View clinical trials related to Neuropathy;Peripheral.
Filter by:To determine the safety and efficacy of Amniotic and Umbilical Cord Tissue for the treatment of the following condition categories: Orthopedic, Neurologic, Urologic, Autoimmune, Renal, Cardiac and Pulmonary Conditions. The hypotheses are that the treatments are not only extremely safe, but also statistically beneficial for all conditions. Outcomes will be determined by numerous valid outcome instruments that compile general quality of life information along with condition-specific information as well.
Chemotherapy-induced peripheral neuropathy (CIPN) is a highly prevalent and severe side-effect of taxane chemotherapy, often used to treat breast cancer. Unfortunately there are very limited treatments for CIPN. This is a phase II randomized controlled trial to test the preliminary efficacy of exercise vs. nutrition education on CIPN, to systematically investigate the potential roles of inflammation and interoception, and to obtain data with a more accurate effect size to inform a future study.
The main purpose of this study is to compare the change in pain intensity during treatment with a sodium-channel blocker (lacosamide) in patients with peripheral neuropathic pain with and without the irritable nociceptor phenotype.
Feasibility study to examine the preventative ability of massage therapy on paclitaxel induced peripheral neuropathy in breast cancer
This pilot early phase I trial studies how well diffusion tensor imaging works in predicting development of chemotherapy induced peripheral neuropathy in patients with breast cancer. Diffusion tensor imaging may help to get better pictures of the nerves of feet and lower legs before and after chemotherapy treatment and may help to predict the risk of developing peripheral neuropathy.
Diabetic foot ulceration (DFU) is a common and largely preventable complication. While most of these ulcers can be treated successfully, some will persist and become infected. Ultimately, nearly one fifth of patients with infected lower-extremity diabetic ulcers will require amputation of the affected limb.Prevention by identifying people at higher risk is the key for better clinical management of such patients. It is not uncommon for patients suffering from diabetes to have concomitant lower extremity edema or even venous insufficiency and they subsequently may benefit from graduated compression. However, because of the common association of peripheral arterial disease (PAD) in patients with diabetes, most clinicians are reluctant to apply compressive dressings in fear of exacerbating the symptoms of PAD and the possible resulting gangrene. A novel micro-mobile foot compression device named Footbeat (AVEX, Inc.) offers alternative means providing lower extremity compression. This device is portable and can be used in a standard diabetic shoes on daily basis, which in turn may improve venous blood and relief from concomitant lower extremity edema. In addition, potential improvement in lower extremity blood flow in response to regular foot compression, could improve balance, gait, skin perfusion, plantar sensation, and overall daily physical activities (e.g. number of taken steps per day, duration of standing, etc). The purpose of this study is to conduct an observational study with N=30 ambulatory patients with diabetes and loss of protective sensation to assess whether this micro-mobile foot compression device can help improving motor function, lower extremity perfusion, and vascular health.
The aim of the study is to evaluate voltage gated sodium channel (NaV1.7) dependent pain phenomena in neuropathic pain and chronic postoperative pain.
This is a feasibility pilot study to initiate a research program to assess the effects of exercise on chemotherapy-induced peripheral neuropathy (numbness, tingling, and pain in the hands and feet).
The study hypothesis is that spinal cord stimulation (SCS) combined with virtual leg illumination (provided through a wearable headset (OculusRift, OculusVR, Irvine, CA) and a custom-designed virtual reality leg scenario) will lead to controlled analgesia induction, boosting analgesic effects obtained with standard SCS treatments and will further be associated with changes in the perception of the affected body part.