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Valve Heart Disease clinical trials

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NCT ID: NCT05558605 Recruiting - Heart Failure Clinical Trials

Use of Artificial Intelligence-Guided Echocardiography to assIst cardiovascuLar Patient managEment

AGILE-Echo
Start date: February 24, 2023
Phase: N/A
Study type: Interventional

Heart Failure and valvular heart disease are disproportionate problems in rural and remote Australia (RRA). Echocardiography is the best imaging investigation, and essential for management, but access to this essential test shows huge geographic variations, primarily because of dependence on expert acquisition. This trial seeks to demonstrate the effectiveness of artificial intelligence-based echocardiography for triage and management of patients with known or suspected heart disease in RRA.

NCT ID: NCT05238103 Recruiting - Clinical trials for Coronary Artery Disease

Impact of a Corrie Cardiac Rehabilitation Program

mTECH-Rehab
Start date: April 3, 2023
Phase: N/A
Study type: Interventional

In this randomized clinical trial, the researchers are investigating whether a multi-component virtual/hybrid cardiac rehabilitation program will improve functional status, cholesterol level, overall cardiovascular health, individual risk factors, quality of life and mental health for patients who have recently been diagnosed with myocardial infarction, received a coronary stent, underwent heart surgery or catheter-based valve replacement, as compared to usual care.

NCT ID: NCT05079672 Recruiting - Pain Clinical Trials

Efficacy and Safety of Dexmedetomidine in the Analgesic Prophylaxis , in Patients Undergoing Cardiovascular Surgery

Start date: October 7, 2021
Phase: Phase 4
Study type: Interventional

Acute pain is one of the complications after cardiothoracic surgeries . It can delay patients´recovery and may increase patients´morbity and mortality. This study intends to evaluate Dexmedetomidine, a highly selective α- 2 receptor agonist, that is currently applied safely and efficiently in intraoperative cardiac surgery. It has analgesic, sedative, anxiolytic and sympatholytic properties, without respiratory- depressant effect. The aim of this study is to investigate whether the intraoperative use of dexmedetomidine is better than the standard analgesia used in the intraoperative period to reduce pain and the consequences of it.

NCT ID: NCT04993794 Recruiting - Clinical trials for Coronary Artery Disease

Additive Anti-inflammatory Action for Critically Ill Patients With Cardiovascular Surgery (Xuebijing) IV

Start date: January 1, 2021
Phase: N/A
Study type: Interventional

XueBiJing, a Chinese herbal derived therapeutic, has been approved to treat severe infections (sepsis) in critically ill patients (China Food and Drug Administration; Beijing, China, Number Z20040033). Cardiopulmonary bypass (CPB) will produce large amounts of inflammatory mediators and oxygen free radicals, which causes the lipid peroxidation damage and mononuclear cell migration, thus aggravating organ inflammation and damage. Therefore, exploring new methods to prevent and alleviate organ injury caused by CPB is an important topi in clinical practice. However, little knowledge is regarding the effect of Xuebijing injection on CPB-related organ injury. To answer these questions, the authors conducted this randomized trial to compare XueBiJing with placebo in critically ill patients with cardiovascular surgery.

NCT ID: NCT04958668 Completed - Valve Heart Disease Clinical Trials

Prospective Evaluation of Volatile Sedation After Heart Valve Surgery

Start date: November 1, 2021
Phase: N/A
Study type: Interventional

Cardiac surgery is a complex operative procedure with a substantial risk of postoperative complications, so that patients undergoing valve surgery are usually transferred to the intensive care unit postoperatively. Various substances are used to maintain the required sedation, such as volatile anaesthetics and intravenous sedatives combined with analgetic therapy using opioids. The study intends to investigate to what extent the already well-described effect of volatile anaesthetics on recovery can be realised despite the need for differentiated intensive care and medical management.

NCT ID: NCT04938960 Active, not recruiting - Valve Heart Disease Clinical Trials

Identification of Non-gal, Non-HLA Antigens in Patients Implanted With Xenogenic Material

Start date: July 1, 2021
Phase:
Study type: Observational

This study involves collecting serum samples from patients presenting for aortic valve replacement at Mayo Clinic, Rochester, MN. Serum samples will be collected pre-op, between 2 weeks and 3 months, between 3-11 months (optional), and between 12-18 months post-operatively. The patients antibodies in these serum samples will be used to capture proteins from the same type of tissue their replacement heart valves are made from (i.e., bovine/porcine pericardium - a non-human tissue which is currently used to make glutaraldehyde-fixed heart valves). The captured proteins will be identified, and compared over time (i.e., 0, 1, 3 and 12 months) to determine which proteins (i.e., antigens) in bovine/porcine pericardium that the patient is mounting an immune response towards.

