View clinical trials related to Diabetic Angiopathies.
Filter by:This study evaluates the effect of additional hyperbaric oxygen therapy after lower extremity amputation. The patients will be randomized after amputation to either a treatment group receiving hyperbaric oxygen therapy, or control group.
The purpose of this prospective interventional study is to compare patient experience, ocular surface irritation, and bacterial colony counts and microbial spectrum between povidine iodine and aqueous chlorhexidine as ocular surface antiseptic prior to intravitreal injection
To explore the possible implications of HLA-DRB1*04 alleles in patients with type 2 DM and macroangiopathy
Adipose-derived regenerative cells (ADRC) will be extracted from lipoaspirate by enzymatic digestion. 10 mL of autologous ADRC suspension injected intramuscularly, close to the site of muscle injury. All patients will receive cell therapy. This is a single arm study with no control.
This study is part of a research project for a University MD Program. This is an observational study aimed at comparing the differences in bone metabolism and microcirculation in patients with type 2 diabetes mellitus (with and without diabetic neuropathy and Charcot foot) with healthy subjects. Diabetes is gradually becoming a global epidemic along with its associated complications. Diabetes can affect several systems in our body particularly the eyes, nerves and the kidneys. The damaging effects occur at the level of the small blood vessels (microcirculation) that supply these vital structures. Normally, the inner lining of these blood vessels (endothelium) plays a very important role in maintaining adequate blood flow. The endothelium releases a chemical substance called nitric oxide, which relaxes these small blood vessels thereby ensuring sufficient blood supply to these key structures. Nitric oxide also prevents blockage of these vessels. Any form of metabolic stress like hyperglycaemia (raised blood sugar as seen in diabetes) can cause abnormal changes in the normal behaviour of the endothelium (endothelial dysfunction). Therefore hyperglycaemia promotes endothelial dysfunction by lowering nitric oxide levels, which may lead to diabetic complications like diabetic retinopathy (eye damage), nephropathy (kidney damage) or neuropathy (nerve damage). In addition, patients with diabetes also suffer from osteoporosis (thinning of bones). Osteoporosis is a bone disorder characterised by a reduction in bone mineral content leading to an increased risk of developing fractures. The increased risk of fractures in patients with type 2 diabetes is attributed to poor bone quality resulting from the harmful effects of high blood glucose. Studies have also shown that nitric oxide has a bone protective effect as demonstrated by its ability to prevent bone fragmentation and improve bone strength. Study of markers of endothelial function and bone metabolism will facilitate a better understanding about the origin of diabetic complications. This will aid in the development of novel therapeutic agents that target the harmful triggers in diabetes and eventually may prevent and retard the onset of the debilitating diabetic complications.
The blood concentration of the protein RANKL could be predictive of the calcification of the leg arteries, which is a major complication occurring during diabetes. The objective of the DIACART study is to show that blood RANKL concentration predict the progression of calcification of the leg arteries in diabetic patients, independently of other cardiovascular risk factors.
The purpose of this clinical study is to test whether or not patients treated with HBOT for diabetic foot ulcers will demonstrate measurable changes of the blood vessel function during the course of HBOT treatments. , i.e. an expected increase in the reactive hyperemic index (RHI) measured by the peripheral arterial tonometry (PAT).
Background The prevalence and incidence of type 2 diabetes is increasing globally. A common complication of diabetes is the disease of the blood vessels, vascular diseases, which can cause disorders like myocardial infarction, stroke and kidney failure. Methods to detect early subclinical stages of macro-vascular disease are not yet available in a clinical setting. Hypothesis Arterial stiffness, an easy accessible vascular parameter, may provide additional prognostic information when evaluating risk profile for patients with diabetes type 2. Aim The aim of the project is to investigate the association between arterial stiffness and the occurrence and development of vascular complications in patients with type 2 diabetes. Specifically we want to investigate: 1. in a cross-sectional study, the association between arterial stiffness and subclinical atherosclerotic changes in the coronary arteries assessed by computed tomography (CT) and 2. in a longitudinal study, the predictive value of arterial stiffness on the development of subclinical cerebrovascular changes assessed by magnetic resonance imaging (MRI) and nephropathy assessed by urine analysis. Methods The study population consists of 100 patients with newly diagnosed type 2 diabetes and 100 age- and sex matched controls. The study participants were enrolled between 2008-2011 and extensively characterized i.a. with arterial stiffness (pulse wave velocity), MRI (white matter lesions and cerebral infarctions) and urine analysis (albuminuria). In this study we will enrol the same patients in a 5 year follow-up study in order to repeat above mentioned measurements. Furthermore, CT is used to investigate the coronary plaque burden of the participants (Agatston Score and Segment Involvement Score). Results and Perspective This project adds new insight into arterial stiffness as a predictor of the progression of micro- and macrovascular complications in patients with type 2 diabetes, and can potentially improve risk stratification and early strategies of intervention in this patient group.
To evaluate the efficacy of combination therapy with ranibizumab (RBZ) and panretinal photocoagulation (PRP) versus PRP alone in patients with treatment-naive bilateral proliferative diabetic retinopathy (PDR) as measured by mean change in visual acuity (VA), mean change in central retinal thickness (CRT) as measured by time-domain optic coherence tomography (TD-OCT) and incidence of vitreous hemorrhage (VH).
Intravitreal injections of pegaptanib every 4 weeks will be efficacious in treating Diabetic Macular Edema (DME), as compared to injections every 6 weeks.