肝移植术患者罗库溴铵不同给药方式肌松效果的比较

Comparison of neuromuscular blocking effects of rocuronium given by different methods of administration during liver transplantation

目的 比较肝移植术患者间断静脉注射（Ⅳ）、静脉输注（CI）和靶控输注（TCI）罗库溴铵的肌松效果.方法 拟行肝移植术的患者36例,性别不限,年龄21～63岁,体重48～80 kg,Child-Pugh评分7～9分,肝功能Child分级B或C级,随机分为3组（n=12）：Ⅳ组、CI组和TCI组.采用TOF模式进行肌松监测,Ⅳ组：麻醉诱导时静脉注射罗库溴铵0.6 mg/kg,无肝前期T1恢复至25%时、无肝期和新肝期T4/T1（TOFR）恢复至25%时追加0.15 mg/kg.TCI组：麻醉诱导时靶控输注罗库溴铵,初始效应室靶浓度3μg/ml,调整靶浓度,维持T1 5%～10%;无肝期和新肝期开始时暂停TCI,随后以效应室靶浓度0.1μg/ml再次输注,调整靶浓度,维持T15%～10%.CI组：麻醉诱导时静脉注射罗库溴铵0.6 mg/kg,无肝前期以30μg·kg^-1·min^-1的速率开始静脉输注,调节输注速率,维持T1 5%～10%,无肝期和新肝期开始时暂停CI,随后以1μg·kg^-1·min^-1的速率静脉再次输注,调整输注速率,维持T15%～10%.各组于肌松达最大效应时行气管插管,于缝合腹膜后停止给药.记录麻醉诱导时罗库溴铵肌松起效时间、T1最大抑制程度和气管插管条件满意情况;记录各组无肝期T1 25%恢复时间及TOFR 25%恢复时间,新肝期停药后T125%恢复时间、TOFR 25%恢复时间、TOFR 75%恢复时间、TOFR90%恢复时间及恢复指数;记录罗库溴铵总用量.结果 与Ⅳ组比较,TCI组和CI组气管插管条件满意率、罗库溴铵总用量、麻醉诱导时罗库溴铵起效时间、T1最大抑制程度和各期肌松恢复情况差异均无统计学意义（P＞0.05）.肌松效应监测图显示Ⅳ组各期罗库溴铵肌松效应波动较大,TCI组和CI组各期肌松效应较为平稳.结论 采用Ⅳ、CI和TCI给药时,肝移植术患者罗库溴铵肌松起效和恢复情况无差异,而采用TCI或CI给药时,肌松效应较Ⅳ更加平稳.

Objective To compare the neuromuscular blocking effects of rocuronium given by intermittent bolus injection, continuous infusion and target-controlled infusion during liver transplantation. Methods Thirty-six patients with hepatic failure of both sexes aged 21-63 yr weighing 48-80 kg undergoing liver transplantation were studied. The donor livers were obtained from living donors. The patients were divided into 3 groups according to the mode of rocuronium administration （ n = 12 each）： group Ⅰ intermittent bolus injection （group Ⅳ）; group Ⅱ continuous infusion （group CI） and group Ⅲ target-controlled infusion （group TCI）. Neuromuscular block was assessed by TOF stimulation of ulnar nerve （TOF-Watch SX）. Anesthesia was induced with midazolam 5 mg,fentanyl 4-6 μg/kg and propofol 1.0-1.5 mg/kg, and rocuronium was administered using different modes of administration. A bolus of rocuronium 0.6 mg/kg was given during induction and supplemental rocuronium 0.15 mg/kg was given when T1 was returned to 25% in preanhepatic stage and T4/T1 （TOFR） returned to 25% in anhepatic and neohepatic stages in group Ⅳ. TCI at an initial target effect-site concentration of 3 μg/ml was started during induction, the concentration was adjusted to maintain T1 at 5%-10% , TCI was temporarily suspended at the beginning of anhepatic and neohepatic stages, and then TCI at a target effect-site concentration of 0.1 μg/ml was started again and the concentration was adjusted to maintain T1 at 5%-10% in group TCI. A bolus of rocuronium 0.6 mg/kg was given during induction, the initial infusion rate was set at 30 μg· kg-1 ·min-1 and then adjusted to maintain T1 at 5%-10% in preanhepatic stage, CI was temporarily suspended at the beginning of anhepatic and neohepatic stages, and then it was started again at 1 μg· kg-1 · min-1 in preanhepatic stage and the infusion rate was adjusted to maintain T1 at 5%-10% in group CI. Tracheal intubation was performed when the maximal effect was achieved. The administration was stopped after suture of the peritoneum. The onset time, the maximal depression of T1 , intubation condition, recovery time and the total amount of rocuronium consumed were recorded.Results There was no significant difference in onset time, the maximal depression of T1, intubation condition,ecovery time and the total amount of rocuronium consumed among the 3 groups （ P 〉 0.05）. Conclusion There is no significant difference in the onset and recovery when neuromuscular blocade was induced by rocuronium via Ⅳ, CI and TCI, but neuromuscular blockade induced by rocuronium via TCI and CI is more stable than that induced by rocuronium via Ⅳ during liver transplantation.