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Showing 1-20 of 56 trials
NCT07412249
Remote ischemic conditioning (RIC) has emerged as a promising non-invasive strategy to protect the brain, with evidence suggesting its benefit in patients with carotid artery stenting (CAS). However, the long-term benefit and safety of chronic RIC in this population remain unknown. This trial aims to evaluate whether chronic RIC reduces the incidence of major vascular events and improves clinical outcomes in high-risk patients with carotid artery stenosis who received CAS.
NCT05845710
The PERFORMANCE III study is a prospective, multicenter single-arm, open label study to evaluate the safety and effectiveness of the Neuroguard IEP® Direct System for the treatment of carotid artery stenosis in subjects at elevated risk for carotid endarterectomy (CEA). Eligible patients greater than or equal to 20 years of age and less than or equal to 82 years of age, are those who have been diagnosed with either de-novo atherosclerotic or post CEA restenotic lesion(s) in the internal carotid arteries (ICA) or at the carotid bifurcation with greater than or equal to 50% stenosis if symptomatic or greater than or equal to 70% stenosis if asymptomatic.
NCT07057297
This prospective, multicenter observational study aims to evaluate the incidence, timing, and characteristics of residual and recurrent (restenosis) carotid artery stenosis following carotid endarterectomy (CEA) with primary closure. Conducted across several neurosurgical centers in the Czech Republic, the study will include patients undergoing elective CEA who meet standard clinical indications. Participants will undergo preoperative CT angiography and follow-up imaging at 30 days and 1 year post-surgery. Residual stenosis is defined as ≥50% luminal narrowing detected within 30 days postoperatively, while restenosis is evaluated at later time points. The study will also assess clinical outcomes such as ischemic stroke, TIA, myocardial infarction, and mortality. The standardized surgical technique and harmonized diagnostic algorithm across all centers aim to provide robust data on the performance and durability of primary closure CEA.
NCT06986330
OCT techniques have been used in the assessment of both intracranial and extracranial lesions.(1) Preprocedural evaluation: The morphologic characteristics of carotid atherosclerotic plaques can be evaluated by OCT before surgery to identify vulnerable plaques and guide interventional therapy. It has been shown that plaque image features observed by OCT and based on the "thin fibrous cap" characteristics of plaques can predict rupture and thrombotic risk of atherosclerotic plaques. Similarly, the results of studies based on OCT plaque features suggest that OCT plaque features can be used for the identification of symptomatic carotid plaques.The results of studies based on OCT plaque characteristics suggest that OCT plaque characteristics correlate with the degree of carotid stenosis and ischemic symptoms. Therefore, it is important to use OCT to assess plaque characteristics prior to cerebrovascular interventions and to identify high-risk plaques that are prone to cause ischemic events, in order to guide carotid interventions, especially for patients whose stenosis has not reached the level of intervention, but who have not yet reached the level of ischemic events, or who are at risk of ischemic events.lesions with stenosis not reaching the level of intervention but with the presence of vulnerable plaques are of great significance.(2) Evaluation of immediate post-interventional outcomes: Currently, OCT has been used to evaluate the expansion rate of the relevant stent immediately after stenting, stent adherence, protrusion of diseased tissue into the lumen of the vessel, and in-stent thrombosis.In addition, in acute occlusion recanalization of intracranial vessels, the application of OCT can identify the nature of lesions during treatment, such as clips, atherosclerotic stenosis, and other lesions, and guide the development of surgical strategies. (3) Interventional follow-up: OCT can be used in post-interventional follow-up for post-stenting endothelial repair, in-stent restenosis, de novo atherosclerosis, and thrombus formation. In summary, OCT can accurately assess the nature of cerebrovascular lesions and plaques and guide clinical interventions.For medical centers that have the conditions, it is recommended to standardize the application of OCT to guide the interventional precision treatment of ischemic cerebrovascular disease.In the future, a clinical study database of OCT in Chinese patients with ischemic cerebrovascular disease should be established to provide evidence-based medical evidence of OCT in the diagnosis and treatment
NCT01732523
