View clinical trials related to Vertebral Artery Stenosis.
Filter by:To compare the incidence of the composite endpoints of non-fatal ischaemic stroke, transient ischaemia (TIA) and all-cause mortality at 12-month follow-up after implantation of Bridge for the treatment of symptomatic vertebral artery stenosis in subjects who had been taking different durations of dual-antiplatelet therapy (3 vs 6 months) and ticagrelor monotherapy.
Aprospective, multicentre, single-arm clinical trial in which approximately 36 subjects would be enrolled using the Bridge 4.5 mm and 5.0 mm stent in accordance with the inclusion and exclusion criteria in this protocol. The success rate of immediate post-procedure stent target lesion treatment was recorded for all subjects, and the incidence of in-stent restenosis (≥50% stenosis) was assessed by DSA imaging follow-up at 6 months (±30 days) post-procedure. The subjects were also followed up at 30 days (±7 days), 6 months (±30 days), and 12 months (±60 days) after stent implantation to assess safety events during the follow-up period. .
Posterior circulation stroke accounts for 20% of all ischemic stroke. Approximately one quarter of posterior circulation strokes are due to stenosis in the vertebral artery and basilar artery. Two previous randomized controlled trials focusing on vertebral artery stenting, the Vertebral Artery Stenting Trial (VAST) and the Vertebral Artery Ischaemia Stenting Trial (VIST) were underpowered because they failed to reach target recruitment, and both the trials found no difference in risk of the primary outcome between the stenting group and medical group. The drug-eluting stenting versus medical therapy alone for patients with extracranial vertebral artery stenosis (VISTA) trial, is a government-funded, prospective, multicenter, randomized controlled trial. It will recruit patients with 3 months stroke or TIA caused by 70-99% stenosis of extracranial vertebral artery (V1-2 segments). Only high-volume center with a proven track record will enroll patients. Patients will be randomized (1:1) to best medical treatment alone or medical treatment plus stenting. Primary outcome is a composite of any fatal or non-fatal stroke within 30 days after randomization, or ischemic stroke in the territory of the target artery beyond 30 days to 1 year. The VISTA trial will be conducted in 30 sites in China and aims to have a sample size of 472 subjects (stenting, 236; medical treatment, 236). Recruitment is expected to be finished by Sep, 2025. Patients will be followed for 1 year at first stage. Long-term follow-ups till 3 years or longer is also preplanned. The first stage of the trial is scheduled to complete in 2027.
This is a prospective, multi-center, open-access, single-arm trial to observe the real-world clinical efficacy of drug-eluting vertebral artery stenting system treatment for Atherosclerotic Vertebral Arteries Stenosis. Patients will be followed at 30 days, 6, and 12 months post-procedure and annually for 1 year within 3 years.
Posterior circulation stroke accounts for 20% of ischemic stroke. A quarter occurs in patients with stenosis in the vertebral and/or basilar arteries. Vertebral artery stenosis can be treated with stenting. However, in-stent restenosis rate have been reported as high as more than 30%, which may reduce the effect of stent therapy. Drug-coated balloon has shown good results in controlling neointimal hyperplasia in the femoral and popliteal arteries.
Vertebral artery stenosis (VAS) decreases posterior brain perfusion, causing vertebrobasilar insufficiency (VBI). It is also an important embolic source to the posterior brain. The most frequently involved location is the proximal part of the vessel, including the ostium. Various surgical procedures have been described for the treatment of proximal VAS with symptoms refractory to medical therapy, but all are technically difficult with high operative mortality and morbidity. Endovascular intervention has been described as an alternative to surgery. Balloon angioplasty is limited by elastic recoil and dissection. The restenosis rates reported in the literature varied, as high as 75 %. Stenting offers salvage following unsuccessful balloon angioplasty, and primary stenting have been shown to be safe and effective with lower restenosis rate. Coronary equipments are ideal for ostial VAS, considering the size of the artery and location of the lesion. Recently, Albuquerque et al. reports a relative high restenosis rate in a longer follow-up duration. Restenosis seems to become an important issue regarding the patients’ quality of life. However, there is no clinical parameter to predict restenosis of VAS. The purpose of this study is to evaluate the clinical results of our series of symptomatic ostial VAS treated exclusively with tubular balloon expandable coronary stents. We sought to identify predictors of restenosis. This is a clinical observation study. Only chart review and angiographic review will be performed.