Clinical Research Directory

The JenaValve ALIGN-AR LVAD Registry

To evaluate the safety and effectiveness of the JenaValve Trilogy™ Heart Valve System for transcatheter aortic valve replacement (TAVR) in subjects with continuous flow left ventricular assist devices (cfLVAD) and clinically significant aortic regurgitation (AR) who are indicated for TAVR

Transcatheter Aortic Valve Replacement Versu Surgical Aortix Valve Replacement for Treating Elderly Patients With Severe Aortic Stenosis and Small Aortic Annuli: A Prospective Randomized Study The VIVA Trial

To date, no formal, randomized, prospective, head-to-head comparisons of surgical aortic valve replacement (SAVR) versus transcatheter aortic valve replacement (TAVR) have been undertaken in the severe aortic stenosis (AS) population with small aortic annuli. Objectives of the present study are to compare the hemodynamic performance (incidence of severe PPM and ≥ moderate AR) and clinical outcomes (death, stroke, major or life threatening bleeding) between TAVR and SAVR in patients with severe AS and small aortic annuli.

ART Trial: Transcatheter J-VALVE Versus Surgery for Aortic Regurgitation Therapy

The overall purpose of ART trial is to establish the Safety and Efficacy of the J-VALVE Transcatheter Aortic Valve Replacement Versus Surgical Aortic Valve Replacement in Patients with Grade≥3+ Native Aortic Regurgitation.

TAVR for Aortic Regurgitation Under TTE Guidance

Transcatheter aortic valve replacement (TAVR) is an established therapy for severe aortic valve disease, yet conventional workflows rely on fluoroscopy and iodinated contrast, exposing patients and operators to ionizing radiation and posing challenges for individuals with chronic kidney disease, contrast allergy, or other contraindications. In patients with native aortic regurgitation, the absence of annular/leaflet calcification and frequent annular dilation can further complicate device positioning and anchoring, increasing the procedural dependence on precise imaging guidance. Transthoracic echocardiography (TTE) provides real-time assessment of valve anatomy, coaxial alignment, depth control, and immediate hemodynamic results, and-when used as the primary imaging modality-offers a potential "radiation- and contrast-free" alternative for selected patients. However, clinical evidence for fully TTE-guided (echo-only) TAVR remains limited. Here, the investigators describe our procedural workflow and evaluate the feasibility and early outcomes of total TTE-guided TAVR for treating aortic regurgitation.

TAVR for Aortic Regurgitation Under TEE Guidance

Under contemporary practice, transcatheter aortic valve replacement (TAVR) is typically performed with fluoroscopic visualization and repeated injections of iodinated contrast. While effective, this paradigm introduces cumulative radiation exposure to both patients and staff and can be problematic in individuals with renal dysfunction, prior contrast reactions, or other situations where contrast use is undesirable. Treating native aortic regurgitation (AR) adds another layer of complexity: limited valvular/annular calcification, enlarged annular dimensions, and dynamic root motion may reduce frictional "purchase" and make prosthesis stabilization more demanding, thereby heightening the need for continuous, high-fidelity intraprocedural imaging. Transesophageal echocardiography (TEE), with its close acoustic window to the aortic root, provides detailed real-time information on annular geometry, cusp coaptation, LVOT-aortic root alignment, guidewire trajectory, and implant depth, and it allows immediate confirmation of valve function and rapid recognition of adverse events (e.g., significant paravalvular regurgitation, maldeployment, pericardial effusion, or coronary compromise). Leveraging TEE as the dominant imaging modality therefore represents a pragmatic pathway toward a low-radiation and potentially contrast-sparing-or in selected cases, contrast-free-TAVR workflow. Nevertheless, evidence supporting an "echo-only" TEE-guided approach remains sparse, especially for native AR. In this study, we present a standardized TEE-guided procedural protocol and report feasibility and early clinical outcomes of TEE-only TAVR in patients with aortic regurgitation.

ARTIST: Aortic Regurgitation Trial Investigating Surgery Versus Trilogy™

To demonstrate non-inferiority of the Trilogy Transcatheter Heart Valve (THV) System compared with surgical aortic valve replacement (SAVR) for treatment of subjects with clinically significant native aortic regurgitation (AR)

3-Dimensional Simulation Guided Transcatheter Aortic Valve Replacement in Aortic Regurgitation(DIGITAL)

This study will evaluate the safety and efficacy of postmarket bioprosthetic aortic valve in patients with severe aortic regurgitation undergoing transapical transcatheter aortic valve replacement based on 3D simulation technology using a prospective, randomized controlled study.

TRanscAtheter TreatMent of PurE Aortic Regurgitation With VitaFlow Liberty System

This study is a prospective, multicenter, non-randomized controlled trial, planning to enroll 180 patients with pure native aortic regurgitation. On the basis of standardized medical therapy, patients will be assigned in a 1:1 ratio to undergo transfemoral transcatheter aortic valve replacement (TF-TAVR) . This prospective, multicenter trial aims to evaluate the safety and effectiveness of transfemoral TAVR using the VitaFlow™ self-expanding valve system compared to dedicated transcatheter devices in patients with PNAR. The primary endpoint is a composite of all-cause mortality, disabling stroke, and rehospitalization for heart failure, myocardial Infarction, and requiring dialysis or valve reoperation at 12 months post-procedure. Secondary endpoints include procedure-related complications, long-term clinical events, patient functional status and quality of life, bioprosthetic valve imaging follow-up, echocardiographic parameters, and treatment costs. All endpoint definitions conform to the Valve Academic Research Consortium-3 (VARC-3) criteria

Comparative Imaging Assessment of Valvular Heart Disease

The purpose of the study is to compare the various 2D and 3D methods of valvular heart disease quantification (Doppler, PISA, VCA, volumetric method) and strain with cardiac magnetic resonance (CMR) measurements of left and right ventricular systolic function strain and myocardial fibrosis assessment.