Atherosclerosis is a chronic, systemic and progressive disease affecting different arterial blood vessels in the body. Atherosclerotic lesions silently progress from small plaques to severe stenosis and may remain asymptomatic for years. Unstable plaques and stenosis (also called vulnerable plaques), however, are prone to rupture leading to myocardial infarction, or stroke. The proliferation of the small arteries that are distributed to the outer and middle coats of the larger blood vessels (vasa vasorum) and within the atherosclerotic plaques (neovascularization) are inherently linked with the atherosclerotic plaque development, plaque inflammation and vulnerability. By injecting ultrasound contrast agents (microbubbles) into the blood stream, it is possible to detect this microcirculation of the vessel wall and the neovascularization within the atherosclerotic plaque using a contrast-enhanced ultrasound (CEUS) imaging technique. Particularly, CEUS of the carotid artery has been introduced as a non-invasive technique to improve detection of carotid atherosclerosis and to evaluate the presence of carotid plaque neovascularization which has emerged as a new marker for plaque vulnerability. The project investigates the predictive value of the detection of carotid plaque neovascularization on CEUS imaging in patients with asymptomatic carotid artery stenosis regarding the progression of the carotid atherosclerotic lesion and future vascular events including myocardial infarction, stroke or vascular intervention. The investigators hypothesize that neovascularization within the carotid lesion will significantly be more pronounced in patients with progressive carotid lesions and in patients suffering future vascular events during. The project will support the concept that intraplaque neovascularization is associated with plaque instability and vulnerability and therefore, the use of CEUS may provide an additional non-invasive, simple, safe, and reliable imaging modality to risk stratify individuals. The identification of vulnerable that are at increased risk of rupture by identification of intraplaque neovascularization is expected to improve the prediction of future vascular events and thus allow for better treatment selection. It will help the clinician to further risk stratify carotid stenosis. Particularly, it will help to identify unstable carotid stenosis that may already benefit from invasive therapy as carotid thromboendarterectomy and stenting.
NCT06705010
MR pulse for whole brain optimal Deuterium (2H) Metabolic Imaging and EPSI (echo planar spectroscopic imaging) based SLOW-edited 1H-MRSI will be developed and optimized for use at an UHF scanner at 7 Tesla. The study has 4 phases. Phase I: The 2H and 1H MRSI sequences are developed and optimized in vitro (phantoms) Phase II: Sequences are applied in vivo in healthy volunteers and further optimized Phase III: Optimal 2H 1H pulse sequences are applied in 4 cohorts of healthy volunteers, to study the effect of aging with whole brain 2H and 1H MRSI. Phase IV: application of the sequences in 4 patient groups with different diseases: Alzheimer's diseases (AD) patients, diabetes mellitus type II (DM) patients, mild cognitive impaired (MCI) patients, and high grade carotid stenosis patients (HGCS). The ultimate aim is to create for individual patient specific 3dimensional spatial resolved z-score maps (similar to FDG-PET) based on the healthy control data of phase III of the trial.
NCT06882954
Carotid stenosis are asymptomatic if no hemispheric or retinal symptoms have appeared in the 6 months preceding the discovery of the stenosis. Asymptomatic carotid stenosis (ACS) accounts for about ¾ of all carotid lesions. The goal of treating carotid stenosis is to prevent a stroke. While carotid surgery is recommended in the elderly patients in cases of symptomatic carotid stenosis, that of ACS in patients over 75 years old, even when tight, remains subject to many controversies. Indeed, the debate, concerning the benefit to be expected from a surgical procedure or a possible angioplasty procedure, is not yet closed. The aim of our study, through a retrospective evaluation of the results of all consecutive carotid endarterectomy (CEA) and stenting in the participating center.
NCT06873321
Venous thromboembolism (VTE) has a high prevalence in patients with multiple comorbidities undergoing complex surgical procedures. Sometimes, extended prophylaxis for VTE with KLMWH or direct oral anticoagulants (DOACs) is necessary. Currently, there is no consensus in the literature regarding the use of DOACs for extended VTE prophylaxis in patients undergoing lower limb revascularization (LLR). Objective: To evaluate the use of DOACs (already approved to reduce MACE and MALE) in VTE prophylaxis in patients undergoing LLR.
