43 Clinical Trials for Various Conditions
Below-the-Knee Interventions for Limb Salvage: Use of Multifunctional Angioplasty Balloon Catheters ("BTK Multicath Registry") A non-randomized clinical registry This study is designed to obtain preliminary data on clinically relevant procedural variables during percutaneous below-knee artery revascularization procedures among consecutive patients treated with either the Finesse BTK Multicath® ("Finesse") or the standard of care using conventional angioplasty balloon catheters. This registry will enroll participants with a history of chronic limb threatening ischemia and below-knee arterial insufficiency who will be assigned to revascularization with or without use of the Finesse BTK Multicath. The registry is an acute study examining procedural data only. The primary endpoints of interest are the volume of contrast used for the intervention, overall procedure time, radiation dose, number of catheter exchanges during revascularization, and medical device supply costs. For the first phase 12 consecutive patients will be treated with the standard of care. For the second phase 12 consecutive patients will be treated with Finesse. 24 participants total Up to 5 study sites in the United States Initial anticipated enrollment: Q4 2024 Last anticipated enrollment: Q2 2025 Patients \>=18 years old with documented history of unilateral chronic limb threatening ischemia due to below-knee arterial insufficiency with angiographic runoff in the foot and limited arterial insufficiency above the knee 1. Contrast volume administered during the revascularization portion of a procedure. 2. Number of catheter exchanges during revascularization 3. Fluoroscopy time 4. Radiation dose during revascularization 5. Procedure time post-enrollment 6. Equipment costs 7. Reduced use of supplies 8. Technical success 9. Safety/Major Adverse Peripheral Events On-treatment sample Intention-to-treat
This study is designed to evaluate the safety and efficacy of a Paclitaxel-coated percutaneous transluminal angioplasty (PTA) Catheter in the treatment of patients with peripheral arterial disease.
By assessing the safety and durability of an endovascular intervention, this study will justify and inform the design of a subsequent seamless feasibility/pivotal trial aimed at the treatment of intracranial atherosclerotic stenosis (ICAS), an entity which carries a high risk of stroke despite existing medical therapies, and has no other treatment options. Given the global burden of ICAS as a leading cause of stroke, there is a high potential for public health impact not just in the U.S., but world-wide.
The post approval study will enroll US female patients presenting with claudication or ischemic rest pain and an angiographically significant lesion in the superficial femoral or popliteal artery. Subjects are treated per Instructions For Use (IFU) with the Lutonix® Catheter. Subjects will have a Duplex Ultrasound (DUS) and clinical follow-up through two (2) years.
It is universally accepted that high-pressure balloon inflation is required to most effectively deploy a coronary balloon-expandable stent. However, there is not consensus nor are there any guidelines regarding the method of balloon inflation, particularly the duration of inflation. Underexpansion and strut malapposition after stent deployment are among the most powerful predictors for adverse vessel outcomes. High-pressure inflation for stent deployment is effective to optimally expand the stent, but unlike in vitro testing in air, there are poorly distensible plaque elements that may not instantaneously yield to the balloon pressure. However, these elements may ultimately yield to prolonged inflation. Most clinical interventional cardiologists inflate for a relatively short period (15-30 sec). The investigators have noted that when balloon pressure is maintained at a certain pressure level it tends to decrease over time, and may require 60-180 or more seconds to maintain pressure stability. This finding implies that plaque elements are yielding slowly over time to the increased pressure, thus increasing expansion, and suggests that a prolonged inflation until balloon pressure stabilizes is more effective than a rapid inflation/deflation sequence to fully expand and appose the stent to the vessel wall. At present there is no consensus on stent deployment strategy. It is our hypothesis that prolonged inflation is superior to the more commonly used strategy of rapid inflation/deflation. Optimal coherence tomography (OCT), a novel technology that measures near-infrared light reflections and translates them into a 2D image, has an axial resolution nearly 10-times that of intravascular ultrasound (IVUS). Thus it is possible to examine the extent of stent malposition and stent expansion using this modality. The current randomized trial tests the hypothesis that prolonged balloon inflation until a stable balloon pressure is maintained is more effective than a rapid inflation/deflation sequence when performed to the same balloon inflation pressure.
The purpose of the study is to demonstrate the safety and efficacy of the IN.PACT Admiral drug-coated balloon (DCB) in comparison to any standard balloon for treatment of peripheral arterial disease (PAD) in the superficial femoral artery and proximal popliteal artery.
The purpose of the study is to demonstrate the superior efficacy and non-inferior safety of the Moxy Drug Coated Balloon by direct comparison to standard percutaneous transluminal angioplasty (PTA) catheter for treatment of stenosis of the femoropopliteal arteries.
