13 Clinical Trials for Various Conditions
In this study the effects of diabetic peripheral neuropathy will be assessed on balance control, balance recovery, and muscle electrical activity in adults over 50 years. Aim 1: Determine muscle activity and balance control during a sit-to-stand in adults age above 50 with and without diabetic peripheral neuropathy. Aim 2: Assess local balance recovery and latency responses to lateral surface perturbation during quiet standing.
Type 2 diabetes results in a host of neuromuscular, muscular, and autonomic system impairments that accelerate age-associated limitations in functional independence and the risk of falls. Diabetic peripheral neuropathy (DPN) contributes to functional declines in balance and mobility because of limitations metabolic abnormalities. The constellation of impairments accompanying type 2 diabetes diminishes muscle function and performance including strength and power. Loss of strength at higher speeds of movement (deficit in power) occurs in neural activation of muscles, changes in muscle properties, and through in older individuals with DPN compared to older controls. Consequently, this deficit in speed dependent muscle power production leads to limitations in rapidly responding to sudden loss of balance stability to prevent falling. The goal of this pilot research program is to determine the feasibility and effectiveness of a mechanism-based therapeutic intervention fro improving balance and mobility functions and preventing falls in older adults with DPN. The investigators pan to use the results from this pilot study to design and implement a larger randomized control trial.
The purpose of this research study is to determine if Metanx improves sensory neuropathy in persons with Type 2 diabetes. Metanx is a medical food available with a prescription from a physician. It consists of L-methylfolate, Pyridoxal 5'-phosphate, and Methylcobalamin, which are the active forms of folate, vitamin B6, and vitamin B12, respectively. Subjects will be randomly assigned to receive either Metanx or placebo for 6 months.
This study will look at the effects of CagriSema in people with both type 2 diabetes and painful diabetic peripheral neuropathy, compared to placebo. Participants will either get an active medicine or a "dummy" medicine (placebo). Which treatment participants get is decided by chance. In this study the active, investigational medicine is called CagriSema. Doctors cannot yet prescribe CagriSema. For each participant, the study will last for about 10 months.
Will participants with painful lower extremity diabetic peripheral neuropathy (DPN) that are treated with high frequency spinal cord stimulation (HF10 SCS) have improvements in lower extremity peripheral nerve function?
To evaluate the efficacy of multiple dose levels of NYX-2925 versus placebo in treating the neuropathic pain associated with Diabetic Peripheral Neuropathy.
Three pieces of information lead to the basis for this study: 1. Individuals with Type-2 diabetes commonly develop peripheral neuropathy. 2. Increased production of the hormone amylin occurs in individuals who have Type-2 diabetes. 3. Aggregations of amylin was found in the peripheral vasculature of rats that overexpressed human amylin. The purpose of this study is to determine whether a correlation exists between the amount of amylin present in the upper extremities of human subjects with Type-2 diabetes and the extent to which symptoms of peripheral neuropathy are expressed in those subjects. The investigators will be testing this by initially collecting blood and skin biopsy samples from subjects, followed by measuring patient sensation and pain responses to heat, cold, and pressure in the upper extremities.
The purpose of this study is to evaluate the efficacy of the standard of care revascularization of the lower extremity with the addition of revascularization of the lateral plantar artery and anterior pedal loop of the foot as treatment for diabetic peripheral neuropathy.
This study will look at whether or not the medication exenatide improves signs and symptoms of diabetic peripheral neuropathy in people with type 2 diabetes and mild to moderate diabetic peripheral neuropathy.
Peripheral arterial disease (PAD) affects over 230 million adults worldwide and is a highly morbid, costly, and disabling condition. Ischemic leg pain drives disability in PAD patients and results from oxygen supply-demand mismatch, autonomic dysfunction, and muscle breakdown. This leg pain, which is unresponsive to traditional pharmacotherapy, limits the patient's tolerance to exercise, which is an important disease-modifying intervention. Spinal cord stimulation is a well-established therapy for medically intractable pain, including painful diabetic neuropathy (PDN) and ischemic pain, but is not part of the standard-of-care for PAD despite limited promising clinical data. Early studies used first-generation, tonic stimulation devices, but with these it was impossible to perform sham-controlled trials to test the treatment. Since then, new types of waveform treatments, including high-frequency spinal cord stimulation (SCS), have been shown to be more effective in the treatment of intractable pain. While high-frequency SCS is approved for PDN treatment, it has never been tested in the treatment of claudication pain from PAD. This study will enroll up to 15 participants between the ages of 19 and 89 who have PAD and PDN and are successfully implanted with a permanent SCS. Twelve weeks after SCS implantation, participants will receive two weeks of stimulation and two weeks of sham intervention, in random starting order. Blood flow, blood pressure, skin oxygen levels, and participant reported pain int the lower extremities will be assessed before SCS implantation, 12 weeks after SCS implantation and during each of the treatment periods. Participants will also complete a quality of life survey at the same time points. Comparisons of these measurements with the baseline and post-implantation measurements to determine the effects of SCS.
This is a 12 week, 2-arm, blinded, single-site, placebo-controlled Phase II study in subjects with Type II Diabetes and painful peripheral neuropathy.
The objective of the study is to develop a peer support program that helps improve ulcer care in patients with a diabetic foot ulcer (DFU).Diabetes, peripheral arterial disease (PAD), foot ulceration, and subsequent amputation are unevenly patterned in terms of racial/ethnicity, socioeconomic status, health insurance, and geographic area. The project will identify opportunities to reduce health disparities among economically marginalized patients regarding DFU outcomes.
The objective of this study is to investigate the safety and efficacy of an investigational drug, V3381, for the treatment of diabetic peripheral neuropathic (DPN) pain (pain in one's feet and legs, or even in one's hands and arms, sometimes experienced by people with diabetes). An investigational drug is one that is not approved by the United States Food and Drug Administration (FDA) and/or Health Canada.