacity, cognitive function, and quality of life in individuals with Type 2 DM. This project will focus on dual-task training in geriatric individuals with Type 2 DM. The effects of cognitive exercises combined with exercise training will be compared with combined exercise training alone, focusing on balance, aerobic capacity, cognitive function, and quality of life. One of the complications in geriatric individuals with Type 2 DM is the decline in dual-task performance, which leads to deviations in normal gait, difficulties in maintaining balance, and ultimately mobility restrictions. It is expected that dual-task training will enhance dual-task performance more than single-task training. Investigators anticipate that this improvement in performance will allow geriatric individuals to spend more independent time in daily activities, enhance their balance, and improve their quality of life. Unlike conventional physiotherapy approaches, dual-task training aims to improve both motor and cognitive performance simultaneously, thus saving time. It is expected that participation in different and engaging exercise training will increase exercise participation (sustainability) in the short and/or long term. Investigators expect that dual-task training in geriatric individuals with Type 2 DM will improve cognitive performance, contribute to functional capacity, and prevent falls.