View clinical trials related to Aortic Valve Stenosis.
Filter by:Rationale: Patients undergoing cardiac surgery are at risk of developing perioperative complications and major adverse cardiac events, mainly related to both their preoperative status and type of surgical procedure. Postoperative exercise based cardiac rehabilitation (CR) is an effective therapy to prolong survival and improve quality of life. However, little is known about the effect on post-operative complications, quality of life and return to work of a combined pre- and post-operative CR program encompassing physical therapy, dietary counseling, psychological support and life style management compared to a CR program, which is provided only after cardiac surgery. Objective: to determine whether a pre- and postoperative (PRE+POST) CR program improves the short (up to three months) and long term outcomes (up to one year) of the cardiac surgery (i.e. reduction in postoperative surgical complications, readmissions to hospital and major adverse cardiac events in conjunction with improvements in the physical component of health related quality of life), when compared to postoperative CR only (POST). Study design: A Prospective Randomized Open controlled trial, Blinded End-point. Patients are randomized between two standard care CR programs. One group will start a the POST CR program after surgery. The other group will be randomized to a combined PRE+POST CR program. Study population: Patients (age > 18 years) admitted for elective coronary bypass surgery, valve surgery and/or aortic surgery Main study parameters/endpoints: The primary outcome is a composite weighted endpoint of postoperative surgical complications, re-admissions to hospital, major adverse cardiac events and health related quality of life (two domains: physical functioning and physical problem), at three months and one year after surgery. Endpoints are determined by an independent endpoint committee, blinded to the group allocation. Secondary, the study focuses on physical health (cardiorespiratory fitness, muscle strength and functional status), psychological health (feelings of anxiety and depression), work participation, economics, lifestyle risk factors (physical activity and smoking behavior), self-efficacy and illness representations.
Aortic valve replacement with a biological prosthesis is the most common valve surgery performed with about 1000 operations performed in Denmark each year. Further, the introduction of percutaneous stent valves will increase these types of replacements in the years to come. A biological valve is a foreign body prone to cause thrombus formation at least until the valve is covered with recipient endothelium. There are no conclusive studies of anticoagulation and the investigators have shown stroke to be a common complication. Guidelines have variably recommended aspirin or rivaroxaban for anticoagulation, and currently aspirin is the most common recommendation. In a register study, the investigators have shown that proper anticoagulation with warfarin is likely to be superior. There is a clear need for a large randomised study of aspirin versus anticoagulation for biological aortic valve replacement. This protocol describes a randomised study where 1000 patients will be randomised to receive either rivaroxaban or aspirin for 6 months following aortic valve replacement with a biological prosthesis. The primary efficacy endpoint is a combined event of all-cause mortality and hospitalisation for either acute myocardial infarction or stroke. This study has the power to settle a discussion of appropriate anticoagulation for this operation
Early development of calcified aortic valve disease (CAVD) is a commonly occurring complication in patients with a bicuspid aortic valve (BAV, an aortic valve consisting of two leaflets instead of three). In general, CAVD is characterized by progressive narrowing of the aortic valve, with involvement of altered calcium metabolism. CAVD progression in fact may lead to necessity of valve replacement, since to date, no other therapies have been shown effective in the treatment of CAVD. The primary objective of our study is to test the hypothesis that supplementation of vitamin K2 will slow down the calcium metabolism in CAVD. Vitamin K2 is essential in the activation of matrix Gla Protein (MGP), an important inhibitory factor in the regulation of calcification. In this randomized controlled trial, 44 patients will be allocated to either the vitamin K2 or placebo group. To assess the calcification process in a detailed manner in these patients, a Positron Emission Tomography (PET) scanner using a tracer (18F-fluoride [NaF]) that has been shown to bind to regions of newly developing microcalcification in aortic valve tissue is used. We expect that vitamin K2 supplementation will reduce the calcium metabolism in the aortic valve on 18NaF-PET (primary endpoint) and slow progression of CAVD as measured by the calcium score on CT and echocardiography after 18 months (secondary endpoints), when compared to placebo.
