View clinical trials related to Aortic Valve Stenosis.
Filter by:The purpose of this study is to determine whether recording heart sounds with an acoustic stethoscope, combined with artificial intelligence (computer information), will show similar abnormalities to an echocardiogram or cardiac catheterization.
Severe aortic stenosis (AS) is the commonest form of valvular abnormality in the developed world and transcatheter aortic valve implantation (TAVI) is now widely practiced as in many cases is the preferred treatment option over conventional aortic surgery. Several studies have shown that females have an apparent better outcome with TAVI than males. There are a number of possible reasons as to the apparent favourable benefit of TAVI in women including: having both lower rates of moderate / severe aortic regurgitation and peri-procedural mortality, lower rates of bleeding and renal failure, better patient prosthesis match and recovery of left ventricular function with more favourable left ventricular remodelling. We aim to explore the long term outcomes of TAVI between males and females to try and identify specific tailored treatment options. This data will be useful in providing important information regarding gender differences in patients who are treated with transcatheter aortic valve implantation. Data provided will include long term outcomes and predictors of outcome. The study team will then identify and implement strategies to improve outcomes in patients being treated with transcatheter aortic valve implantation.
Calcific aortic stenosis (AS) (formerly "senile" or "degenerative") is a frequent disease of heart valves and is characterized by a thickness and calcification of leaflets with a significant increase of the pressure gradient, defined as an aortic jet velocity of > 2 m/s. Whenever the aortic jet velocity is > 4 m/s, in association with an aortic valve area of < 1 cm2, the disease is classified as severe and cardiac outflow obstruction develops. AS affects 1-2% of population aged of > 65 years and 12% of those aged > 75 years. Among those aged > 75 years, it is estimated that 3.5% has severe AS. With the aging of population, the prevalence of AS is expected to increase in the forthcoming years. Transcatheter Aortic Valve Implantation (TAVI) has been introduced in 2004 and consists in percutaneous replacement of the aortic valve. It is indicated in those patients with severe AS who cannot undergo surgical replacement because of high surgical risk. TAVI seems to be a good alternative to surgical intervention also for patients deemed at intermediate risk, especially if they are frail or aged. Ballistocardiography (BCG) consists of the measurement of the body's accelerations as a consequence of the recoil forces generated by the blood mass ejection at each cardiac contraction and recorded on the body's surface close to the subject's center of mass. Seismocardiography (SCG) records the heart-induced accelerations generated at each cardiac contraction and transmitted to the local chest surface. Thanks to specific algorithms applied to the SCG and BCG waves, it is possible to compute the kinetic energy (KE) and Power (P) of a single cardiac contractile cycle. The aims of our study are to demonstrate that: LVOT Vmax and LVOT VTI changes obtained with echocardiography can be estimated reliably throught BCG and SCG signals, before and after TAVI procedure; Pmax and KE computed from the BCG and SCG signals could predict the severity of the AS before the TAVI procedure. KE and P computed from non invasively recorded BCG and SCG waves may prove useful in the evaluation of AS severity and its evolution before and after TAVI procedure, respectively.
This is an independent, investigator-initiated, prospective multicenter observational study with restricted grant provided by Edwards Lifesciences that aims to describe baseline (preoperative) physical function and to assess and compare 6-month postoperative changes in the physical function of patients undergoing aortic stenosis (AS) treatment with either transcatheter aortic valve replacement (TAVR) or surgical aortic valve replacement (SAVR) implanted with Edwards valve type ("SAPIEN 3" and "SAPIEN XT" for TAVR; "INSPIRIS RESILIA", "EDWARDS INTUITY" and "Carpentier-Edwards PERIMOUNT Magna-Ease" for SAVR). Secondary objectives of this study are: to evaluate the validity of wearable devices in assessing physical function in such patients and subjects' compliance in wearing the device also after a very long follow-up time up to 12 months; to assess and compare 6-month postoperative changes in Health-Related Quality of Life (HRQoL), sleep quality, cognitive function of patients undergoing AS treatment with either TAVR or SAVR. Smart watch activity tracker "Vívoactive® HR" devices by "Garmin©" will be used in the study. Devices will be distributed to the patients at time of baseline assessment, along with a Bluetooth-paired smartphone provided with a prepaid data-only SIM-card and study-customised interface. Patients will be asked to wear the device 24 hours a day, 7 days a week, from the baseline assessment to the last follow-up, 12 months after baseline.
It is a common understanding that patients with coronary heart disease are suffering, among others, from reduced myocardial perfusion. In order to increase (normalize) the reduced perfusion, when a conventional approach failed, coronary bypass surgery, coronary vessel dilatation or stenting are performed. The similar situation with reduced myocardial perfusion may be found in patients with stenosis of the aortic valve, where aortic valve replacement may increase myocardial perfusion by left-ventricular remodelling. However, there is presently no method established to measure myocardial perfusion quantitatively and noninvasively before and after a therapeutic intervention. Data of pre- and post-therapeutic myocardial perfusion, quantitatively measured in ml/100g/min would strengthen the indication for specific therapeutic approach and enable an objective control of effectiveness of the applied therapy. Hypothesis: There is a measureable difference in quantitative myocardial perfusion values before (lower) and after (higher) interventional or surgical procedure. The goal of the study is to measure myocardial perfusion by advanced CT technology (e.g. iCT 256 Brilliance ) quantitatively in ml/100g/min in three groups of patients: 1. Before and after coronary bypass surgery 2. Before and after coronary vessel dilatation/stenting 3. Before and after aortic valve replacement. The investigators will not assign specific interventions to the subjects of these three groups. Therefore, the research is strictly observational. Design: Prospective study to measure quantitatively myocardial perfusion in the above mentioned three groups of patients with simultaneous control and registration of all essential, physiological determinants of myocardial perfusion immediately prior to each CT study. The CT myocardial perfusion measurements will be performed directly after the indication for intervention or surgery and on the last day before discharge from hospital. All the collected data (determinants) inclusively the CT-studies will be anonymised and archived on a local server. The investigators of the University of Medical Computed Sciences and Technology, Innsbruck / Austria will perform the evaluation of the myocardial perfusion measurements and all statistical analysis independently of the CT-studies performing physicians.
To assess the ability of baseline clinical parameters and imaging modalities to predict short and long term left ventricular function and clinical outcome of subjects with low-gradient, severe aortic stenosis. To assess the impact of aortic valve replacement as compared to medical therapy on clinical outcome of patients with low-gradient, severe aortic stenosis. To assess possible impact of aortic annulus assessment using 3-dimensional imaging modalities on the assessment of AS severity and definition of low gradient severe aortic stenosis.