View clinical trials related to Rocuronium.
Filter by:As a medium-and long-term non-depolarizing muscle relaxant, rocuronium has the advantages of quick effect, no histamine release and accumulation and no obvious cardiovascular adverse reactions, so it has been widely used in clinical anesthesia induction. However, when given intravenously, rocuronium can cause adverse reactions such as injection pain and limb retraction, which can lead to needle prolapse, extravasation of injection drugs, swelling of injection site, serious induction delay, and cardiovascular adverse events in severe cases. Remifentanil is a synthetic opioid drug hydrolyzed by esterase. Compared with other opioid drugs, remifentanil has the advantages of quick effect, short half-life and short time of hemodynamic changes, so it is an ideal analgesic in clinical anesthesia. In this study, in order to provide clinical references, sequential method was used to find the median effective dose (ED50) by means of pre-intravenous injection of Remifentanil to suppress pain in rocuronium injection.
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.
- This is a prospective randomized clinical study that will be carried on adult patients aged from 21-60 years and presented for strabismus surgery under peribulbar anesthesia. - Patients will be excluded if they refused to participate or had a contraindication to peribulbar anesthesia. - Patients will be randomly distributed into either control group in which peribulbar anesthesia will be performed by injection of 10 ml local anesthetic mixture composed of 4 ml of plain bupivacaine 0.5%, 4 ml of lidocaine 2% containing 50 IU, and 2 ml normal saline or rocuronium group which peribulbar anesthesia will be performed by injection of 10 ml local anesthetic mixture composed of 4 ml of plain bupivacaine 0.5%, 4 ml of lidocaine 2% containing 50 IU, and 0.06 mg/kg of rocuronium in 2 ml normal saline. - Measurements will include; - 1. Patient age, weight, height, gestational age, and gravidity. 2. The duration of globe akinesia (primary outcome). 3. The onset of lid and globe akinesia and the duration of lid akinesia 4. The onset and duration of sensory block 5. Time required to start the surgery 6. Akinesia score 7. The visual analog score (VAS) which is composed of 0-10 score will be used to assess the severity of postoperative pain (where 0=no pain and 10=severe pain), The VAS score will be evaluated 1 h, 2 h postoperative, then every 2 h till 12 h. Any patients with VAS score more than 4 received rescue analgesia in the form of 50 mg tramadol intravenous injection with the calculation of the time for the first call of postoperative analgesia. 8. Any detected complication as nausea and vomiting, pain on injection, or increased intraocular tension.
Muscle relaxants are routinely applied during anesthesia to facilitate endotracheal intubation and to improve surgical working conditions. Several investigations have shown that a deep neuromuscular block (NMB) improves the surgical working conditions over a moderate NMB and effectively precludes sudden deterioration of the surgical field. However, whether the improvement of surgical working conditions translates into less intra- and postoperative complications remains uncertain. Small prospective or retrospective studies shown an decrease of the incidence of intraoperative adverse events and postoperative complications after a deep NMB. There is a need to confirm these outcome data prospectively, in a large number of patients and clinics and during a variety of surgical procedures.
It is a prospective, comparative, randomized, double-blind clinical trial whose hypothesis is that pre-treatment with magnesium sulfate, due to its action at the neuromuscular junction,potentiate the duration of deep neuromuscular block following rocuronium curarization in patients undergoing general anesthesia. Magnesium sulphate has gained prominence as an adjuvant drug in anesthesia. Its use is associated with potentiation of neuromuscular blockade among other functions. The deep neuromuscular block is defined as the one obtained by the absence of response to the sequence of four Stimuli and the presence of one or more simple stimuli in post-tetanic counts . There is no literature description of the role of magnesium sulphate in Duration of the deep neuromuscular block obtained after the muscle relaxation of patients with rocuronium This study is justified because extending the clinical duration of neuromuscular blockers may translate into gains for surgeries that require deep and long-lasting muscle relaxation as in laparoscopic and robotic surgeries. This block allows lower inflation pressures of the pneumoperitoneum to be obtained, as a result, there is a lower inflammatory and cardiorespiratory repercussion for the patient