View clinical trials related to Remimazolam.
Filter by:The aim of this study is to compare the bispectral index (BIS) and patient state index (PSI) during general anesthesia using remimazolam. The infusion rate of remimazolam is 6-12mg/kg/h during induction of anesthesia and 1-2mg/kg/h during maintenance of anesthesia. To calculate the fraction, the sum of times when BIS<60 and PSI <50 will be divided by the time from the loss of consciousness during induction of anesthesia to fully awake during emergence. We will compare the fraction of BIS <60 and the fraction of PSI <50 to find if there is some difference between the two depth of anesthesia monitoring devices during remimazolam anesthesia.
Remimazolam, a brand-new sedative which has benzodiazepine property. It is an ultra-short acting sedative and regarded as a proper drug for procedural sedation.
Currently used drugs for monitored general anesthesia include propofol, midazolam, and dexmedetomidine. Each drug has different advantages and disadvantages. Remimazolam causes a relatively small decrease in blood pressure, and it has no injection pain. In addition, remimazolam has a very short onset time, and even after the continuous infusion, the onset of remimazolam is fast, and even after continuous injection, the effect disappeared very quickly due to the short context-sensitive half time. and through continuous infusion, the patient's depth of anesthesia can be maintained constant. In addition, the short duration of action and the ability to quickly reverse the effect of flumazenil suggest that remimazolam can be used effectively under general anesthesia as well as under general anesthesia. Remimazolam can be used as a continuous infusion for general anesthesia. However, it has also been reported to be used for sedation by continuous infusion or divided intravenous infusion. However, the effective infusion dose of remimazolam for supervised general anesthesia without mechanical ventilation has not been established. In this study, the ED90 of the maintenance dose that maintain loss of consciousness in patients when supervised general anesthesia is performed through continuous infusion of remimazolam after spinal anesthesia is obtained.
Currently used drugs for monitored general anesthesia include propofol, midazolam, and dexmedetomidine. Each drug has different advantages and disadvantages. Remimazolam causes a relatively small decrease in blood pressure, and it has no injection pain. In addition, remimazolam has a very short onset time, and even after the continuous infusion, the onset of remimazolam is fast, and even after continuous injection, the effect disappeared very quickly due to the short context-sensitive half time. nd through continuous infusion, the patient's depth of anesthesia can be maintained constant. In addition, the short duration of action and the ability to quickly reverse the effect of flumazenil suggest that remimazolam can be used effectively under general anesthesia as well as under general anesthesia. Remimazolam can be used as a continuous infusion for general anesthesia. However, it has also been reported to be used for sedation by continuous infusion or divided intravenous infusion. However, the effective infusion dose of remimazolam for supervised general anesthesia without mechanical ventilation has not been established. In this study, the ED90 of the loading dose to induce loss of consciousness in patients when supervised general anesthesia is performed through continuous infusion of Remimazolam is to be obtained.
The investigators hypothesized that intraoperative opioid consumption would be different between remimazolam and propofol if the ANI-guided remifentanil continuous infusion rate was adjusted when the depth of anesthesia was maintained at similar depths with remimazolam or propofol under total intravenous anesthesia. The purpose of this study is to compare the intraoperative remifentanil requirement in patients undergoing total knee arthroplasty when the intraoperative remifentanil dose adjustment was performed under the ANI guidance while maintaining a similar depth of anesthesia with remimazolam or propofol.
Remimazolam is a novel ultra-short acting benzodiazepine with rapid onset of effects, short maintenance and faster recovery time. Due to its recent development, few studies have investigated the effect of remimazolam on postoperative recovery mainly focusing on physiologic endpoints, recovery time and possible adverse events. Although these parameters are crucial and need evaluation, the investigators ignore quality of recovery from participant's perspective. For this purpose, various measurment tools have been developed for psychometric evaluation of QoR score.
Midazolam is a commonly used drug in gastrointestinal endoscopy due to the good cardiovascular stability and mild respiratory depression for elderly patients. However, there is the concern about the the longer and less predictable recovery or the potential for repeat sedation when the active metabolite becomes bioavailable. Remimazolam Tosilate is an innovative benzodiazepine with better sedation effect and less recovery or resedation issues than midazolam, which possibly make the drug more suitable in elderly patients. We aim to clarify whether remimazolam tosilate is better than midazolam in elderly patients undergoing gastrointestinal endoscopy.
Remimazolam Tosilate is a new short-acting benzodiazepines used in sedation. It has the advantages of rapid metabolism, quick recovery without injection pain. This study aims to compared with Midazolam, study whether Remimazolam Tosilate can achieve the same sedation effect with lower side effects on sedation maintenance period, During the recovery period of anesthesia, can Remimazolam Tosilatebe more stable and rapid.