Effects of hydrocortisone-presensitized sugammadex on recovery from neuromuscular blockade induced by rocuronium: a rodent in vivo study

Background: Sugammadex is a specific antagonist of aminosteroidal neuromuscular blocking agents with 1:1 binding to guest molecules. Sugammadex can also bind to other drugs having a steroid component in its chemical structure. In this in vivo experiment, we investigated the differences in the recovery of rocuronium-induced neuromuscular blockade using sugammadex pre-exposed with two different concentrations of hydrocortisone.Methods: The sciatic nerves and tibialis anterior muscles of 30 adult Sprague–Dawley rats were prepared for the experiment. The sciatic nerves were stimulated using a train-of-four (TOF) pattern with indirect supramaximal stimulation at 20 s intervals. After 15 min of stabilization, a 250 μg loading dose and 125 μg booster doses of rocuronium were serially administered until > 95% depression of the first twitch tension of TOF stimulation (T1) was confirmed. The study drugs were prepared by mixing sugamadex with the same volume of three different stock solutions (0.9% normal saline, 10 mg/ml hydrocortisone, and 100 mg/ml hydrocortisone). The recovery of rats from neuromuscular blockade was monitored by assessing T1 and the TOF ratio (TOFR) simultaneously until T1 was recovered to > 95% and TOFR to > 0.9.Results: In the group injected with sugammadex premixed with a high concentration of hydrocortisone, statistically significant intergroup differences were observed in the recovery progression of T1 and TOFR (P < 0.050).Conclusions: When sugammadex was pre-exposed to a high dose of hydrocortisone only, recovery from neuromuscular blockade was delayed. Delayed recovery from neuromuscular blockade is not always plausible when sugammadex is pre-exposed to steroidal drugs.

Clinical Pharmacology of Rocuronium in Infants and Children

The main clinical use of the neuromuscular blocking agents is an adjuvant in surgical anaesthesia to obtain relaxation of skeletal muscle, particularly of the abdominal wall, to facilitate surgical manipulations. Rocuronium can be used instead of suxamethonium to provide rapid muscle paralysis during tracheal intubation but the recovery is much slower. Rocuronium is administered intravenously to infants and children. In infants, rocuronium is administered at a dose of 450 µg/kg for providing muscle relaxation for laryngeal intubation. To provide sustained paralysis, rocuronium is given at a dose of 600 µg/kg. In children, the neuromuscular blockade is obtained with 600 µg/kg followed by an intravenous infusion of 150 µg/kg per hour. For assisted ventilation in intensive care, rocuronium is administered at a dose of 600 µg/kg followed by an intravenous infusion of 300 to 600 µg/kg per hour. The effects of rocuronium have been extensively studied in infants and children. Rocuronium is converted into 17-desacetyl rocuronium. The pharmacokinetics of rocuronium have been studied in infants and children and the mean residence time is 55.6 and 25.6 min (P-value < 0.01) in infant and children, respectively. Rocuronium interacts with drugs, the treatment of infants and children with rocuronium has been studied, and rocuronium poorly crosses the human placenta. The aim of this study is to review the published data on rocuronium dosing, pharmacokinetics, and treatment in infants and children, and rocuronium metabolism and transfer across the human placenta.

The Strategy to Use Sugammadex to Reduce Postoperative Pulmonary Complications after da Vinci Surgery: A Retrospective Study

In 2000, the da Vinci Surgery System was approved by the United States Food and Drug Administration for general laparoscopic surgery and it became the first commercially available robotic surgery system. The aim of this study was to identify the incidence of postoperative pulmonary complications (PPCs) in patients undergoing da Vinci surgery and to observe whether the incidence of PPCs was affected by the usage of Sugammadex. Sugammadex is a gamma-cyclodextrin that encapsulates and subsequently inactivates steroidal neuromuscular blocking agents. A retrospective study was conducted on patients who had undergone da Vinci surgery in a single medical center in southern Taiwan during the period from January 2018 to December 2018. We extracted data on patient characteristics, usage of Sugammadex and PPCs for analysis. Three hundred and thirty-three patients were enrolled in the final analysis. While the overall incidence of PPCs was 30.3% (101/333 patients), the incidence of PCC in patients who received Sugammadex (24.2%) was significantly lower than those without (37.3%) (p = 0.001). Risk factors that appeared to be closely associated with PCC included age, malignancy, hypertension, chronic kidney disease, blood loss amount and anemia. The use of Sugammadex decreased the risk of PPC. In order to enhance early recovery after da Vinci surgery, the use of Sugammadex to rapidly reverse muscle relaxants may be an appropriate choice.

A Case of Brainstem Anesthesia after Retrobulbar Block for Globe Rupture Repair

Purpose. To present a rare case of brainstem anesthesia from retrobulbar block and discuss evidence-based methods for reducing the incidence of this complication. Case. A 72-year-old female, was given a retrobulbar block of 5 mL of bupivacaine 0.5% for postoperative pain management, after a globe rupture repair under general anesthesia. Prior to injection, the patient was breathing spontaneously via the anesthesia machine circuit and had not received any additional narcotics/muscle relaxants for 2.5 hr (with full recovery of neuromuscular blocking agent after anesthetic reversal). Over 7 min, however, there was a steady increase in ETCO2 and the patient became apneic, consistent with brainstem anesthesia. She remained intubated and was transported to the postanesthesia care unit for prolonged monitoring, with eventual extubation. Discussion. Brainstem anesthesia is an important complication to recognize as it can lead to apnea and death. The judicious use of anesthetic volume, shorter needle tips, and mixed formulations can help reduce the chance of brainstem anesthesia. Observation of the contralateral eye 5–10 minutes after injection for pupillary dilation, and prior to surgical draping, can help identify early CNS involvement.