View clinical trials related to Valvular Heart Disease.
Filter by:Study Title: A real-world study of valvular heart disease in Jiangxi Province Research Objectives: ① Main objectives: To examine the current incidence of valvular heart disease in Jiangxi Province, to establish a "Formal treatment model" for patients with valvular heart disease, and to manage the collection of diagnostic, therapeutic and prognostic data on patients. ② Secondary objective: To investigate the composite of all-cause mortality, disabling stroke, permanent pacemaker implantation, and moderate or greater valve regurgitation in the "Formal treatment model" group and the "Conventional treatment model" group. The Conventional group was matched to patients who were not in the " Formal treatment model " during the same period. Design type: a prospective, observational, real-world study (at least 1.5 years). No pre-established fixed treatment protocols, only a Formal treatment model,with all treatment choices made entirely by clinicians following relevant textbooks, expert consensus on clinical guidelines, and based on the patient's condition. Subjects: All patients with moderate to severe heart valve disease were collected from the Second Affiliated Hospital of Nanchang University and hospitals at all levels in Jiangxi Province from September 2022 to September 2023.
The study aim is to test the diagnostic performance of internists interpreting echo images aided by the AISAP CARDIO V0.7 diagnostic support system. Ground truth will be established by an interpretation by cardiologists specialized in echo, of the same POCUS images (acquired by the internist \ sonographer ). Up to 1000 subjects; Study population will be distributed according to the following schema: Group 1 -up to 800 patients hospitalized in the Internal Medicine division Group 2 - up to 200 patients hospitalized in the acute Geriatric division
The Bronx-Valve Registry is designed to collect and assess data on all patients with valvular diseases referred to Montefiore Medical Center for echocardiographic exams.
Robotic surgery is one of the most popular minimally invasive procedures for patients with coronary artery disease or valvular diseases. Studies have shown that, as compared to conventional sternotomy, patients underwent robot-assisted bypass grafting or valvuloplasty had less post-operation pain, blood transfusion volume during operation, re-operation rate, post-operation stroke rate and length of hospitalization. However, most studies focused on the comparison of complications of different procedures, and the investigation of cardiopulmonary function recovery is still lacking. Thus our study is to compare the functional outcomes between patients that undergo different surgical procedures.
Considering decrease of major complications and improvement of procedural results, conductive disorders currently remain the main issue after TAVR (Transcatheter aortic valve replacement). While pacemaker implantation rate was about 10-15%, new onset LBBB (Left bundle branch block) was observed in 30 % of patients after TAVR but resolved at discharge in the majority of them, with less than 20% progressed to complete AV (atrioventricular) block requiring permanent pacing at hospital discharge. Higher implantation and improvement of the devices were associated with decline of pace maker implantation rate over the years in experienced teams. While guidelines do not give definite recommendation regarding conductive disorder management and pacemaker indication, a strategy of selective telemetry monitoring (TM) after TAVR according to the risk of conductive disorders may be proposed to limit indication and lenght of stay of intensive care unit admission (ICU), allowing direct admission of lower risk patients in general cardiology ward (GCW) without TM, to decrease the duration of TM when a conductive disorder is stable or regressive and finally to decrease the rate of pacemakers implantation. Potential benefit may also include limitation of ICU overload in high volume TAVR centers, investigators can also expect shorter hospitalization duration, with potential economic impact, in line with the development of algorithms for fast track procedures. Therefore the main objective of our prospective study was to evaluate feasibility and safety of a strategy of management of conductive disorders after TAVR based on an algorithm of diagnosis, monitoring and therapeutic strategies based on ECG analysis.
The PREVUE-VALVE study will establish reliable, population-based estimates of Valvular Heart Disease (VHD) prevalence among older Americans and allow for the development and validation of several innovative tools to aid in the detection and diagnosis of Valvular Heart Disease (VHD).
Regent China Post-Market Clinical Follow-Up (RC-PMCF): this clinical study is to confirm the safety and performance of Abbott's Regent MHV for replacement of native or prosthetic aortic valves in a Chinese population.
This pilot study is to investigate the feasibility of obtaining medical grade audio phonocardiogram (PCG) recordings using a smartphone-based auscultation device in the first step. The ability to determine Valvular Heart Disease (VHD) (i.e., presence or absence of cardiac murmurs) using novel handheld CAA-devices shall be analyzed and first data on a smartphone-based auscultation in a hospital setting shall be collected. In further studies, the data provided from this study can be used to investigate the potential diagnostic use of such devices in the ambulatory and stationary care scenarios.
Patients scheduled for cardiac surgery are fragile. Hemodynamic fluctuation might be associated with adverse outcomes. Therefore, it is essential to keep hemodynamics stable during and after the induction period. Previous studies have shown that topical anesthesia can provide excellent superior supraglottic and subglottic local anesthetic effects and can significantly reduce the dosage of intravenous anesthetics. Therefore, we designed this study to explore whether the combination of topical anesthesia and intravenous anesthetics could decrease the stress response of endotracheal intubation and keep hemodynamics stable during and after the induction period.
Sugammadex is frequently used to reverse the effects of neuromuscular blocking drugs. The recommended doses are 2 mg/kg or 4 mg/kg depending upon the depth of neuromuscular blockade. Clinical studies and experience have suggested that smaller doses may be effective. The purpose of this observational study is to determine the minimal effective dose of sugammadex by administering 50 mg every 5 minutes until the train-of-four ratio is 0.9 in a cohort of cardiac surgery patients, and to determine the duration of action by measuring the train-of-four every hour for up to 6 hours following reversal.