Hypertonic Saline for Fluid Resuscitation After Cardiac Surgery
Cardiovascular DiseasesValvular Heart DiseaseBackground: Volume replacement strategies and type of fluid used in patients undergoing cardiac surgery have changed during the last years. Currently used crystalloid solutes have a variable composition and a major impact on organ function and outcome. Additionally critically ill patients are prone to fluid overload, which is despite common perception, not a benign occurrence as it is associated with prolonged ICU- and hospital length of stay and increased mortality rates. Fluid resuscitation using bolus or continuous infusion of hypertonic saline was used for more than thirty years. Only a few studies have been conducted so far, but they showed that infusion of hypertonic saline results in less volume administered, increased renal function less weight gain in critically ill patients when compared to other crystalloids. Aim: This preliminary randomized controlled double-blind study aims to identify whether fluid resuscitation using hypertonic saline (HS) when used in addition to lactated Ringers solution results in less total fluid amount administered in patients following cardiac surgery. Additionally we want to evaluate whether the use of hypertonic saline results less need for pharmacological cardiocirculatory support, increased renal function, less postoperative volume overload shortened post-cardiac bypass immune suppression and increased postoperative outcomes. Study intervention: At admission to the ICU patients will receive 5ml/kg body weight of 7.3% NaCl or 0.9% NaCl by infusion pump over 60 minutes. If necessary, fluid resuscitation will thereafter be performed with Ringer's lactate to normalize peripheral perfusion and to allow weaning of vasopressors.
Femorofemoral Bypass in Redo Cardiac Surgery
Heart Valve DiseasesRedo cardiac surgery are becoming more common with a patient population at greater risk. Sternal re-entry poses the hazard of probable injury to vital structures. To minimize the risk associated with sternal re-entry, the investigators adopted the method of establishing femoral artery-femoral vein cardiopulmonary bypass (CPB).
The Pharmacogenetics of Optimal Warfarin Therapy in Chinese Patients After Heart Valve Replacement....
Heart Valve DiseaseOlder Than 18-years-old1 moreTo value the accuracy of the dosing algorithm published by the International Warfarin Pharmacogenetics Consortium in Chinese patients after heart valve replacement. To value the accuracy of warfarin pharmacogenomics algorithm by the algorithm calculated dose and actual dose in the Chinese patients.
Effect of Glucose-Insulin-Potassium on Hyperlactatemia in Patients Undergoing Valvular Heart Surgery...
Valvular Heart DiseaseHyperlactatemia, occuring 10-20% in patients undergoing valvular heart surgery, is known to be associated with hemodynamic instability, organ dysfunction and increased postoperative morbidity and mortality. Glucose-Insulin-Potassium(GIK) has been constantly used as an adjuvant therapy in patients with myocardial infarction or in the patients undergoing valvular heart surgery to reduce the low cardiac output syndrome and mortality. GIK is known to prevent excretion of lactate and to increase the extraction of lactate after reperfusion with various mechanism. In addition, it is also known to decrease ischemic-reperfusion injury of myocardium after CPB, to improve myocardial contractility, insulin resistance and hyperglucemia. As a result, it brings hemodynamic stability and sufficient oxygen supply to the tissue, which might reduce the incidence of hyperlactatemia after valvular heart surgery.
Effect of Propofol on Renal Injury in Patients Undergoing Valvular Heart Surgery
Heart Valve DiseaseIschemia/reperfusion (I/R)-induced acute kidney injury is a serious complication affecting patient outcome following cardiovascular surgeries. Propofol, an intravenously administered anesthetic with antioxidant properties, protects organs from I/R injury. This study aimed to investigate the ability of propofol to protect kidneys against I/R injury in the patients undergoing valvular heart surgery.
Valve Leaflet Motion in Sutureless Bioprosthetic Aortic Valves
Aortic Valve StenosisHeart Valve DiseaseA single-center prospective interventional trial. Patients implanted with a sutureless bioprosthetic aortic valve at Karolinska University Hospital in Stockholm, Sweden from 2012 will be eligible. 4-dimensional volume-rendered computed tomography (CT) of the heart will be performed. The aim of the CT is to assess valve leaflet motion. Results of the CT examination, preoperative clinical characteristics, and postoperative clinical data will be registered. Data will be collected prospectively and retrospectively. Informed consent will be obtained from patients meeting the inclusion criteria before the initiation of any study-specific procedures.
Magnetic Resonance Imaging and Fibrosis
Heart Valve DiseaseVentricular Function1 moreAortic valve disease causes impaired let ventricular function (LVF) due to hypertrophy, dilatation and diffuse myocardial fibrosis yet the prognostic effect of fibrosis, waiting time for operation and postoperative exercise training is presently unknown. The investigators aim to (1) determine the changes in LVF for patients on the waiting list; (2) establish non-invasive diagnostics for diffuse myocardial fibrosis; (3) relate LVF to fibrosis and physical capacity. The unique design (echocardiography, cardiopulmonary exercise test, cardiac magnetic resonance tomography and myocardial biopsy on the same patients) makes it possible to establish relationship between results of histology and imaging; quantifying and qualifying fibrosis in vivo, evaluate LVF vs. general cardiopulmonary function and optimize health care prior to and after operation.
Pre-habilitation of Patients Scheduled for Cardiac Valve Surgery
Valvular Heart DiseaseCardiac rehabilitation (CR) is an integral part of cardiovascular disease management incorporating aspects of scientifically constructed appropriate physical exercise. CR has been repeatedly shown to significantly improve functional capacity, depression and wellbeing, even following short term interventions. Functional capacity is closely related to frailty, a key prognostic factor in subjects undergoing cardiac surgery. We intend to enroll 50 stable subjects with valvular heart disease scheduled for surgical intervention. Our hypothesis is that the Prehab group will improve their functional capacity to a greater degree than the usual care group, possibly associated with better clinical outcomes.
Fast Track Concept for Transfemoral TAVI
Heart Valve DiseasesComplication,PostoperativeTranscatheter aortic valve implantation (TAVI) in high-risk patients with severe aortic valve stenosis has developed itself until today as an established minimally invasive alternative procedure worldwide, with a focus on the transfemoral access (TF-TAVI). Meanwhile a number of studies have shown that analgosedation for patients undergoing TF-TAVI is a safe and feasible alternative to general anaesthesia (1). The median length of stay in hospital in Europe is currently 8 days independent to the anesthesia management (2). In the University Hospital Schleswig-Holstein, Campus Kiel, a new TF-TAVI fast-track-concept has been implemented in June 2018. The main intraprocedural aspects of the concept are the preprocedural fluid optimization using transthoracic echocardiography, the idea to decrease or omit the central venous line and the urinary catheter, if reasonable, and finally the individualized low-dose, bolus-based AS.
Release of Epoxyeicosatrienoic Acids From Erythrocytes During the Use of Extracorporeal Procedures...
Coronary ArteriosclerosisValve Heart DiseaseHypotension 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.