Bicuspid aortic valve (BAV), congenital anomaly present in 2% of the population, is defined by the presence of two sigmoid valves instead of three. It is conventionally associated with histological abnormalities of the wall of the ascending aorta, risk factors of aortic dystrophy observed in 50% of cases, and dissection. Long considered an accident of development, the discovery of mutations in the NOTCH1 gene in 2 families alternating BAV and aortic dystrophy suggests the existence of a genetic predisposition and a common genetic origin for these two pathologies. Data on the genetic basis of the BAV are still limited, but the existence of a large phenotypic diversity suggests the involvement of other genes. The establishment of large collections of DNA will allow great advances in this field. The purpose of this project is to confirm the existence of a genetic determinism at the origin of the BAV with or without dystrophy of non syndromic ascending aorta, identifying genetic defects associated with the presence of a BAV in a series of candidate genes.
The role of cardiac mechanics, circulating biomarkers and frailty in predicting outcomes in patients with aortic stenosis after aortic valve replacement (SCRABLES -The 2-Parts Study) Part I: Observational study to characterize phenotypes, structural alterations and biomarkers profiles in a broad spectrum of patients with aortic stenosis and heart failure with preserved ejection fraction (HFpEF). Part II: Prospective cohort study to characterize patients' phenotypes, cardiac structural alterations, circulating biomarkers and frailty in order to optimize risk stratification and patient selection for aortic valve intervention.
Background: People with Williams Syndrome (WS) and supravalvular aortic stenosis (SVAS) have less elasticity in their blood vessels. This is called blood vessel stiffness. Blood vessels may have focal narrowings called stenoses or may just be globally more narrow. Objectives: Researchers want to see how blood vessel differences in people with Williams Syndrome and supravalvular aortic stenosis affect organs in the body including the heart, gut, kidneys, and brain. Eligibility: People ages 3-85 who have WS or SVAS Healthy volunteers ages 3-85 Design: - Participants will have yearly visits for up to 10 years. All participants will be offered the same tests. - Participants will give consent for the study team to review their medical records. If the participant is a child or an adult with WS, a parent or guardian will give the consent. - Participants will visit the NIH where they will have a physical exam and medical history. Based on their health history, participants will undergo a series of imaging tests and measures of blood vessel function over the course of 2-4 days. Tests of cognitive abilites will also be performed. Blood will be drawn and an IV may be placed for specific tests.
The purpose of this study is to evaluate the safety and effectiveness of transcatheter aortic valve replacement in Chinese population.
Williams syndrome is a rare genetic disorder occurring in 1:8000-12,000 individuals. It is caused by the deletion of 25-27 coding genes, including elastin (ELN) on the 7th human chromosome. Haploinsufficiency for these genes leads to the features of the condition, including: - Distinctive facial features; - Characteristic vascular problems including hypertension, focal vascular stenosis, (when present in the aorta this is referred to as SVAS), vascular stiffness and differences in heart rate variability; - Endocrine abnormalities including hypercalcemia, hypothyroidism, and early puberty; - Metabolic concerns with colic and failure to gain weight in infancy and obesity and early glucose intolerance in adulthood; - Characteristic neurocognitive profile comprised of cognitive impairment, high sociality with concurrent social awkwardness, difficulty with visual-spatial tasks, relative strengths in speech, and lack of social fear; - Anxiety and chronic pain in adulthood Most individuals with WS carry the same basic deletion on Chromosome 7q11.23. However, each feature may present as mild or more severe in any given individual. Variation in the presence and severity of these vascular phenotypes remains unexplained. The supravalvar aortic stenosis (SVAS) phenotype is caused by haploinsufficiency for elastin. This can come about due to the WS deletion (as above) or due to heterozygous variation in elastin (ELN) gene itself in this region. When this protein is reduced, connective tissues lose its strength, flexibility, and overall support. When this happens in the aorta, it may cause vascular narrowing that presents as shortness of breath, chest pain, and even heart failure if left untreated. Narrowing also