NCT04063709
Stroke is a leading cause of death and disability in the United States and around the world. The goal of this work is to develop and test a noninvasive ultrasound-based imaging technology to better identify patients at high risk of stroke so that appropriate and timely intervention may be administered to prevent it.
NCT01480206
As endovascular procedures become more complex, there is a growing need for 3D image overlay to assist with device guidance and placement. Currently, a 3D image is typically created intra-operatively using 3D rotational angiography (3D-RA) or cone-beam CT (XperCT). This 3D image may then be overlaid on live fluoroscopy to provide 3D guidance information (Dynamic 3D Roadmapping). Philips Healthcare multimodality overlay products allows registration of a pre-acquired MR/CT or 3D rotational image to live fluoroscopy.
NCT06511089
Rationale: Approximately 20% of the patients with acute ischemic stroke due to an intracranial large vessel occlusion (LVO) has a high-grade stenosis in the ipsilateral cervical carotid artery. It is uncertain whether immediate carotid artery stenting (CAS) of a cervical carotid artery stenosis during endovascular thrombectomy (EVT) is beneficial. Immediate CAS could improve cerebral perfusion and prevent recurrent ischemic stroke but could also increase the chance of intracranial hemorrhagic complications due to hyperperfusion syndrome or to the required antiplatelet treatment to prevent stent occlusion. Moreover, some patients end up with a severe disabling stroke after EVT. In these patients carotid revascularization by carotid endarterectomy (CEA) or CAS would usually not be performed but these patients would be treated by medical management only. Objective: to assess the safety and efficacy of immediate cervical CAS during EVT in patients with acute ischemic stroke due to LVO with a high-grade stenosis \>50% or occlusion of the ipsilateral cervical carotid artery. Study design: prospective randomized open label controlled trial comparing immediate CAS during EVT versus EVT with deferred treatment of the cervical carotid artery lesion (deferred CAS/CEA or medical management alone). Outcome assessment will be blinded for treatment allocation.
NCT05980195
The purpose of CARE-HBOT study is to evaluate whether patients with symptomatic severe carotid artery stenosis with cognitive impairment who underwent hyperbaric oxygen therapy plus standard medical treatment after stent implantation could improve their cognitive function compared with those who underwent standard postoperative medical treatment.
NCT04470687
Stroke is the second leading cause of death in the Western world and the leading cause of major lifelong disability. About 15% of strokes are secondary to thrombosis or embolization of an unstable atheromatous carotid plaque. In these symptomatic patients, the degree of carotid stenosis is correlated with the risk of early recurrence. Patients with stenosis over 70% are therefore offered an endarterectomy, an operation to remove carotid plaque, to prevent future strokes\[1\]. In asymptomatic patients, the degree of stenosis is a limited predictor, and better risk stratification is required to assess the degree of plaque vulnerability and stroke risk of the patient. The therapeutic decision towards endarterectomy in addition to drug therapy is debated because of a variable and dependent benefit/risk balance for each patient. A number of imaging parameters have been studied: ulceration, heterogeneity, vascularization of the plaque for example, but their place is not well defined \[2\]. The usual evaluation of carotid stenosis is by conventional Doppler ultrasound with calculation of the degree of stenosis according to the NASCET criteria. For symptomatic stenoses the intervention is recommended when above 70% and is discussed from 50% to 70% of NASCET stenosis degree. For asymptomatic stenoses, the procedure is discussed when above 60% taking into account the patient's life expectancy, the risk of the surgery and the unstable nature of the plaque \[2\]. Destabilization of the carotid plaque is partially induced by inflammation associated with neo-vascularization. The detection of these new vessels by conventional contrast ultrasound has already shown a distinction between stable and unstable plaques, by the presence or absence of microbubbles in the plaque. However, this assessment is not very precise and only the most vascularized plaques can be detected. Ultrafast ultrasound Imaging is a new ultrasonic Imaging modality that allows detecting low speed flows, a tiny vascular structure within the vessel wall. RESEARCH HYPOTHESIS Plaques neo-vascularization would be more precisely detected and characterized by ultrafast imaging coupled with microbubble injection than conventional ultrasound imaging. A better assessment of plaque instability could improve the selection of patients for carotid endarterectomy and increase the benefit/risk ratio of this preventive surgery.
