View clinical trials related to Hemodynamic Instability.
Filter by:FAME-n aims to improve perinatal care by introducing new approaches to fetal and neonatal heart assessment. Better identification of high-risk deliveries requiring intervention will reduce perinatal asphyxia-related illness and death. Neonatal hemodynamics may be improved by early detection of instability of the heart and circulation. Innovative use of technology enables characterization of normal and abnormal cardiovascular transition in a significantly larger number of fetuses and newborn infants than what was previously possible. The methods used may have broad generalizability and applicability in perinatal, neonatal and pediatric medicine. In September 2023, the project was expanded with an obstetric arm called Epidural analgesia: Fetal Oxygenation and Maternal Oxygenation (Epi-FOMO). In Epi-FOMO, the relationship between maternal breathing and arterial blood gases during labour, and umbilical cord blood gases and neonatal outcomes (as specified in FAME-n) will be investigated.
Data comparing prilocaine vs bupivacaine in equipotent doses in the elderly are lacking; therefore, the study will compare the effect of prilocaine vs bupivacaine on hemodynamics in spinal anesthesia for geriatric patients undergoing endoscopic urological surgeries
The goal of this prospective observational study is to investigate the impact of tourniquet application on cardiac efficiency through the cardiac cycle efficiency parameter and to explore how central regional technique alters this effect compared to general anesthesia. We aim to answer the following main questions: 1) Does the use of a tourniquet reduce cardiac efficiency? 2) Does the impact of tourniquet use on cardiac efficiency vary with general anesthesia or central regional technique? The patients included in the study will be divided into two groups based on whether they receive general anesthesia or combined spinal epidural anesthesia.The patients' cardiac cycle efficiency and advanced hemodynamic monitoring parameters will be recorded during procedure.
The main aim of this study is to compare the perioperative effects of different intra-abdominal pressures and different insufflators in patients undergoing robotic surgery at a 30-45 degree trendelenburg position.
The goal of this interventional study is to check the effectiveness of nebulized Dexmedetomidine in preventing the rise in blood pressure and heart rate in patients undergoing General Anesthesia. The study will be conducted in patients presenting for elective surgery either healthy or having co-existing medical conditions which affect their daily living to a moderate extent. These participants will require general anesthesia for their surgical procedure. General Anesthesia will make the patient unconscious, unable to breath and protect his airway. One way to provide airway and ventilatory support to such patient is by placing endotracheal tube into the patient's windpipe and for that direct laryngoscopy is performed. Direct laryngoscopy is one of the most painful stimulus a person can receive. Therefore like any other thing that causes pain it leads to a rise in blood pressure and heart rate. This can be harmful to the person suffering from cardiac disease. As a result one must blunt this painful response while providing adequate airway support to the patient needing General Anesthesia. There are number of drugs which can be used for this purpose. They can be given Intravenously or directly into the patient upper airway so that they can make the area numb. One of the drugs which is used for this purpose is Dexmedetomidine. In this study Dexmedetomidine will be nebulized and directly deliver to the patient's airway just like an asthmatic receives medication from inhaler devices. After giving sufficient time for drug to work, airway will be secured with endotracheal tube using direct laryngoscopy and the degree of rise in Blood Pressure and Heart rate of the patient will be observed. The results will be compared with a control group receiving a substance which looks like a drug but has no effects.
Muscle contractions induced by calf low-intensity neuromuscular electrical stimulation (C-LI-NMES) can increase venous return and may reduce venous thromboembolism. This study aimed to compare the effect of different C-LI-NMES frequencies and plateau times on hemodynamics, discomfort and energy efficiency, when applied via sock-integrated transverse textile electrodes.
Net ultra filtration (NUF) is one of the most important parameters during renal replacement therapy (RRT) whose role is to control fluid balance by water removal. To our knowledge, there are no prospective studies or guidelines about the setting of this parameter. In the NEPTUNE study, we aim to compare the hemodynamic effect of three NUF rates during RRT: 1 ml/kg/h, 2 ml/kg/h and 3 ml/kg/h. The research hypothesis is that one of the three flow rates evaluated induces the fewest hemodynamic instabilities related to RRT, while guaranteeing the best possible fluid balance.
Fluid management is one of the key issues in the initial management of septic shock (SS). Fluid overload and hypovolemia have been associated with increased mortality in several trials. Transthoracic echocardiography (TTE) and lung ultrasound are recommended for haemodynamic assessment in critically ill patients. However, the benefit of hemodynamic optimisation using echography has not been yet evaluated. The purpose of this multicenter, controlled, randomized trial is to assess the impact of an echocardiographic algorithm of hemodynamic optimization on fluid management in septic patients during the first 4 days of therapy.
Robotic-assisted laparoscopic prostatectomy (RALP) is the gold standard surgical technique in prostate surgery. Many Robotic-laparoscopic surgical techniques also require the intraoperative deep Trendelenburg position and intravenous fluid restriction during surgery. However, the possible side effects of the deep Trendelenburg's position and the fluid restriction on the cardiovascular and renal systems during surgery are unknown. Although the Trendelenburg position is a life-saving maneuver in hypovolemic patients, it also carries undesirable risks. Long console time may contribute to the development of acute kidney injury (AKI) by prolonging the Trendelenburg time and the fluid-restricted time. In this study, investigators aimed to demonstrate the effect of console time on the development of AKI. Investigators also aimed to determine the hemodynamic risk factors that cause the development of AKI in patients monitored with the pressure Recording Analytical Method (PRAM).
Jugular vein collapsibility index and shock indices (Shock index, Modified Shock Index, Diastolic Shock Index) may be useful in estimating post spinal hypotension in cesarean section operations. Evaluation on the accuracy and effectiveness of these indices can contribute to the early diagnosis and management of hypotension. The main purpose of this study is to evaluate the effectiveness of shock indices in predicting the possibility of post spinal hypotension in cesarean section operations.