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Carotid Artery Diseases clinical trials

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NCT ID: NCT04632485 Recruiting - Healthy Clinical Trials

Early Detection of Vascular Dysfunction Using Biomarkers From Lagrangian Carotid Strain Imaging

Start date: September 9, 2021
Phase:
Study type: Observational

The purpose of this research is assess imaging and identification of soft plaque that undergoes large deformations or strain will identify plaque vulnerable to rupture which could lead to 'silent strokes'. Validation of current study results with MRI will foster use of real-time ultrasound (US) strain imaging and strain indices as a screening tool for identifying normal human participants susceptible to increased vascular aging and developing plaque prone to rupture or micro-embolization. Current research will evaluate Lagrangian carotid strain imaging (LCSI) for prediction of vascular health on volunteers. In this study, investigators will evaluate age-related strain variations (due to plaque deposition) in the carotid artery, establishing groundwork that will help identify typical and atypical values for these indices. Investigator's hypothesis is that plaques with higher strain indices (softer plaques) are more prone to rupture than plaques with lower strain indices (stiffer) plaques, thus requiring intervention. Clinical criteria for treatment has focused primarily on the degree of stenosis. Long-term objectives are to provide non-invasive methods for screening participants at risk for vascular aging or plaque rupture in asymptomatic participants, expanding upon current criteria for risk assessments based on focal transient ischemic attack (TIA) or strokes. Variations in vessel strain have been associated with, or are precursors to, plaque deposition, vascular aging, or cerebrovascular diseases. Increased arterial strain and pressure changes have been linked to brain aging using magnetic resonance imaging (MRI) based vascular indices, and memory deficits commonly linked to Alzheimer dementia. Stiffening and thickening of the arterial walls have also been associated with cerebrovascular disease. Investigators hypothesize that strain indices as vascular biomarkers can be utilized for screening possible 'vulnerable participants' validated with MRI, with the potential ability to improve endothelial function and reverse vascular aging. Strain indices may enable differentiating study participants with vascular cognitive impairment (VCI) from other dementias. Cognitive testing is unable to make this differentiation.

NCT ID: NCT04547387 Recruiting - Clinical trials for Carotid Artery Diseases

TCAR Cerebral Protection And MicroNET-Covered Stent To Reduce Strokes

TOP-GUARD
Start date: May 10, 2020
Phase:
Study type: Observational

Prospective, single center clinical study in consecutive patients with symptoms or signs of carotid stenosis related ischemic cerebral injury undergoing carotid revascularization in primary and secondary stroke prevention. MicroNET-covered stent is implanted using direct carotid artery access and temporary flow reversal to combine optimal intraprocedural cerebral protection and optimal plaque exclusion.

NCT ID: NCT04544657 Recruiting - Clinical trials for Carotid Atherosclerosis

Artificial Intelligence Based Comprehensive Assessment System of Carotid Plaque Stability

Start date: January 1, 2019
Phase:
Study type: Observational

Stroke is a common clinical disease with high disability and mortality, which seriously threatens human life and health.Carotid atherosclerotic plaque rupture is an important pathogenic basis of ischemic stroke, so judging the stability of plaque has important clinical significance in preventing ischemic stroke.Ultrasound, as a convenient, rapid, noninvasive, radiation-free auxiliary examination technology, is widely used in carotid plaque stability examination.At present, there are many methods to judge the stability of carotid plaque based on ultrasound, including two-dimensional ultrasound, contrast-enhanced ultrasound, ultrasound elastography and so on. However, the results of plaque stability judgment by various technologies deviate greatly, which is not conducive to the development of standardized diagnosis and treatment strategies by clinicians.Studies have shown that because the neovascular epidermal cells in atherosclerotic plaques are imperfect, they are easy to rupture after stress, and the ruptured neovasculature will lead to intraplaque hemorrhage, thus causing plaque shedding, and eventually obstructing the cerebrovascular cause stroke.Contrast-enhanced ultrasound can sensitively detect the distribution and course of blood vessels.The plaque's softness and hardness determine its stability, while the difference of lipids, fibers and calcium in the plaque determines its softness and hardness.Real-time ultrasound elastography can provide tissue mechanical parameters, express the soft and hard of tissue with strain value, and provide important reference information for judging plaque stability.At present, elastography technology is used to reflect the hardness of plaque, so as to further judge its stability.However, the elastography parameters are prone to deviations due to the influence of the selected section and the selected region of interest.Deep learning is the hottest research method in AI at present. [Deep learning is essentially to construct machine learning models with multiple hidden layers, and use large-scale data to train to obtain a large number of more representative feature information, so as to use these features to classify and predict samples. At present, it is widely used in the field of image analysis and plays an important role in medicine.Such as pathological image detection, regulatory genomics research, diagnosis of retinopathy and quantitative analysis of liver fibrosis, etc.Computational Fluid Dynamics (CFD) is a new discipline developed by the combination of numerical calculation and classical fluid mechanics theory. It can make it convenient for researchers to build a geometric model of cardiovascular system, simulate the real structure of vascular wall and blood, and display the results of "numerical experiments" using visualization technology.More intuitive Comprehensive response to changes in hemodynamic parameters In recent years, its application in cardiovascular hemodynamic research has become increasingly widespread, with a large number of relevant literature reports However, no report has been reported on the study of carotid plaque stability and fluid dynamics using this technology Based on the above reasons,This study attempts to use AI technology to automatically identify and quantitatively evaluate the gray scale differences of plaques, elastic image characteristics of plaques, microvessel density division of plaque contrast-enhanced ultrasound, and velocity vector imaging (VVI) to determine plaque surface stress.To study the effect of hemodynamic parameters on carotid plaque using CFD technology, and to establish a systematic comprehensive evaluation system for carotid plaque stability, which integrates two-dimensional plaque information, texture information, microcirculation perfusion information, biomechanical information and blood flow field information, and combines the results of clinical follow-up and collagen fiber content of surgical specimens, MMP9/CD34 and other examinations.