The goal of this clinical trial is to learn if the Auryon Atherectomy System with balloon angioplasty safe and effective in treating lower limb blockages. The main question it aims to answer is: Is treatment with Auryon Atherectomy System more effective than angioplasty alone in preventing death, amputation, revascularization and improving patency? Researchers will compare the Auryon Atherectomy System with balloon angioplasty to balloon angioplasty alone.
This is a Pivotal, Prospective, randomised, two arm, placebo controlled, single-blind, multicentre trial that will be conducted at approximately 70 sites; approx. 40 sites with at least 50% of subjects will be recruited from USA and approx. 30 sites OUS - Singapore, Australia and Japan. Each site will be capped at 30 maximum subjects recruited. The main goal of this clinical trial is to determine the effectiveness and safety of the sirolimus drug coated balloon (DCB) versus standard percutaneous transluminal angioplasty (PTA) for the treatment of below the knee arterial disease. Eligible subjects will be randomised in a 1:1 allocation ratio and stratified by recruiting countries. Each subject will be randomized to receive either: 1. MagicTouch PTA sirolimus coated balloon catheter (DCB) in addition to standard balloon angioplasty or 2. Placebo balloon angioplasty in addition to standard balloon angioplasty (PTA).
The objective of this study is to obtain outcomes following dissection repair with the Tack Endovascular System in a broad population of patients undergoing endovascular treatment of lesions within the superficial femoral, popliteal, peroneal, and/or tibial arteries.
A prospective, multicenter, randomized study evaluating the use of Jetstream Atherectomy (JS) followed by DCB in comparison to the use of plain old balloon angioplasty (POBA) followed by DCB alone in the treatment of complex lesions in femoropopliteal arteries in subjects with claudication (Rutherford Clinical Category (RCC) of 2-4) (complex lesions are defined as long (≥ 10 cm) lesions, or moderately or highly calcified lesions, or chronic total occlusions irrespective of length).
The purpose is to demonstrate the safety and effectiveness of the Stellarex DCB for the treatment of stenosis or occlusions of below-the-knee arteries.
To evaluate the safety and effectiveness of the Ranger™ Paclitaxel Coated Balloon for treating lesions located in the superficial femoral and proximal popliteal arteries (SFA/PPA). Long Balloon substudy: To evaluate the safety and effectiveness of the Boston Scientific Corporation (BSC) Ranger™ Paclitaxel Coated Balloon in the 120, 150 and 200 mm lengths for treating Superficial Femoral Artery (SFA) and/or Proximal Popliteal Artery (PPA) lesions.
This is a prospective, multi-center, single-arm, non-blinded study designed to investigate the safety and efficacy of the Tack Endovascular System in the Mid/Distal Popliteal, Tibial, and Peroneal Arteries ranging in diameter from 1.5mm to 4.5mm for the treatment of post percutaneous transluminal balloon angioplasty (PTA) dissection(s) requiring repair.
This is a prospective, multi-center, single-arm, non-blinded study designed to investigate the safety and efficacy of the Tack Endovascular System in subjects with post-balloon angioplasty (post-PTA) dissection(s) type(s) A through F in the superficial femoral and proximal popliteal arteries ranging in diameter from 2.5mm to 6.0mm.
To assess the safety and efficacy of the Lutonix Drug Coated Balloon for treatment of femoropopliteal artery (SFA) in-stent restenosis (ISR).
To assess the safety and efficacy of the Lutonix Drug Coated Balloon (DCB) for treatment of stenosis or occlusion of native below-the-knee arteries.
To collect data from real-world use with the Chocolate PTA Balloon Catheter to support the effectiveness of the device for use during percutaneous transluminal angioplasty (PTA) procedures.
The purpose of the study is to evaluate the safety and efficacy of laser atherectomy with balloon angioplasty compared to balloon angioplasty alone in the treatment of above the knee peripheral artery in-stent restenosis.
The main purpose of this research study is to try to improve the results of the standard treatment for heart attacks. Normally, heart attack patients get a fast dose and a slow dose of eptifibatide in the emergency room, shortly after arriving. This drug is usually given through a vein in the arm. However, eptifibatide can also be injected directly into the heart's blood supply just before angioplasty, a common procedure to unblock a blood vessel in the heart. This new way of giving the drug is being studying.
The primary objective of this study is to gather preliminary data regarding the angiographic efficacy of the administration of low-dose adjunctive intracoronary (IC) tenecteplase during balloon angioplasty for heart attacks. We hypothesize that low-dose IC tenecteplase will enhance the breakdown of blood clots at the site of the culprit lesion leading to reduced damage to the heart muscle.
