View clinical trials related to Diabetic Neuropathy.
Filter by:A multi-centers, placebo-controlled, randomized, double-blinded, pilot clinical trial is designed to evaluate the safety of the DA-3030 injection and to explore the efficacy for Neuropathic pain.
This is an amendment to study posting NCT00970060. Based on preliminary results from that study is was determined there needs to be a follow-up exercise intervention study. This study has two additional aims than the original study. The objectives are to determine is a prolonged exercise routine, 16-weeks, paired with refined measures of effectiveness positively impact people with diabetic neuropathy.
The aim of the study is to examine the suitability to detect diabetic neuropathy using NIR and impedance.
The purpose of this study is to assess whether, in individuals with diabetic neuropathy, a low-fat, vegan diet in combination with a vitamin B12 supplement improves pain, sensation and other subjective symptoms, more effectively than a vitamin B12 supplement with no diet changes. The principal measure is pain as measured by the following assessment tools: Michigan Neuropathy Screening Instrument, Norfolk Quality of Life Questionnaire, Neuropathy Impairment Score - Lower Limbs, Neuropathy Total Symptom Score, Neuropathy Pain Scale, McGill Pain Questionnaire and Global Impression Scale. The study duration is 20 weeks. This study also examines the effects of a low-fat, vegan diet on mood, using the Center for Epidemiologic Studies Depression Scale-Revised, and the Beck Depression Inventory.
A clinical outcomes study measuring reduction in pain and numbness experienced in four types of peripheral neuropathy patients during 60 day administration of the an amino acid formulation.
CACIPLIQ20 is a nanopolymer engineered to mimic glycosaminoglycans such as heparan sulfates. Glycosaminoglycans are implied 1) in the stabilization of the micro-environment of cells, known as extracellular matrix, by binding to structural proteins, and 2) in the cell communication by protecting growth factors. At the site of a lesion, glycosaminoglycans are degraded, thereby the extracellular matrix is disorganized and the tissue is destroyed. By replacing damaged glycosaminoglycans, CACIPLIQ20 provides a protective function and restores the matrix architecture and the cell communication, a process known as Matrix Therapy. As for now, three non-controlled pilot studies have been carried out on small populations. They have shown a substantial enhancement of chronic wounds state after treatment with CACIPLIQ20. Therefore, the purpose of this new controlled study is to determine whether CACIPLIQ20 can shorten diabetic neuropathic plantar ulcers healing when the off-loading is mandatory. The study's main hypothesis is that CACIPLIQ20 application on a non-healing diabetic plantar ulcer in an off-loading mandatory context would reinitiate the natural process of tissue regeneration and lead to total wound closure faster than following standard wound care.
Despite the long tradition of complementary and alternative medicine (CAM) therapies there are hardly any interventional trials on type 2 diabetes mellitus. Hence this pilot study aims to investigate the influence of a two weeks integrative inpatient therapy on the quality of life in 50 patients suffering from diabetic neuropathy. Integrative treatment includes aspects of conventional and traditional European and Chinese medicine, mind-body medicine, physical therapy and lifestyle modification (nutrition advices, stress management and exercise training). The observational design intends four measurement points: tree months before (T0), directly before (T1), directly after treatment (T2) and three months follow-up (T3). The subjective evaluation of the neuropathy-related quality of life was combined with neurophysiologic instruments (QST), to measure neuropathic symptoms. Also pain intensity, locus of control, interpretation of illness, coping style, anxiety/depression, life satisfaction and several biomarkers (HbA1c, ABI, WHR and BMI) are measured. In addition a qualitative interview should give a view to patient perspective of therapy process.
The use of regional anesthesia for nerve block in diabetic patients with peripheral neuropathy is currently made on a case-by-case basis, also remains underlying uncertainty regarding the preferred technique and the likelihood of block-related nerve injury. For this many diabetic patients with otherwise healthy nerves may receive general anesthesia instead of regional anesthesia, thus giving up the benefits associated with the latter technique, including a decrease in health complications and superior analgesia following the operation. Ultrasound is used to identify the target nerve and guide needle insertion for nerve blocks, may be a useful tool to detect the presence and severity of neuropathy prior to block placement, a recent study demonstrated a statistically significant increase in the sonographic cross-sectional area of the posterior tibial nerve (PTN) in all diabetic patients who had abnormal motor transmission on nerve conduction studies. For regional anesthesiologists, the ultimate goal of detecting peripheral neuropathy and in particular, diabetic neuropathy by US is to avoid nerve injury. To do so, the association between US-detected diabetic neuropathy and block-related nerve damage must be first established, hence the purpose of this study. We aim to examine whether the cross-sectional area of PTN as assessed by preoperative US can predict nerve injury as assessed by worsening nerve conduction studies following PTN block inpatients scheduled to receive an ankle block. A further subgroup analysis will be performed in diabetic patients. We hypothesize that the cross sectional area of the PTN will correlate with motor conduction velocity on nerve conduction studies (NCS) following PTN block in patients with peripheral neuropathy. All eligible patients will undergo NCS to confirm or exclude distal neuropathy. Patients without neuropathy will be excluded from further participation in this study. Also excluded will be diabetic patients with neuropathy caused by genetic, metabolic and inflammatory diseases as well as toxic agents and drug induced. A systematic US examination of the PTN will be performed for all patients. After Block administration at surgery day the block successes will be assessed and for the purposes of the present study, patients in whom the block was not successful will be excluded from further intervention and data analyses. Eight weeks after surgery, all study patients will return to hospital for repeat NCS and US.
The purpose of this study is to evaluate the analgesic efficacy, safety and tolerability of multiple doses of JNJ-42160443 when administered as a single, subcutaneous injection every 28 days to patients with diabetic painful neuropathy (a disease condition in diabetic patients that affects all peripheral nerves including pain fibers, motor neurons and the autonomic nervous system).
The purpose of this study is to describe the effect of a 10-week exercise program on nerve function and number of nerve fibers in the skin in the lower leg in people with diabetic neuropathy.