Active clinical trials for "Constriction, Pathologic"

This study is a multi-center, prospective, registry study. This research was supported by the National Key Research and Development Program. To establish a domestic multi-center, large-scale "brain-heart comorbidity" dynamic database platform including clinical, sample database, image and other multi-dimensional information requirements, through the construction of a multi-center intelligent scientific research integration platform based on artificial intelligence. Any of newly diagnosed cardiovascular related diseases were identified via ICD-10-CM codes: I21, I22, I24 (Ischaemic heart diseases) [i.e., ACS], I46 (cardiac arrest), I48 (Atrial fibrillation/flutter), I50 (Heart failure), I71 (Aortic disease), I60 (subarachnoid hemorrhage), I61 (intracerebral hemorrhage), I63 (Cerebral infarction), I65 (Occlusion and stenosis of precerebral arteries), I66 (Occlusion and stenosis of cerebral arteries), I67.1 (cerebral aneurysm), I67.5 (moyamoya diseases), Q28.2 (Arteriovenous malformation of cerebral vessels). The data is stored on the brain-heart comorbidity warehouse via a physical server at the institution's data centre or a virtual hosted appliance. The brain-heart comorbidity platform comprises of a series of these appliances connected into a multicenter network. This network can broadcast queries to each appliance. Results are subsequently collected and aggregated. Once the data is sent to the network, it is mapped to a standard and controlled set of clinical terminologies and undergoes a data quality assessment including 'data cleaning' that rejects records which do not meet the brain-heart comorbidity quality standards. The brain-heart comorbidity warehouse performs internal and extensive data quality assessment with every refresh based on conformance, completeness, and plausibility (http://10.100.101.65:30080/login).

• The aim of 3DP-FAST study is to analyze the accuracy of replicating cardiovascular anatomical structures using different techniques and to evaluate the feasibility of 3D printed models of aortic stenosis in guiding TAVI procedure. By conducting a comparative analysis of measurements achieved on CCTA images versus measurements obtained with a specialized projection platform by photogrammetry vs 3D printed models of various aortic valvular and perivalvular structures will be evaluated the accuracy of each step of image dataset processing. Furthermore, the study will evaluate the rate of valvular leak or peri-procedural complications such as embolic events or atrio-ventricular conduction block based on coronary computed tomography angiographic and ECG assessment at 1 year after enrollment.

Lumbosacral spinal stenosis (LSS) is a leading cause of limited mobility, reduced independence, and poor health outcomes in older adults, and is very common in older adult Veterans. Several years ago, major research studies indicated that surgery for LSS was more effective than usual (medical) management. Nonetheless, there are many patients for whom surgery is not the ideal therapy. There have been reports that modifications in daily activities including temporary use of a modified rolling walker and changes in sleep positioning may help relieve LSS. The investigators have assembled a VA team to study this carefully. The investigators will recruit a small group of older adult Veterans with LSS to try out this program; the investigators will monitor them closely for relief of their symptoms and improvements in walking. The investigators will, as part of this small study, try to understand potential barriers to use of this therapy. The investigators will interview the Veterans and healthcare providers to identify problems that may arise in trying this therapy. If this small study works, the investigators plan to expand the effort.

The aim of the study is to evaluate the expression of Sodium Glucose Co-transporter 2 (SGLT2) in myocardium from patients with aortic stenosis. 2 groups of patients will be defined: Group A with diastolic heart failure and Group B without heart failure. The expression of SGLT2 will be measured on small myocardium specimens harvested during aortic valve replacement operation. This study should allow us to better understand the effect of glifozines in human heart failure.

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.

There have been few published studies that examine the efficacy and safety of endovascular treatments on patients with pulsatile tinnitus with venous stenosis. Despite the limited experience with venous sinus stenting to treat pulsatile tinnitus, preliminary results show that venous sinus stenting could represent a viable alternative for refractory pulsatile tinnitus patients with venous sinus stenosis. The purpose of this study is to evaluate the safety and efficacy of this procedure in a controlled fashion, using strict inclusion and exclusion criteria, and long-term clinical and imaging follow-up. The investigators hope to provide robust data regarding the safety and efficacy of venous sinus stenting for patients with pulsatile tinnitus.

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.

Biliary obstruction complicates the course of chronic pancreatitis in 3%-23% of patients and in these cases, endoscopy and surgery are the treatment modalities of choice. Morbid-mortality of these procedures is similar and physicians face the decision between endoscopy and surgery for this group of patients, with no randomized controlled trial available comparing these procedures. The PASTEC trial is a multicenter, phase III, randomized, comparing the effectiveness of surgical and endoscopic interventions in the management of bile duct stricture for chronic pancreatitis. The primary end point is 18-months normalization of serum alkaline phosphatase. Secondary end points are morbid-mortality rate, quality of life, numbers of endoscopic or surgical procedures, length of stay. Eighty-six patients need to be included.

According to current European Recommendations on valvular heart disease (VHD), "classical" severe aortic stenosis (AS) is defined by an aortic valve area (AVA) ≤1 cm2 and indexed AVA ≤0.6 cm2/m2, a mean aortic pressure gradient (MAG) >40 mmHg, and a maximal aortic velocity >4 m/sec. Aortic valve replacement (AVR) is recommended (class I indication) in patients with "classical" severe AS who have any symptoms related to aortic valve disease. In 2007, Hachicha et al. described a particular pattern of severe AS, characterized by an AVA ≤0.6 cm2/m2, low mean pressure aortic gradient (MAG <40 mmHg), despite the presence of a preserved left ventricular ejection fraction (LVEF ≥50%). This pattern of AS is encountered in nearly 15-25 % of patients who have severe AS. Typically, these patients are elderly subjects, with several comorbidities, a small left ventricular (LV) cavity with pronounced LV concentric remodeling and a restrictive physiology, leading to a decrease in LV stroke volume despite a preserved LVEF. The diagnosis and management of patients with low gradient severe AS and preserved LVEF are often challenging because: the presence of a "true" severe aortic stenosis should be carefully confirmed by a multi-modality imaging approach; the best therapeutic management (AVR versus conservative strategy) of symptomatic patients with low gradient severe AS and preserved LVEF is not clearly established. In very recently updated European guidelines on the management of VHD, symptomatic patients with low gradient and low flow severe AS and preserved LVEF have only a class IIa-level C indication for AVR. No specific indications are given for the management of symptomatic patients with low gradient and normal flow severe AS. This lack of indications is clearly attributed to a gap in knowledge which requires further investigations to be filled up.

The purpose of the project is to perform an RCT comparing patient satisfaction and outcome with or without the use of an expert panel. The purpose is also to create a registry to compare the effectiveness of decompression alone versus decompression with fusion for patients with degenerative grade I spondylolisthesis and symptomatic lumbar spinal stenosis. Primary analysis will focus on the patients' improvement from baseline patient-reported outcome questionnaires. In addition, the SLIP II registry aims to (i) develop an algorithm which could identify cases in which surgical experts are likely to recommend one treatment (i.e. >80% of experts recommend one form of treatment) and (ii) develop a radiology-based machine learning algorithm that would prospectively classify patients as either 'stable' or 'unstable.' In addition to patient reported outcomes, step counts will be collected in order to determine the correlation of step count with patient-reported outcomes (ODI and EQ-5D) and the need for re-operation. This registry portion of the study aims to prospectively collect comparative data for these patients treated with either decompression alone or decompression with fusion.