NCT ID: NCT04537403 Recruiting - Clinical trials for Carotid Atherosclerosis

PET Detection of CCR2 in Human Atherosclerosis

Start date: October 1, 2020
Phase: Phase 1
Study type: Interventional

: Use of novel radio-pharmaceutical 64CUDOTA-ECL1i to evaluate arterial atherosclrosis

NCT ID: NCT04470687 Recruiting - Carotid Stenosis Clinical Trials

Ultrafast Ultrasound Imaging Assesment of Carotid Plaque Neovascularization

ULTRA-VASC
Start date: March 17, 2021
Phase: N/A
Study type: Interventional

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.

NCT ID: NCT04448353 Recruiting - Clinical trials for Carotid Atherosclerosis

Carotid Risk Prediction (CRISP) Consortium

CRISP
Start date: March 1, 2019
Phase:
Study type: Observational

Develop adverse event prediction and plaque phenotype classification models for patients with known or suspected carotid artery disease.

NCT ID: NCT04423406 Recruiting - Clinical trials for Carotid Artery Diseases

The Changes in Carotid Plaque Neovascularization After Elovocumab Therapy

Start date: August 1, 2020
Phase:
Study type: Observational

150 selected patients will be recruited, who have at least one atherosclerotic plaque in the carotid artery that is thicker than 2.0 mm and which is determined to be uniformly or predominantly echolucent by standard ultrasonography. For each of the plaques, standard ultrasonography will be used to evaluate lesion echogenicity, while contrast-enhanced ultrasonography (CEUS) will be used to perform the visual and quantitative analysis of neovascularization. Each technique will be applied at baseline (at the time of study enrollment) and following 0.5、1 year of Elococumab Injection treatment. During the study, these patients will be treated with Elococumab Injection (1ml:140mg),ih, every two weeks.

NCT ID: NCT04271033 Recruiting - Clinical trials for Carotid Artery Diseases

MicroNet-covered Stent System for Stroke Prevention in All Comer Carotid Revascularization

PARADIGM-EXT
Start date: September 1, 2015
Phase: N/A
Study type: Interventional

All-comer study of unselected patients suitable for carotid artery revascularization to evaluate the feasibility, efficacy and safety of first line endovascular revasculariztion using MicroNet covered stent (CGuard™) in the treatment of consecutive symptomatic and increased-stroke-risk asymptomatic carotid lesions that require revascularization by Neurovascular Team decision.

NCT ID: NCT04261478 Recruiting - Stroke, Acute Clinical Trials

Endovascular Acute Stroke Intervention - Tandem OCclusion Trial

EASI-TOC
Start date: August 31, 2020
Phase: N/A
Study type: Interventional

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).

NCT ID: NCT04234854 Recruiting - Clinical trials for Carotid Artery Diseases

OPTIMAl Endovascular Exclusion of Consecutive Patient High-risk Carotid Plaque Using the MicroNet Covered Stent

OPTIMA
Start date: January 31, 2020
Phase:
Study type: Observational

Prospective, multicentric, multispecialty, international, open-label, single arm study using per-protocol intravascular ultrasound [IVUS, 20MHz electronic phase-array transducer] to document the procedure result of an effective plaque exclusion from the vessel lumen.