DELINEATE-Prospective

Heart disease is the leading cause of death in the United States, and echocardiography (or "echo") is the most common way doctors look at the heart. Echo is safe, painless, and can detect major heart problems, including weak heart pumping and valve disease. Valve disease, especially aortic stenosis (narrowing) and mitral regurgitation (leakage), is common in older adults but often goes undiagnosed. While echo is the main tool for finding valve problems, it takes time, requires expert training, and results can vary between readers. Recent advances in artificial intelligence (AI), especially deep learning (DL), have shown promise in automatically analyzing heart images. However, past research hasn't fully tackled key echo techniques-like color Doppler and spectral Doppler-that are crucial for measuring how blood moves through heart valves. AI tools also face challenges in being used in everyday medical practice because of workflow issues, lack of real-world testing, and concerns about how the algorithms make decisions. At Columbia University Irving Medical Center, researchers have built a large database of heart tests over the last six years and developed AI programs to analyze echocardiograms. The current study will test whether providing AI analysis to cardiologists in real time during echo reading can make the process faster and more consistent.

Novel Characterization of Sex Specific Biologic Signatures in Valvular Heart Disease

This project aims to validate sex-specific biologic signatures associated with aortic valve disease developed in a large multicenter CMR registry, using unsupervised phenomapping. The aim to use standard and advanced CMR techniques (MRF, DTI, chemical exchange transfer, and radiomics analysis) is to determine advanced CMR predictors of reverse remodeling following aortic valve surgery and develop sex-specific thresholds for risk. Infrastructure developed by this study will enable development of an innovative, scalable, sex-specific precision medicine cardiovascular imaging pipeline to determine overall risk and treatment response.

CT-evaluation of Coronary Ostia Height After Surgical Aortic Valve Replacement.

The goal of this interventional, single-center study is to demonstrate if there is a change in the coronary ostia height after surgical aortic valve replacement and if it depends on the type of prosthesis or surgical technique used. The study involves patients undergoing elective surgical aortic valve replacement with a bioprosthesis. Participants enrolled will undergo a CT scan before and after surgery (at least 90 days after surgery) to analyze coronary ostia height.

Mild and Moderate Aortic Regurgitation: Risk Factors for Progress and Outcome

This observational study aims to evaluate risk factors of progress and adverse outcome of aortic regurgitation

Early Feasibility Study of Surgical Implantation of a Polymer Prosthetic Mitral and Aortic Valve

The goal of this clinical trial is to explore the early feasibility, initial safety, and efficacy of surgical implantation of a polymer prosthetic heart valve in patients requiring either mitral valve replacement or aortic valve replacement. The main question it aims to answer is: \-- What is the rate of valve-related complications, including thromboembolism, valve thrombosis, severe perivalvular leak, severe bleeding, and endocarditis, at 12 months post-operation? Participants will undergo: * Surgical implantation of a polymer prosthetic valve (mitral valve replacement for mitral valve group and aortic valve replacement for aortic valve group). * Regular follow-up visits at 30 days, 3-6 months, and 12 months post-operation to evaluate clinical outcomes, including echocardiographic assessment and clinical event monitoring.

J-Valve TF Early Feasibility Study

The main objective of this study is to assess the preliminary safety and effectiveness of the J-Valve TF System in patients with symptomatic severe native aortic regurgitation who are judged by a multi-disciplinary heart team to be eligible for the device and to be at high risk for open surgical aortic valve replacement.

Safety and Effectiveness of TaurusTrio™ Heart Valve System in Patients With Severe Aortic Regurgitation (AR)

To evaluate the safety and effectiveness of the TaurusTrio™ Heart Valve System in a patient population with symptomatic severe AR requiring replacement/repair of their native aortic valve that are at high risk for open surgical aortic valve replacement/repair (SAVR).

THE ALIGN-AR EFS TRIAL: JenaValve Pericardial TAVR Aortic Regurgitation Study

To collect information about treatment for severe Aortic Regurgitation (AR), which affects the aortic valve in the heart. Aortic regurgitation is a condition where aortic valve in the heart does not close tightly and allows some blood to leak back into the heart chamber. Symptoms of aortic regurgitation may include fatigue and shortness of breath. The preferred treatment for severe aortic regurgitation is aortic valve replacement surgery.

The JenaValve ALIGN-AR Pivotal Trial

To collect information about treatment for symptomatic severe Aortic Regurgitation (AR), which affects the aortic valve in the heart. Aortic regurgitation is a condition where aortic valve in the heart does not close tightly and allows some blood to leak back into the heart chamber. Symptoms of aortic regurgitation may include fatigue and shortness of breath. The preferred treatment for severe aortic regurgitation is aortic valve replacement surgery.