occurs in other vessels especially the pulmonary and renal arteries. Changes in non-vascular elastic tissues such as the skin and lungs also occur. As in WBS, phenotypic variation also occurs in people with ELN gene changes--This variability remains unexplained despite all the on-going research. Most individuals with features of SVAS have either WS or an elastin variant. There are, however, a smaller number of individuals with the phenotypic features of the condition whose genetic underpinnings are yet to be defined (they are referred to as SVAS-like). Additionally, there are 26 other coding genes within the WS critical region that contribute to various other features of the condition Objective: 1. To collect historical information and to bank DNA, cells, and tissue from individuals with genetic alterations in the WS/ELN gene region, those with an SVAS -like phenotype and unaffected family members/controls to facilitate future research into the many phenotypes seen in these individuals. 2. Currently, we plan to use the collected samples to identify genetic and environmental factors that contribute to the variability in different phenotypes (vascular and non-vascular) in individuals with WS, SVAS and SVAS-like conditions, individuals with variation in WS genes other than elastin and unaffected family members and controls. For the non-vascular features of WS and SVAS-like conditions for which a specific gene has not been implicated in the disease, we would also like to identify causative genes as well as modifiers. Likewise, by evaluating people with variation in other WS region genes, we can determine what contribution those genes make to the studied phenotypes. Controls will be both used to assess the frequency of genetic features in people without the phenotype in question and to evaluate heritability, penetrance, and expressivity of relevant variants. Eligibility: People ages 0-85 with either WS, SVAS, and/or an SVAS-like condition, unaffected family members or adult unrelated controls. Design: This study is not a treatment protocol. This study will consist of: Collection of personal history (questionnaires) and medical record data (relevant physician notes, lab and diagnostic tests and studies) to study the natural history of these conditions, allow stratification of disease severity, and identification of environmental risk factors; Collection of blood, saliva, urine and surgical tissue waste to allow DNA and RNA preparation as well as study of tissues both in situ and through the generation of IPSCs; Expression studies on available tissues (lymphocytes, IPSCs, vascular, skin, other collected tissues) to look for differential regulation of target genes; Direct imaging of tissues (lymphocytes, IPSCs, vascular, skin, other collected tissues); Storage of collected data and specimens for future research; A questionnaire may be sent to participants or parent/guardian or LAR to respond on behalf of participant.
Aortic stenosis (AS) is the most common valve disease among the adult population, in the majority of the cases it only requires treatment in advanced age. Transcatheter aortic valve implantation (TAVI) has become available as an alternative treatment for very high risk or even inoperative patients who are suffering from symptomatic aortic stenosis. Until now it has been learnt that there are group of patients who are in a very bad condition and who are so frail that they do not benefit from TAVI. These patients have worse survival rate and more importantly poor quality of life in spite of a successful procedure. Cardiac surgery risk scores like Society of Thoracic surgery score (STS) and EUROSCORE are less accurate in aging high risk people. In elderly it is principal to make differentiation between utility and futility. On the other hand, beside frailty status the main barrier to TAVI is the risk of neurological impairment. Neurological injury and impairment in TAVI can occur as cerebrovascular event (CVE) and/or neurocognitive dysfunction. The two neurocognitive dysfunctions - post-operative delirium (POD) and post-operative cognitive dysfunction (POCD). Most cases remain undetected although clinically could be apparent or silent. The neurological injury can be observed and/or detected by neuroimaging techniques and cognitive trajectories. A well established and validated frailty score based on relatively simple and feasible tests could help in our everyday practice to evaluate the prognosis of elderly people undergoing TAVI and to determine those patients who really benefit from the procedure.
The WITAVI study was designed to explore the kinetic and associated outcome of Von Willebrand Factor-multimerizaton defects associated with devices in cardiovascular diseases.