View clinical trials related to Hemodynamic Monitoring.
Filter by:Background: The investigators aim is to indicate that the "goal directed fluid management" is more effective for open abdominal surgeries by performing perioperative hemodynamic monitorisation using a minimal invasive pulse counter analysis method. Methods: The study will be included 90 participants with ASA II-III risk score aged from 18-64 years. The prospective and randomized participants will be divided into 2 groups as liberal (Group L) and goal-directed fluid therapy (Group G) fluid treatment. Hemodynamic parameters and arterial blood gas analysis will be recorded at 30 min intervals. Preoperative and postoperative creatinine values, CR-POSSUM physiological score, Charlson comorbidity index (CCI), perioperative and postoperative vasopressor use, postoperative acute kidney injury network (AKIN), postoperative intensive care requirements, duration of hospital stay and 30-day mortality will be recorded.
Peripherally inserted central catheters (PICCs) are increasingly used in intensive care unit (ICU) as an alternative to centrally inserted central catheters (CICCs) for intravenous infusion. In the present study the investigators try to assess their reliability for measuring cardiac index (CI) with trans-pulmonary thermodilution (TPTD) technique.
Fluid therapy guided by stroke volume response to repeated fluid challenges is used for hemodynamic optimization during general anesthesia. Two types of devices that measure stroke volume non-invasively are primarily available for intermediate-risk surgery under general anesthesia. They are based on two different techniques, (1) pulse contour analysis, and (2) transthoracic bioimpedance. They have never been compared with each other. Therefore, it is not known (1) whether they are interchangeable for the measurement of stroke volume changes (usually assessed as the "concordance" of two techniques), and (2) whether one is better than the other. The aim is to study the concordance of these two non-invasive hemodynamic devices. it will use both of them in patients undergoing intermediate risk surgery. They will be tested during modifications of cardiac preload induced by Trendelenburg and anti-Trendelenburg positioning, as well as during intraoperative fluid challenges, vasopressor boluses and alveolar recruitment maneuvers.
This project will study the effect of oxytocin on hemodynamics in patients undergoing laparoscopic myomectomy, and how to prevent and manage such hemodynamic changes effectively.It provides a reference for the rational use of oxytocin in clinical practice, which can not only effectively contract the uterus and reduce bleeding, but also reduce the influence on hemodynamics.
Hemodynamics monitoring using non-invasive transthoracic electrical bioimpedance ICON are compatible with standard invasive monitoring using pulse contour analysis EV1000
Peripherally inserted central catheters (PICCs) are increasingly used in intensive care unit (ICU) as an alternative to centrally inserted central catheters (CICCs) for intravenous infusion. In the present study we try to assess their reliability for measuring cardiac index (CI) with trans-pulmonary thermodilution (TPTD) technique.
To record the digital data from monitoring instruments (standard patient monitor) containing cardiovascular system information, and from depth-of-anesthesia monitoring modules (Bispectral index, Entropy module, Surgical Plethysmography Index, Analgesia Nociception Index) containing neurological system information captured in the patient monitor, as well as the physiological data regarding anesthetic dosage, respiratory gas analysis and the standard monitoring requirement of anesthesia. The investigators also record the precise time points of detail surgical steps during the laparoscopic cholecystectomy. Clinical data collected from these monitoring instrument will be used to gain more understanding of the complex interaction between anesthetic effect, surgical procedure, autonomic response and drug modeling. The goal is to obtain the performance of each monitoring index in detail surgical steps.
Lymphatic venous anastomosis could be applied on patients suffering from limb lymphedema after surgery or radiotherapy. The particular pathophysiology leads unconventional fluid treatment strategy and changes in urine output. Hemodynamic monitors shows the benefits in perianesthetic care in fluid maintenance and decrease postanesthetic complication. Invasive hemodynamic monitors, such as arterial line and FlowTrac, have risks of hematoma, infection, nerve injury in puncture site. In this study, photoplethysmography is applied comparing with conventional mean arterial pressure for perianesthetic hemodynamic optimization in bispectral index (BIS)-guided target-controlled infusion sedation on lymphatic venous anastomosis.
This study aims to evaluate the effect of a novel hemodynamic management and monitoring strategy for reducing cardiac bio marker elevations and major adverse cardiac events.
To assess the value of using pleth variability index(PVI) to monitor the patient's intra-operative volume status continuously by observing the application of stroke volume variation(SVV) and PVI and their correlation in patients undergoing intestinal tumor surgeries.