NCT ID: NCT04843072 Recruiting - Valve Heart Disease Clinical Trials

Balloon vs. Self Expanding Transcatheter Valve for Degenerated Bioprosthesis

BASELINE
Start date: May 1, 2021
Phase: N/A
Study type: Interventional

Transcatheter aortic valve implantation (TAVI) serves a growing spectrum of patients with symptomatic severe aortic stenosis (AS). Approximately 80% of surgical aortic valve replacements is performed using a bioprosthesis1. Durability of surgical bioprostheses varies based on the patient's age at the moment of implantation, type and size etc2. TAVI has become the preferred treatment for degenerated aortic bioprostheses in elderly patients3. The median time since index surgical aortic valve replacement (SAVR) and for bioprosthetic valve degeneration is typically 8 - 10 years4-6. TAVI in this setting has proven to have equally favorable results as in native aortic valves7. Balloon expandable8 and self-expanding9 transcatheter heart valves (THV) can be used in a degenerated bioprosthesis and each have specific assets and limitations. TAVI in a failed bioprosthesis can cause coronary obstruction, THV migration, paravalvular leakage and prosthesis patient mismatch. The SAPIEN-3 / Ultra and EVOLUT R/Pro are the 2 most commonly used THV platforms in contemporary clinical practice including treatment of failing surgical aortic bioprostheses. Objective: To compare TAVI with EVOLUT R/Pro vs. SAPIEN-3 / Ultra in terms of device success. Study design: International multi-center randomized study with 1:1 randomization to TAVI with SAPIEN-3 / Ultra or Evolut R/Pro. Study population: 440 patients with a failing surgical aortic bioprosthesis (aortic stenosis with or without aortic regurgitation) and selected for transfemoral TAVI by heart-team consensus. Investigational intervention: Transfemoral TAVI with SAPIEN-3 / Ultra or Evolut R/PRO Main study parameters/endpoints: 1. Primary endpoint is device success at 30 days Defined by - Absence of procedural mortality AND - Correct positioning of a single prosthetic heart valve into the proper anatomical location AND - Intended performance of the prosthetic heart valve (no severe prosthesis- patient mismatch and mean aortic valve gradient < 20 mmHg or peak velocity < 3 m/s, AND no moderate or severe prosthetic valve regurgitation). Severe prosthesis patient mismatch is defined by effective orifice area (EOAi) ≤0.65 cm2/m2 2. Safety endpoint at 1 year defined by the composite of all-cause death, disabling stroke, rehospitalization for heart failure or valve related problems.

NCT ID: NCT04598360 Completed - Clinical trials for Coronary Arteriosclerosis

Release of Epoxyeicosatrienoic Acids From Erythrocytes During the Use of Extracorporeal Procedures (Heart-lung Machine)

Start date: November 1, 2020
Phase: N/A
Study type: Interventional

Hypotension with potentially serious consequences for organ perfusion is a common complication in extracorporeal procedures such as heart-lung-machine. The exact reasons for this are still insufficiently clarified. Probably periinterventional vasorelaxant released substances play a crucial role in these procedures. These substances could be due to contact of blood cells with the Membrane in the HLM arise. In this project the hypothesis will be checked, if EETs / DHETs are released by Erythrocytes during this extracorporeal procedure and thus act as potential candidate products for the result of hypotonic phases during usage of heart-lung-machine. We will determine differences in RBC fatty acids profiling in patients before and after heart-lung-machine intervention. RBC fatty acids profiling will be achieved by using targeted HPLC-MS mass spectrometry. It is believed that during HLM there is an increase in EETs / DHETs in the serum and in the erythrocytes. It is believed that shear forces play an important role in the release of erythrocyte EETs / DHETs.

NCT ID: NCT04464876 Active, not recruiting - Clinical trials for Mitral Regurgitation

SATURN Transcatheter Mitral Valve Replacement for Functional Mitral Regurgitation

Start date: August 19, 2020
Phase: N/A
Study type: Interventional

This study is a prospective, single-arm, multi-center feasibility clinical study of the SATURN TA System for the treatment of NYHA Class ≥ II patients with severe functional mitral regurgitation who are not suitable for surgical treatment following Heart Team assessment.

NCT ID: NCT04372654 Completed - Coronary Disease Clinical Trials

Pilot Study Evaluating the Safety of Electroducer Sleeve Medical Device for Temporary Cardiac Stimulation During Percutaneous Cardiovascular Interventions, in All Kind of Patients

Start date: July 28, 2020
Phase: N/A
Study type: Interventional

During percutaneous cardiovascular intervention, temporary cardiac stimulation may be required. Usually this stimulation is generated via a temporary pacing catheter. In order to reduce the complexity of the procedure, a new stimulation strategy has been developed: the "Direct Wire Pacing technique".In this approach, the cardiac stimulation is provided via the guidewire connected to an external pacemaker. Previous study demonstrated the superiority of the new technique compared to the former. However this technique is likely to generate electrical pain, risk of bleeding for the patient and risk of blood exposure accident for the operators. This is why the medical device ELECTRODUCER SLEEVE has been developed. This device integrates a pacing function to the introducer and the guidewire used. The "Direct Wire Pacing technique" is simplified, secured and more reproducible.