Diabetic Peripheral Neuropathy (DPN) Clinical Trial
Official title:
Effects of BRACE (Balance, Resistance, Aerobic and Cognitive Exercise) Protocol for Balance Training in Patients With Diabetic Peripheral Neuropathy.
The purpose of the study is to determine the effects of the BRACE( Balance, Resistance, Aerobic and Cognitive Exercise) protocol for balance training in patients with Diabetic Peripheral Neuropathy. A Randomized Control Trial is being conducted at Railways General Hospital, Rawalpindi. The sample size was calculated through the open epi tool. A total of 60 patients are divided into two groups, 30 participants in the experimental group and 30 participants in the control group. The study duration will be six months. The sampling technique applied was simple random sampling for recruitment and group randomization using the sealed envelope method. Patients with the age of 40-65 years having type II diabetes for more than 5 years are included in the study. Tools used in the study are Berg balance scale, timed up and go test, functional reach test, Montreal Cognitive Assessment scale (MOCA), and force plate. Data will be analyzed through Statistical Package for the Social Sciences (SPSS), version 21.
American Diabetic Association (ADA) defined Diabetes mellitus as a group of metabolic diseases characterized by hyperglycemia resulting from defects in insulin secretion, insulin action, or both. The chronic hyperglycemia of diabetes is associated with dysfunction of various organs, especially the eyes, kidneys, nerves, heart, and blood vessels. Most common among the neuropathies are chronic sensorimotor distal symmetric polyneuropathy (DPN) and autonomic neuropathies. According to ADA(American Diabetes Association), DPN(Diabetic Peripheral Neuropathy) is "the presence of symptoms and/or signs of peripheral nerve dysfunction in people with diabetes after exclusion of other causes. It is estimated that 60% to 70% of individuals with diabetes have mild to severe forms of nervous system damage. DPN(Diabetic Peripheral Neuropathy) causes decreased sensation, proprioception, reflexes, and strength in the lower extremities, leading to balance dysfunction. Physical therapy interventions utilized to reduce the balance dysfunction can range from restoration of the health of the neurons to sensory integration to compensatory strategies. Various treatment protocols include improving circulation, the guided practice of integrating internal and external sensory input, education on sensation loss and fall risk, instruction on home modifications, and introduction of assistive devices to minimize balance dysfunction. A systematic and evidence-based search of relevant literature was performed by utilizing PubMed and Google Scholar as search engines. Search term for the initial literature review was Diabetes mellitus, the prevalence of DPN(diabetic peripheral neuropathy), causes of peripheral neuropathies and loss of balance, the pathophysiology of diabetes-related peripheral neuropathy, treatment options for balance training, strengthening lower extremities, aerobics, cognitive approach. The search was limited to papers in English preferably published since 2000 with full text available. Different studies were available regarding balance exercises and their effects but limited data was available regarding BRACE ( Balance, Resistance, Anaerobic, and Cognitive Exercise) protocol as a whole in recent years. Balance exercises are feasible and safe and have the potential to improve balance and gait. These should be used as supportive therapy for DPN patients. Lower extremity resistance (strengthening) exercises are fairly recommended for clinical use in treating balance dysfunction in patients with DPN than monochromatic infrared energy therapy, vibrating insoles, and use of a cane. Previously, walking and weight-bearing were considered contraindicated in DPN patients to avoid foot ulcers, deformity, or fall risk. Emerging research has revealed positive adaptations in response to overload stress in these people, including evidence for peripheral neuroplasticity in animal models and early clinical trials. According to WHO estimation, a number of individuals approximately 47 million worldwide have cognitive impairments which will increase to 75 million by 2030. A 2 years longitudinal study in Korea showed a significant association between cognitive decline and physical activity. Pain interference may be reduced following an aerobic exercise intervention among people with painful DPN, without a change in pain intensity. Although, multiples researches have shown the effects of particular interventions on DPN still there is a lack of multi-component interventional studies to show the effects on balance issues. ;
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