View clinical trials related to Intermittent Claudication.
Filter by:Peripheral artery disease (PAD) results in blockages of arteries (blood vessels) and decreased blood flow to the legs. This may cause difficulty or pain with walking or other activities that use leg muscles. Exercise may help improve blood flow in the legs and improve the ability to walk. This research project will be conducted patients with PAD that require revascularization. The goal is to examine the effects of 3 months of exercise rehabilitation or neuromuscular stimulation on leg blood flow, physical function, quality of life and general health.
The literature has shown that supervised exercise programs for patients with PAD and who report intermittent claudication (IC) have improved health outcomes, but this is not locally available. Introducing the use of a pedometer may act as a method to encourage patients to continue on their independent exercise regimen. There is very little literature which has examined the effectiveness using pedometers as a measure of compliance within this population.
Some people experience a cramp-like leg pain during walking that is relieved only by rest. This is called intermittent claudication (IC) and it is a common symptom of peripheral arterial disease. Patients with IC struggle to walk, which in turn lowers their quality of life. The intensity of IC pain experienced during walking depends on several factors, including the type of footwear worn. For example, non-supportive shoes may make the calf muscles work harder during walking, leading to earlier and more-severe symptoms of IC. A member of the research team has developed a shoe that reduces the work done by the lower-leg muscles during walking. Preliminary data indicate that, when wearing these "unloading shoes", people with IC were able to walk further without pain as compared with when wearing a normal pair of shoes. The current project aims to provide further information on the usefulness and acceptability of these shoes. Forty people with IC will complete a set of three walking tests on two separate occasions; once whilst wearing the unloading shoes, and once whilst wearing some normal shoes. The participants will then be given a pair of unloading or normal shoes to wear for two weeks, after which we will collect information on how acceptable the shoes were to wear via a survey of all participants and one-to-one interviews with a subset of participants.
This study will assess the benefit of a neuromuscular electrical stimulation device in patients suffering from symptoms and effects of lower limb intermittent claudication.
Current evidence cannot explain the clinical features of peripheral arterial disease only from the principle of reduced blood flow. Explanations have therefore in addition been linked to mitochondrial dysfunction of skeletal muscles. This study will elucidate whether there is a relation between clinical variables of the different levels of arterial insufficiency in peripheral arterial disease and mitochondrial respiratory capacity.
This study will assess the adjuvant benefit of a neuromuscular electrical stimulation device to standard treatment of supervised exercise in patients suffering from symptoms and effects of lower limb Intermittent Claudication.
The purpose of this study is to evaluate the effectiveness of negative pressure incision management system (Prevena™ Incision Management System (PIMS) or ActiVAC® with the Prevena™ Dressings (Peel and Place™ or Customizable™), KCI) in the prevention of wound complications including surgical site infection (SSI) and non-infectious complications in patients undergoing vascular surgery with groin incisions.
1. To perform an observational analysis to determine if mean translesional gradient measurements (TLG) are associated with differences in clinical outcomes in patients with femoropopliteal arterial disease and claudication. 2. Hypothesis: Patients stratified by a residual translesional gradient </= 11 mmHg after peripheral revascularization or angiography alone will have better clinical outcomes than patients with TLG > 11 mmHg as assessed by six minute walk (6MW), walking impairment questionnaire scores (WIQ), ankle brachial index and need for repeat procedure at 6 months.
Peripheral arterial disease (PAD) due to lower limb arterial blockages affects significant proportion of the population with an age-adjusted prevalence of approximately 12%. Claudication induced walking impairment can be debilitating and adversely affects social, leisure, and occupational activities in many patients and is associated with higher mortality among PAD patients. Unfortunately, very few effective therapies are available to improve leg symptoms and exercise performance in PAD patients. Surgery is the last resort but results vary. Therefore, there is a large unmet need for medical therapies that can improve long-term walking performance and functional capacity in PAD patients. Danshen and Gegen (D&G) are commonly used Chinese herbal medicine in the treatment of cardiovascular diseases. D&G study has been extensively researched and continued at The Chinese University of Hong Kong (CUHK) for their antioxidative and vasodilator properties, modulate anti-atherosclerosis and improve arthrogenic athophysiology. Three randomized trials were completed at the CUHK showing D&G improved lipid profile, vascular function and thinned down the internal layer of the carotid artery. One may expect the same with lower limb arteries. Extensive clinical experiences of use in China and Hong Kong indicated that D&G are well tolerated and safe. This project is a randomized control trial to determine the efficacy and Safety of D&G in improving the functional capacity & QoL in patients with symptomatic PAD. The results of this study have the potential to change local and international practice in providing a much needed therapeutic option in the treatment of PAD.
Twenty patients will be recruited to CLEAR. Ten will be randomized to the treatment arm (Cilostazol) and tenwill be randomized to the control group. Patients randomized to the treatment arm will receive Cilostazol for 90 days. The primary purpose of this study is to collect quality of life data on patients undergoing peripheral revascularization in order to determine the sample size required to adequately power a trial of Cilostazol versus usual care without Cilostazol and its effect on quality of life.