View clinical trials related to Echocardiography.
Filter by:Assessing the Efficacy of Artificial Intelligence in Left Ventricular Function Screening Using Parasternal Long Axis View Cardiac Ultrasound Video Clips ABSTRACT BACKGROUND: Echocardiography serves as a fundamental diagnostic procedure for managing heart failure patients. Data from Thailand's Ministry of Public Health reveals that there is a substantial patient population, with over 100,000 admissions annually due to this condition. Nevertheless, the widespread implementation of echocardiography in this patient group remains challenging, primarily due to limitations in specialist resources, particularly in rural community hospitals. Although modern community hospitals are equipped with ultrasound machines capable of basic cardiac assessment (e.g., parasternal long axis view), the demand for expert cardiologists remains a formidable obstacle to achieving comprehensive diagnostic capabilities. Leveraging the capabilities of Artificial Intelligence (AI) technology, proficient in the accurate prediction and processing of diverse healthcare data types, offers a promising for addressing this prevailing issue. This study is designed to assess the effectiveness of AI in evaluating cardiac performance from parasternal long axis view ultrasound video clips obtained via the smartphone application. OBJECTIVES: To evaluate the effectiveness of artificial intelligence in screening cardiac function from parasternal long axis view cardiac ultrasound video clips obtained through the smartphone application.
To evaluate the long-term clinical outcome of a cohort of patients suffering from moderate tricuspid regurgitation (TR), regardless of its etiology.
Aim of the study was to assess whether preoperative echocardiography affects time to surgery, length of hospital stay and in hospital mortality in patients undergoing hip fracture surgery. In the study entered two hundred fifty -five consecutive patients with hip fracture referred to a multidisciplinary hip fracture unit at a tertiary teaching hospital. Other 717 patients referred before implementation of routine echocardiographic examination were considered as control group. Echocardiography was performed in patients with systolic murmurs, unstable clinical conditions, recent decompensation of heart failure or hospital admission for coronary disease. Time to surgery, length of hospital stay (LOS) and in hospital mortality in patients underwent preoperative echocardiography (high risk group) were compared with patients who did not undergo echo (low-risk group ) and with an historical group.
The aim of the present work is to study the cardio-respiratory effects of non-invasive ventilation (nasal high-frequency ventilation and nasal CPAP) as an initial therapy of respiratory distress in moderate and late preterm infants as regard: I. Primary outcomes: - Duration of the non- invasive respiratory support. - Need of invasive ventilation in the first 72 hours. - Short-term complications such as air leak syndromes, pulmonary hemorrhage, intraventricular hemorrhage, and nasal trauma. II. Secondary outcomes: - Need for surfactant administration. - Days on invasive mechanical ventilation. - Days on supplemental oxygen. - Duration of hospital stay. - Mortality rate. III. Hemodynamic changes during the period of non-invasive ventilation.
The purpose of the study is to collect user feedback on the Vivid E95 ultrasound system and probes during clinical procedures on the device's intended population in order to optimize the device.
Since the first successful percutaneous closure under transoesophageal echocardiographic (TEE) guidance, many centres explored transcatheter procedures without fluoroscopy. This single centre study aims to show the feasibility and safety of percutaneous patent ductus arteriosus (PDA) closure under echocardiography-only guidance during our one-year experience. Patients with PDA were recruited for percutaneous PDA closure guided by either fluoroscopy or echocardiography-only in National Cardiovascular Center Harapan Kita. Patients were evaluated clinically and radiologically using TTE at 6, 24 and 48 hours after the procedure. Primary endpoint was the procedural success. Secondary endpoints were the procedural time and the rate of adverse events. Echocardiography-guided PDA closure is non-inferior to fluoroscopy-guided PDA closure, with similar procedural times. However, this method is operator-dependent and requires an experienced team for it to be performed successfully.
Cardiac output will be measured in healthy parturients undergoing cesarean delivery under spinal anesthesia
Background: Intraoperative hypotension increases 30-day mortality and the risks of myocardial injury and acute renal failure. Patients with inadequate volume reserve before the induction of anesthesia are highly exposed. The identification of latent hypovolemia is therefore crucial. Ultrasonographic measurement of the inferior vena cava collapsibility index (IVCCI) is able to detect volume responsiveness in circulatory shock and growing evidence support the theory that higher IVCCI can predict intraoperative hypotension. The aim of the present study is to evaluate the potential benefit of an ultrasound-based protocol for preoperative fluid optimization. The investigators will perform a randomized-controlled study involving elective surgical patients. An ultrasound-based protocol (USP) arm and a conventional fluid therapy group (CFT) are to be formed. Ultrasound examinations will be performed twice in both groups: 2 hours and 30 minutes preoperatively. The inferior vena cava and the anterior lung fields will be scanned. In the USP group the participants will receive fluid therapy according to the ultrasonographic findings: high level of IVCCI and absence of signs of pulmonary edema will indicate fluid therapy. In the CFT group the attending anesthesiologist (blinded to the results of ultrasonography) will order fluid therapy on the basis of daily routine and clinical judgement. The investigators will evaluate the incidence of intraoperative hypotension (primary outcome), postoperative metabolic status and organ functions and the amount of the administered intravenous fluids in both groups.
Due to radiation exposure and low but real risk of morbidity and mortality associated with right heart catheterization, non-invasive procedures to estimate mPAP are desired for the diagnosis of PH or to monitor treatment effectiveness. Echocardiography is used as a screening tool to estimate systolic pulmonary arterial pressure (sPAP), but due various limitations, this technique is not considered to be sufficiently accurate for the diagnosis of PH. The aim of 4D flow MRI is to evaluate the complete time-varying tridirectional velocity field in a volume of interest. It enables flow and velocity measurements in a vascular region of interest and visualization of vector plots of blood flow velocity fields. Previous studies have shown on the one hand, correlations between mPAP and hemodynamic parameters obtained by phase contrast MRI and, on the other hand, appearance of a vortical blood flow in the pulmonary artery in PH. More studies are required to confirm 4D MRI as a valuable tool for mPAP estimation in PH. Following screening echocardiography, all patients will undergo right heart catheterization for PH assessment. Then, all patients will be referred for a complete cardiac MRI exam with the addition of a 4D Flow sequence (does not require supplementary injection of a contrast agent and does not extend the duration of the examination) followed promptly (within the same hour) by a Doppler-echocardiography. The data from each examination will be blindly interpreted from the results of the other one. No follow-up will be required for the study.
This study will test a clinical reminder to show recent echocardiograms when a new echocardiogram is ordered. The goal is to avoid unnecessary comprehensive echocardiography.