View clinical trials related to Target Controlled Infusion.
Filter by:Sufentanil Target Controlled infusion (TCI, Gepts model) effects on Neuromonitoring during Total Intravenous Anesthesia (TIVA) with Propofol TCI (Eleveld model) has not been investigate yet. Authors aim to investigate its effect on Patient State index (PSi), the power spectrum EEG, the Analgesia Nociception Index (ANI) nad pupillometry values during maintenance durin TIVA-TCI with Propofol and Sufentanil.
In this prospective, randomized controlled study, we hypothesized that nociception level index monitoring reduced opioid administration during surgery. The secondary goals are to compare the total dose hypnotic drugs, as well as hemodynamic parameters, and to investigate the relationship between changes in the NOL index and HR change following severe noxious stimuli during effect site TCI of propofol and remifentanil in patients undergoing intracranial tumor surgery who are monitored using either standard monitors or the NOL monitor additionally.
The purpose of this study is to determine if a slow stepwise propofol TCI induction with Marsh model (Ke0 0.26), allows for an accurate estimation of the effect site concentration required for maintenance of the general anesthesia, with propofol and remifentanil, in adult populations older and younger than 65 years of age.
To explore the application of target controlled infusion of etomidate combined with propofol in the maintenance of anesthesia during brain surgeries.
Many studies address safety and effectiveness of non-anesthesiologist propofol sedation (NAPS) for GI endoscopy. Target Controlled Infusion (TCI) is a sophisticated tool for providing optimal sedation regimen and avoiding under or oversedation. This randomized double blind controlled study compares standard moderate sedation level of sedation (group S) during upper endoscopy (EGD) and colonoscopy (CS) versus propofol NAPS (group P).
Propofol is a commonly used agent for sedation and anaesthesia in the intensive care unit and the operating room. The pharmacokinetics of propofol are difficult to predict in patients not conforming to the norms in which the original pharmacokinetic research was based. Such patients, including the critically ill, and morbidly obese, are increasingly being encountered. The investigators group have been involved in the development of a device which can measure blood propofol concentrations, and hope for this to be available to use in the operating room in a clinically useful timeframe in the future. Data will be collected on patients undergoing propofol based general anaesthesia. The Marsh target controlled algorithm in effect site mode (commonly used by anaesthetists) will be assessed for accuracy using the propofol monitor. A new proportional correction method will be developed using this data, designed to enable recalibration of the TCI algorithm in near real time in order to achieve a more accurate estimated propofol concentration in these identified patient groups. The research will investigate the effectiveness of a correction of estimated propofol levels based on a one off measurement early on in the anaesthetic, and will take subsequent samples to measure propofol levels without modifying the TCI algorithm. Additionally, data on anaesthetist choice of TCI model, and method of administration in this relatively unselected group of patients will be analysed.