View clinical trials related to Intermittent Claudication.
Filter by:Lumbar spinal stenosis (LSS) is characterized by low back and leg pain, walking disturbances and sometimes instability, impaired balance and numbness of the lower limbs. This condition is caused by degenerative changes in the lumbar spine including bulging discs, osteophytes from the arthritic facet joints and thickened ligamentum flavum which together cause narrowing of the spinal canal and thus affect the lumbar nerve roots. This diagnosis is attracting more and more interest due to the aging population with increasing demands for physical activity. LSS is the most common indication for spinal surgery. The surgical treatment involves relieving the pressure from the nerve structures in the stenotic segments through a posterior approach. In several studies, surgery has been shown to have better results than the conservative treatment. However, methodological difficulties and a large proportion of cross-over in these studies indicate that there is still uncertainty about whether surgery is generally a better option. It has been speculated whether the compression of the nerve roots causes in some patients permanent nerve damage with muscle denervation, while in other cases a reinnervation and recovery of the function may occur. Results from neurography and EMG studies have been shown these modalities to have a possible predictive value for the natural process of LSS. If a neurophysiological examination could be able to predict which patients are able to benefit from surgery, many patients could avoid surgery and the risks involved in it. The aim of this study is primarily to evaluate whether surgery with decompression leads to superior results than the non-surgical treatment with structured physical therapy. The main secondary aim is to investigate by means of Neurography and EMG, whether the degree of neurological affection caused by nerve compression affects the outcome of surgery for LSS.
The study is designed to evaluate the bioequivalency between the test formulations of extended-release tablet of cilostazol (PMR) administered once-daily and the reference formulation of immediate-release tablet of cilostazol (Cilostazol) administered twice-daily in normal healthy male and female subjects under fasting conditions.
The purpose of this trial is to evaluate the safety and efficacy of sonodynamic therapy (SDT) on reducing atherosclerotic plaques inflammation among patients with symptomatic femoropopliteal peripheral artery disease.
Intermittent claudication (IC) is caused by a blockage in the artery of the leg, causing muscle pain. Although some evidence of the efficacy of neuromuscular electrical stimulation (NMES) in the management of patients with IC exists, further high quality research is required. This proposed study is vital to identify the contribution of clinical change using NMES, compared to the current gold standard recommended practice of supervised exercise therapy (SET) and, actual standard of care offered in the majority of the UK and Ireland, including best medical therapy (BMT). The device is expected to increase the walking distance in patients with intermittent claudication (IC), and therefore have a benefit on the same when provided in addition to supervised exercise programmes. It is also expected to cause a reduction in pain symptoms and reduced likelihood of major intervention in late stage peripheral arterial disease (PAD). The principal research objective is to assess the clinical efficacy of a neuromuscular electrical stimulation (NMES) device as an adjunct to the local standard care that is available at the study randomisation sites, in order to improve walking distance in patients with intermittent claudication (IC).
The overall aim of the study is to evaluate a nurse-led intervention (person-centered follow up and health promotion) program in comparison to standard follow up for patients treated with surgical or endovascular revascularization of Intermittent Claudication.
The ENTRAP Study is a prospective, multi-center, non-randomized, single-arm, study with follow-up to 30 days to determine the acute safety, acute device performance and clinical performance of the Vanguard IEP Peripheral Balloon Angioplasty System with Integrated Embolic Protection. The Vanguard IEP Peripheral Balloon Angioplasty System with Integrated Embolic Protection is indicated for peripheral vascular percutaneous transluminal angioplasty (PTA) and capture and removal of embolic material during angioplasty for the femoral, iliac, popliteal and profunda arteries.
To our knowledge, the measurement of the transcutaneous oxygen pressure during walking is the only continuous method that estimates the importance of ischemia, bilaterally and segment of limb by segment of limb. The determination of the lactates concentration, with micro method from earlobe sampling, is very widely validated in physiology and exercise physiopathology; and it is widely used, by laboratories, for exercise investigation in athletes. We use it in routine to evaluate the presence of functional limitation during tcpO2 tests on a treadmill. The present study hypothesises a significant relationship between lactatemia variation (difference between lactatemia after 3 minutes of recovery from walking and the value at rest) and tcpO2 "decrease from rest of oxygen pressure (DROP) values for patients with peripheral artery disease (PAD).
Peripheral Arterial disease is a common condition which causes narrowing of the arteries. The most common symptom that patients with PAD experience is Intermittent Claudication (IC), pain in the lower limb(s) on exertion, which is relieved by rest. IC reduces patients' quality of life (QoL) by limiting their ability to walk and engage in daily activities. Regular exercise and physical activity (PA) are central to the management of PAD and help to improve walking distances and reduce the risks associated with PAD such as heart attack and stroke. However, exercise and PA in this population is often limited due to pain. Investigators have shown that Transcutaneous Electrical Nerve Stimulation (TENS) can help to reduce pain and increase walking distance in patients with PAD. Investigators have also shown that educating patients about their condition and helping them to set goals has the potential to increase PA, and quality of life. This study will examine the feasibility of designing a definitive trial that investigates whether TENS can improve the physical activity of patients with PAD when delivered alone and/or alongside a patient education programme.
This study is designed to determine whether LLG783 displays the clinical safety and efficacy profile, after multiple i.v. doses, to support further development in patients with PAD and intermittent claudication.
The medical device being examined in this study is the Bard® LifeStent® 5F Vascular Stent System. It is intended for use in patients who suffer from peripheral artery disease (PAD). PAD is generally associated with blocked arteries of the legs. The superficial femoral artery (SFA) and popliteal artery are common locations for this problem to develop. The patient may experience pain or discomfort in the leg that occurs when walking or have other complications associated with wound healing. The purpose of this study is to collect information to assess the deliverability, clinical utility, safety and effectiveness of the Bard® LifeStent® 5F Vascular Stent System.