View clinical trials related to Sugammadex.
Filter by:This is a single site, prospective, non-blinded, non-randomized, before/after study. This study is designed to evaluate the impact of monitoring and reversal guidelines for neuromuscular blocking drugs on the post-operative outcomes for patients undergoing laparoscopic gastric bypass surgery.
This study is intended to be a single-site, prospective, randomized, controlled study that intends to enroll a total of 230 patients undergoing laparoscopic cholecystectomy at Parkland Hospital. Patients will be randomized to receive either neostigmine or sugammadex for reversal of rocuronium-induced neuromuscular blockade. A standardized anesthetic protocol that is usual and customary for the type of operation the patient is having will be provided to the anesthesia teams of enrolled subjects. The remainder of the anesthetic care of the subject will not deviate from the standard of care. To account for protocol deviations and patient dropout, up to 250 randomization envelopes will be made and enrollment will continue until there are 230 completed enrollments.
The use of muscle relaxants is an indispensable in the general anesthesia but is prone to accidents, which are often related to residual muscle relaxant. Therefore, how to timely and effectively eliminate the residual effect of muscle relaxants after surgery has become an urgent clinical problem. Rocuronium is a non-depolarizing muscle relaxant that is primarily metabolized by the liver. Patients with liver dysfunction can affect the metabolic process of rocuronium, thereby delaying the recovery of muscle relaxation. Sugammadex (SUG) is a novel specific antagonist of aminosteroid muscle relaxants, which can effectively antagonize muscle relaxants at different depths. However, whether liver dysfunction affects the antagonistic effect of SUG against rocuronium has not been reported yet. Therefore, the investigators hypothesize that with the increase of patients' liver Child-Pugh grade, the recovery time of rocuronium antagonized by the same dose of SUG after surgery will be prolonged, and the incidence of muscle relaxation residual will be increased in the short term.
Along with unconsciousness and analgesia, use a muscle relaxant (Neuromuscular blocking agent NMBA) is now part of the classic triad of anesthesia. In surgery or interventional procedure under general anesthesia, NMBA is needed to relax the muscles of the whole body. Its purpose is to assist the placement of the endotracheal tube, avoid the participant's injury due to involuntary movements, and also enables the surgeon to have a better surgical vision, etc. Once the operation or procedure is completed, anesthesiologist will reverse the NMBA and participants are recovered from general anesthesia. It is crucial to maintain hemodynamic stability during this period. The participant's vital signs are unstable during this period because the participant is gradually recovered from anesthesia and they feel throat discomfort from endotracheal tube. Immediate extubation is encouraged in the operating theatre and full recovery of neuromuscular function must be achieved prior to extubation of the endotrachea tube. Traditionally, acetylcholinesterase inhibitor (AChEI, such as neostigmine, pyridostigmine, edrophonium) is used to reverse the efficacy of NMBA and stabilize the participants's vital signs. However, the reversal of acetylcholine ester inhibitors is slow, the curative effect has a ceiling effect, and the need to use anticholinergics (anticholinergics) to reduce the incidence of adverse reactions and other issues. In addition, traditional muscle relaxants may also cause complications, such as postoperative residual curarization (PORC). PORC is associated with weakness of upper airway muscles and increased risk of hypoventilation and hypoxemia, as well as risk for aspiration and postoperative pulmonary complications. Sugammadex is a new selective relaxant-binding agent that quickly and effectively reverses the effects of steroidal NMBAs, especially rocuronium and vecuronium. Compared with neostigmine, sugammadex more substantially reduces PORC, but its effects on postoperative complications require further investigation. Therefore, this study aimed to compare the effects of sugammadex and neostigmine during emergence and extubation after general anesthesia in non-cardiac surgery and interventional procedure.
The primary aim of the work is to compare the efficacy of Sugammadex and neostigmine in reversing rocuronium-induced muscle relaxation to reach complete recovery of neuromuscular block (TOF ratio≥ 0.9) in preterm neonates. The secondary aim is to evaluate the safety of using Sugammadex in preterm neonates and to detect any complications that may occur in this age group.