View clinical trials related to Peripheral Vascular Diseases.
Filter by:Peripheral artery disease (PAD) is a disease in which plaque builds up in the arteries that carry blood to the head, organs, and limbs. PAD usually occurs in the arteries in the legs, but can affect any arteries. Over time, plaque can harden and narrow the arteries which limits the flow of oxygen-rich blood to organs and other parts of the body. Blocked blood flow to the arteries can cause pain and numbness. The pain is usually worse with exercise and gets better with rest. PAD can raise the risk of getting an infection which could lead to tissue death and amputation. This study is investigating whether granulocyte-macrophage colony stimulating factor (GM-CSF) improves symptoms and blood flow in people with PAD. GM-CSF is a drug that is used to stimulate the bone marrow to release stem cells. Participants in the study will be randomly selected to receive GM-CSF or a placebo. After a four-week screening phase, participants will receive injections of GM-CSF or a placebo three times a week for three-weeks. Three months later, participants will again receive injections of GM-CSF or placebo three times a week for three-weeks. At six months, the study team will follow up to see if the group that received GM-CSF had more improvement than the group that received placebo.
Peripheral arterial disease affects around 25% of the UK population aged over 55. Left untreated it can lead to debilitating pain, gangrene, amputation and death. It most commonly affects the lower limbs and in the earlier stages of the disease patients can present with a symptom known as intermittent claudication; pain felt in the legs which stops the patient from walking past a certain distance. Current National Institute for Healthcare and Excellence (NICE) guidelines recommend Supervised Exercise as first line treatment for patients with peripheral arterial disease presenting with intermittent claudication. Supervised exercise employs behaviour changing techniques which enable the patient to modify their lifestyles, improving their claudication symptoms, quality of life and reducing their cardiovascular risk. Despite this treatment being significantly more cost-effective than often employed complex endovascular management, most institutions don't offer such programmes citing lack of resources and compliance from clinicians and patients alike. The investigators propose a more cost-effective, resource-savvy solution in the form of REmotely SuPervised ExerCise Training (RESPECT). This allows the patient to exercise in the convenience of their own home, at a time of their choosing but still be supervised via fitness tracker technology and an online fitness platform. This randomised controlled trial will attempt to prove its' effectiveness in increasing claudication distance, improving functional ability, decreasing cardiovascular risk and improving quality of life whilst being more cost-effective than the currently recognised national first line treatment. This trial has the potential to revolutionise the management of patients with peripheral arterial disease.
Allogenic platelet lysate will be injected in the gastrocnemius of patients with peripheral arterial disease (PAD)
The Pedra Technologies' PedraTM device is a non-invasive, diagnostic device intended to measure foot perfusion by assessing blood flow. The PedraTM device comprises a compact instrument console connected to a sensor that is pasted onto the patient's foot during perfusion assessment. Through skin contact, the device is able to monitor tissue perfusion at depths of up to 7.5mm. The monitor console contains opto-electronic instrumentation including coherent infrared light sources, photo detectors, and display/control electronics. The sensor comprises passive fiber-optic conduits, which transfer infrared light from the console to the patient, and relays scattered light from the patient back to the console. The intensity of light emitted from the sensor is less than 3 mW, well within the safety envelope of Class I laser systems and comparable (or lower than) other commercially available devices such as laser Doppler systems. The sole point of contact with the patient is a layer of medical grade adhesive tape, which is used to paste the flat sensor onto intact skin.
Patients with peripheral arterial disease often have walking impairment due to insufficient oxygen supply to lower extremity skeletal muscle. In an aging rat model, we have previously shown that daily calf muscle stretching improves endothelium-dependent dilation of soleus muscle arterioles and blood flow during exercise. The effect of muscle stretching on endothelial function and walking distance in patients with peripheral arterial disease is unknown. We performed a prospective, randomized, non-blinded, crossover study in 13 patients with stable symptomatic peripheral artery disease. Patients were randomized to undergo either 4 weeks of passive calf muscle stretching (ankle dorsiflexion splints applied 30 minutes/day, 5 days/week) followed by 4 weeks of no muscle stretching (control group) and vice versa. Endothelium-dependent flow-mediated dilation and endothelium- independent nitroglycerin-induced dilation of the popliteal artery and a 6 minute walk test were evaluated at baseline and after each 4 week treatment interval. Patients crossed over to the other treatment arm after 4 weeks and endothelium-dependent flow-mediated dilation and endothelium- independent nitroglycerin-induced dilation of the popliteal artery and the 6 minute walk test were repeated.
The BeGraft Plus PMCF Trial investigates the efficacy of the BeGraft Peripheral Plus Stent Graft System in the treatment of iliac stenotic or occlusive lesions (TASC A, B, C and D). An expected total of 20 patients with TASC A and B lesions and an expected total of 50 patients with TASC C and D lesions will be treated. The lesion is located within the native Iliac arteries. Prior to stenting with the BeGraft Peripheral Plus Stent Graft System, pre-dilatation can be performed according to the physician's discretion. Also post-dilatation can be performed according to the physician's discretion. Patients will be invited for a follow-up visit at 1, 6, 12, 24 and 36- month post-procedure. The primary efficacy endpoint of the study is the primary patency at 12 months. The primary safety endpoint is the freedom of periprocedural Serious Adverse Events (SAEs). Secondary endpoint include primary patency rate at 1, 6, 24, and 36-month, stent graft occlusion rate at pre-discharge,1, 6, 24, and 36 month follow-up, anke-brachial index (ABI) at 1, 6, 12, 24 and 36-month follow-up, amputation rate at 1, 6, 12, 24 and 36-month follow-up, performance success rate, freedom from target lesion revascularization (TLR), technical success and clinical success at 1, 6, 12, 24 and 36-month follow-up. The extension in the Begraft Plus protocol is being made to evaluate the long-term safety and efficacy of the BeGraft Peripheral Plus Stent Graft.
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.
The MODIFY Pilot clinical study in Europe looks to evaluate acute and procedural outcomes using a new calcium atherectomy and modification solution in patients with balloon resistant calcified lesions in infrainguinal disease. The intent is to both debulk and modify the vessel to restore blood flow, improve vessel compliance and drive better outcomes. The MODIFY Pilot study will evaluate safety and performance measurements.
In this pilot clinical study the investigators propose to conduct a prospective, randomized, double-blinded, placebo-controlled clinical trial for 30 days for participants with critical limb ischemia (CLI) who undergo a major (above-knee or below-knee) lower extremity amputation. By exploring the primary endpoints we aim to determine whether NAC can affect amputation stump perfusion and healing. Based on preclinical data, the investigators hypothesize that NAC will augment both amputation stump perfusion as well as healing. The investigators will utilize the data from this trial to determine the true effect size that is necessary for a larger clinical trial to determine the clinical efficacy of NAC is healing surgical sites such as major lower extremity amputation stumps.
The main purpose of this study is to see if it is safe and feasible to use cardiac rehabilitation (CR) in patients with peripheral arterial disease (PAD) after successful revascularization. This study will also test if CR improves quality of life and health outcomes in PAD patients.