View clinical trials related to Neuromuscular Block, Residual.
Filter by:This study is to evaluate the recovery of diaphragm function and atelectasis after reversal of neuromuscular blockade with Neostigmine and Sugammadex using lung ultrasound and diaphragm ultrasound for children aged 2 to 7 who are scheduled for the surgical procedure under general anesthesia.
There is no recent information on the required dose of neostigmine for the reversal of cisatracurium-induced moderate neuromuscular blockade (NMB) [Train-of-four (TOF) count = 1-3)] in children. The aim of this study will be to evaluate by means of a prospective, randomized and double-blinded clinical trial, the time required for reversal of moderate NMB (TOFc 3) to T4/T1 (TOF ratio, TOFr) > 0.9 and TOFr = 1.0 after administration of different doses of neostigmine (10, 20 or 30 mcg/kg) or placebo in children undergoing inhalational (sevoflurane) general anesthesia. In addition, the probability of NMB reversal in less than 10 minutes, the presence of bradycardia, respiratory complications and postoperative vomiting will be evaluated. The time for reversal is expected to be inversely proportional to the administered dose of neostigmine.
Neuromuscular blockade is essential to provide optimal conditions for tracheal intubation and also to facilitate the performance of surgeries involving mainly the abdominal cavity. The introduction of neuromuscular blockers in clinical practice optimized the execution of mechanical ventilation. Since the use of these drugs, increased intercurrences such as prolonged muscle paralysis and respiratory complications have been observed, resulting in unfavorable outcomes with residual neuromuscular blockade and delayed recurrence due to the occurrence of these complications. The present study aims to evaluate the incidence of residual neuromuscular blockade and late recurarization in the post-anesthetic recovery room in patients submitted to videolaparoscopic cholecystectomy.
Compare the reversal effect of neostigmine and sugammadex using quantitative neuromuscular monitoring