This study will examine the use of magnetic resonance imaging (MRI) instead of x-rays to guide angioplasty in patients who require these treatments to treat blockages in leg arteries. Angioplasty is a procedure in which a balloon is inflated in a blocked artery to improve blood flow. MRI uses a magnetic field and radio waves rather than x-rays to show pictures of body tissues and organs. MRI shows all soft tissue, including the arteries, blood, and other organs, while the usual x-ray technique shows only the lumen of the artery when it is filled with dye, but not the vessel walls. Patients 18 years of age and older who require angioplasty with or without stenting to restore blood flow to the leg may be eligible for this study. Participants undergo the usual angioplasty procedure. The skin in the patient's groin area is numbed and a catheter is placed into the groin artery. The patient is given a blood-thinning medicine, and then other catheters are inserted to measure blood pressure and to inject a contrast dye to take pictures. Balloon catheters are inflated to open the blockage and, if needed, stents are put in place to maintain the opening. When the blood thinner wears off, the catheters are removed. Most of the procedure is conducted using MRI instead of X-rays to visualize the arteries and blockages. The patient is moved back and forth between the x-ray and MRI machines in a specially designed laboratory. If necessary, stenting, placement of a wire mesh to hold open the artery, is done using conventional x-ray techniques. The entire procedure, including MRI, takes up to 4 hours.
This study will examine the use of magnetic resonance imaging (MRI) in detecting blood vessel inflammation. The results of this study may later be applied to diagnosing inflammation of arteries in patients with atherosclerosis, predicting disease progression in these patients, and guiding therapy. Patients with peripheral artery disease (for example, blockage of a leg artery) undergoing balloon angioplasty at Suburban Hospital in Bethesda, Maryland, may be eligible to participate in this study. Because this procedure, which opens blocked arteries, can cause inflammation in the vessel wall, it affords an opportunity for studying MRI detection of such inflammation. Study candidates will be screened with a medical history and physical examination. Participants will have a MRI scan and blood drawn at Suburban Hospital before the angioplasty and again either 1 to 3 days or 2 weeks after the procedure. Before the MRI scan is begun, a catheter (a thin plastic tube) is inserted in an arm vein and 90 milliliters (about 3 ounces) of blood is drawn. The patient then lies on a table that slides into the MRI scanner-a large donut-shaped machine with a magnetic field. A flexible, padded sensor called an MRI coil is placed over the area to be imaged; this device is used to improve the quality of the pictures. During the scan a contrast material called gadolinium is injected through the catheter. Gadolinium brightens the image of the blood vessels. The procedure lasts up to 2 hours.
This is a prospective, multicenter, randomized trial to determine the mechanisms of vascular healing. The study will evaluate subjects with peripheral artery disease (PAD) who require an endovascular intervention of the femoro-popliteal (SFA) artery to restore blood flow to the leg.
CLARITY I is a pilot study to identify the clinically appropriate endpoint(s) of a larger, statistically powered pivotal trial for treatment of patients with Critical Limb Ischemia (CLI).
IVUS imaging will be utilized to assess performance of the Sponsor's Orbital Atherectomy System (OAS) followed by adjunctive balloon angioplasty (BA) in patients who have symptomatic peripheral artery disease (PAD) occurring in the Superficial Femoral Artery (SFA), Popliteal (POP), and/or Tibioperoneal Trunk (TPT).
Patients who recently suffered a heart attack will use a smart-phone/computer application during cardiac rehabilitation to reduce their risk of a future attack, their re-hospitalizations, their cost of care, and increase their quality of life.
The purpose of this study is to determine if testing patients for endothelial dysfunction will help identify which patients are more likely at risk to have another heart attack in the future. Study participants will undergo mental stress testing while at the same time being connected to a device that measures endothelial function via the Endopat device. These same participants will also undergo a sleep study via the Watchpat device.
The proposed study will investigate the efficacy of the peripheral cutting balloon (PBC) compared to the high pressure balloon in dilating venous stenosis in hemodialysis fistulas. 2. SPECIFIC AIMS Study endpoints will be: Primary Endpoint 1. Primary and assisted patency at 6 months Secondary Endpoints: 1. Procedure effectiveness/residual stenosis 2. Procedure-related complications 3. Primary patency and primary assisted patency 12 months 4. Secondary patency at 6 and 12 months 5. Number/type of secondary interventions.
The primary objective of this study is to determine the clinical benefits of percutaneous intervention to improve pulmonary blood flow on oxygen saturations, symptoms, exercise tolerance and hematocrit in patients with complex cyanotic congenital heart disease who are not candidates for surgical repair.