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Clinical Trial Summary

The Rontis Drug Coated - Peripheral Balloon Catheter is intended for PTA procedure on atherosclerotically stenotic or obstructed vessels and for the treatment of obstructive lesions of native or synthetic arteriovenous dialysis fistulae in order to improve the perfusion and decrease the incidence of restenosis. In this study, it is intended to use Rontis DCB for treatment of lesions in the femoropopliteal arteries.


Clinical Trial Description

Peripheral artery disease (PAD) is an increasingly common and serious cardiovascular disease attributable to substantial morbidity, mortality, and health status impairment. The condition describes a syndrome of atherosclerotic or thromboembolic arterial obstruction resulting in symptoms of malperfusion of the upper or lower extremities [1]. According to the American College of Cardiology/American Heart Association (ACC/AHA) practice guidelines, patients with PAD fit clinically into one of four categories depending on their symptoms: asymptomatic, intermittent claudication (IC), chronic limb ischaemia (CLI), or acute limb ischaemia (ALI). Asymptomatic PAD represents over 50% of patients with PAD. The classic PAD patient is one who experiences IC: aching pain typically in the calves and/or buttocks brought on by activity and relieved by rest. This affects around half as many patients as does asymptomatic PAD. Chronic limb ischaemia is defined as pain at rest or ulceration with or without tissue necrosis. These patients frequently require amputation, especially those with an ABI < 0.5. Finally, ALI is typified by rapid onset of limb ischaemia threatening limb viability. It manifests as increasing claudication and typically progresses quickly to pain at rest. Peripheral artery disease is estimated to be present in 3% of people in the age range of 40-59 years and in 20% of people over 70 years of age. The femoropopliteal artery is the most commonly diseased artery in the peripheral circulation and is the site of a larger percentage of lower limb interventions. Lesions in this territory initially respond well to recanalization procedures by the endovascular approach; however, the rate of restenosis is high. Restenosis is caused by neointimal hyperplasia, a hyperproliferative response to the vessel injury caused by angioplasty and the foreign body reaction and abnormal vessel geometry caused by stent implantation. The optimal endovascular therapy for peripheral artery disease (PAD) has evolved over the last decade. Previous research has demonstrated that the long-term outcome is poor for percutaneous transluminal angioplasty (PTA) alone in the infrainguinal region, with restenosis rates exceeding 40% within 1 year. Further studies have suggested that self-expanding stents may provide higher patency rates when compared to balloon angioplasty. However, observations indicate higher than anticipated rates of stent fractures and in-stent restenosis (ISR), leaving room for an alternative strategy. Drug-coated balloons (DCBs) have emerged as a mechanism to deliver pharmacotherapies to the arterial wall, while leaving no foreign material behind. Drug-coated balloons are important innovations in the treatment of PAD. DCBs, like stents, offer potential greater treatment efficacy over standard PTA, but with the advantage of not leaving an implanted device (i.e., stent) in the artery. This provides number of potential advantages including preserving options for subsequent surgical bypass, should it be necessary, and improving the ease of percutaneous re-treatment, should initial treatment fail. Furthermore, DCBs allow for greater opportunity for percutaneous treatment strategies in areas where stents may be less desirable, such as the popliteal artery. Several manufacturers have developed balloons coated with paclitaxel for the treatment of infrainguinal PAD. Employed as a chemotherapeutic agent, paclitaxel irreversibly binds to microtubules of the endothelial cells on the vessel wall and inhibits cell division, thus hindering neointimal proliferation and the resulting restenosis. DCBs utilize an excipient or carrier substance to hold the drug on the balloon surface during transit to the target lesion. The excipient can also assist in delivery of the drug to the artery wall during balloon inflation. A paclitaxel-coated balloon using a urea excipient (Lutonix-Bard) was the first to be approved by the US Food and Drug Administration (FDA) for the treatment of superficial femoral artery (SFA) and popliteal lesions in October 2014. Another iteration (IN.PACT, Medtronic) from a different manufacturer uses polysorbate and sorbitol excipients and was subsequently approved for the same lesion substrate in December 2014; an indication for in-stent restenosis (ISR) was granted 2 years later (September 2016). Most recently, a third DCB (Stellarex, Spectranetics) was approved by FDA, and several others are currently undergoing evaluation in investigational device exemption (IDE) trials. In the European Union a gradually increasing list of DCBs has gained CE mark and is available in the market. DCBs coated with drugs other than paclitaxel, including zotarolimus, sirolimus, and everolimus, have been studied in animal models, but have not been used clinically in humans for peripheral interventions. In general and independent from study participation, doctors are free to decide on the best therapy approach for their patients, e.g. they can decide on the basis of their knowledge and experience whether the lesion would benefit from DCB usage or standard uncoated balloon or stenting. They are free to decide whether or not to use the study; only subjects who are treated with the Rontis DCB will be included. The study will first test the safety of the RontisDCB and then test the efficacy of Rontis DCB compared to historical data derived from standard PTA alone or use of uncoated balloons. Further information on the Rontis DCB can be found in the Investigator's Brochure (IB). The study will gain safety and efficacy information on subjects with lesions in the femoropopliteal artery of 3-15 cm length who receive the Rontis DCB following traditional predilatation with an uncoated angioplasty balloon prior to inflation of the DCB. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT04821388
Study type Interventional
Source Rontis Hellas SA
Contact
Status Active, not recruiting
Phase N/A
Start date January 11, 2019
Completion date August 30, 2021

See also
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