NCT06485102
This research will focus on the differences of the postoperative outcome for carotid surgery patients treated by either male or female surgeons. Since 2012, in Germany, the surgical treatment of carotid stenosis has an established quality assurance, making the thematic especially suitable for testing the surgical results of either male or female surgeons.
NCT06315153
This observational study was designed for the assessment of plaque vulnerability in patients with carotid atherosclerotic stenosis and the development of predictive models for the occurrence and recurrence of atherosclerotic ischemic stroke. The objectives of the study were as follows: first, to integrate the degree of carotid stenosis and plaque characteristics assessed by vascular ultrasound for a comprehensive assessment of plaque vulnerability; second, to develop an assessment tool for the risk of future ischemic stroke in patients with asymptomatic carotid stenosis by combining vascular risk factors, serologic markers, carotid ultrasound characteristics, and contrast-enhanced ultrasonographic parameters; and third, to incorporate vascular ultrasound parameters into existing predictive models of ischemic stroke recurrence risk to develop a risk assessment tool for atherosclerotic ischemic stroke. The main questions it aims to answer are: * How to screen high-risk patients and those eligible for revascularization from asymptomatic carotid stenosis patients for primary prevention of stroke. * How to improve the prediction accuracy of atherosclerotic ischemic stroke based on existing prediction models for secondary prevention of stroke.
NCT06294496
Ischemic stroke affects 2.5 to 3 million people annually in China, ranking as the leading cause of death and disability. Cervical artery stenosis is a significant contributor to this problem, with about 50% of patients experiencing cognitive impairment due to reduced cerebral blood flow. Two main surgical approaches, carotid endarterectomy (CEA) and carotid artery stenting (CAS), are used to treat severe cervical artery stenosis, but their effects on various factors remain unclear. This project collects multimodal imaging data, including CT perfusion and angiography, to create 3D models of cervical artery stenosis. Computational fluid dynamics and AI analysis are used to assess hemodynamics. By monitoring blood flow, oxygen levels, and evaluating postoperative outcomes, the goal is to tailor surgical approaches for better patient outcomes and improved quality of life.
NCT01315288
The purpose of this study is to determine patient variables, physician presenter variables, and information variables that might affect clinical decision making in asymptomatic carotid stenosis. The hypothesis is that information variables are the most significant determinant of clinical decision making.
NCT04758650
Phase II study to evaluate the clinical potential of 68GaNOTA-anti-MMR-VHH2 for in vivo imaging of Macrophage Mannose Receptor (MMR)-expressing Macrophages by means of Positron Emission Tomography (PET) in patients with oncological lesions in need of non-surgical therapy, patients with cardiovascular atherosclerosis, syndrome with abnormal immune activation and sarcoïdosis.
NCT04261478
Patients with tandem occlusion or tandem lesion (TL), that is, stroke with an acute intracranial anterior circulation occlusion and an ipsilateral cervical ICA (c-ICA) high-grade stenosis or occlusion, constitute about 15-20% of patients undergoing endovascular thrombectomy (EVT). However, the optimal treatment of acute stroke patients with TL remains uncertain, as relatively few patients with TL were included in the major randomized controlled trials of EVT and management of the c-ICA was generally not specified by protocol nor analyzed post-hoc. Recent large multi-centre retrospective cases series suggest that acutely stented patients may have more favorable outcomes than patients treated with angioplasty alone or those with no acute ICA intervention, but high quality randomized trial data are lacking. EASI-TOC, a phase 3, academic multi-centre, controlled trial (PROBE design) with embedded pilot phase, will seek to determine if in patients undergoing acute intracranial thrombectomy for anterior circulation stroke with concurrent ipsilateral symptomatic high-grade (≥70%) atherosclerotic stenosis or occlusion of the extracranial ICA, endovascular ICA revascularization with stenting is superior to intracranial thrombectomy alone with regards to functional outcome at 90 days. Patients will be randomized to Acute stenting or No acute stenting (1:1 allocation).
NCT01569594
Assess device performance data from subjects undergoing patch angioplasty of the carotid artery following carotid endarterectomy using the CorMatrix ECM for Carotid Repair.