Neostigmine and edrophonium antagonism of varying intensity neuromuscular blockade induced by atracurium, pancuronium, or vecuronium

To compare the time course of neostigmine and edrophonium antagonism of varying intensity neuromuscular blockade induced by atracurium, pancuronium, or vecuronium, the authors studied 98 patients anesthetized with nitrous oxide (60%) and halothane or enflurane. Neuromuscular blockade, as monitored by single stimulus-induced twitch tension (TT), was antagonized at varying degrees of spontaneous recovery (2-80% of control TT). Time to antagonism (time from injection of neostigmine or edrophonium to 90% recovery of control TT) was not different between edrophonium, 0.5 mg/kg, and neostigmine, 0.04 mg/kg, when spontaneous recovery had been allowed to occur to at least 11% of control TT prior to antagonist administration (P greater than 0.05). For profound neuromuscular blockade (TT less than or equal to 10% of control) induced by pancuronium or vecuronium, time (mean +/- SD) to antagonism with neostigmine, 0.04 mg/kg, was 7.0 +/- 2.2 min and 5.6 +/- 1.7 min, respectively, while the same for edrophonium, 0.5 mg/kg, was 20.0 +/- 8.0 min and 15.0 +/- 12.5 min, respectively (P less than 0.05). Time to antagonism of profound atracurium-induced neuromuscular blockade was 8.5 +/- 3.3 min for neostigmine, 0.04 mg/kg, and 9.8 +/- 7.0 min for edrophonium, 0.5 mg/kg, (P less than 0.05). For profound vecuronium-and pancuronium-induced neuromuscular blockade, time to antagonism by edrophonium, 1.0 mg/kg, was 4.6 +/- 3.0 min and 3.9 +/- 1.6 min respectively. The authors conclude that neostigmine, 0.04 mg/kg, antagonizes neuromuscular blockade within 12 min when TT is greater than 2% of control at time of reversal. When TT is greater than 10% of control, edrophonium, 0.5 mg/kg, produces similar time to antagonism.(ABSTRACT TRUNCATED AT 250 WORDS)     

Early and late reversal of rocuronium and vecuronium with neostigmine in adults and children.

We investigated the influence of the timing of neostigmine administration on recovery from rocuronium or vecuronium neuromuscular blockade. Eighty adults and 80 children were randomized to receive 0.45 mg/kg rocuronium or 0.075 mg/kg vecuronium during propofol/fentanyl/N2O anesthesia. Neuromuscular blockade was monitored by train-of-four (TOF) stimulation and adductor pollicis electromyography. Further randomization was made to control (no neostigmine) or reversal with 0.07 mg/kg neostigmine/0.01 mg/kg glycopyrrolate given 5 min after relaxant, or first twitch (T1) recovery of 1%, 10%, or 25%. Another eight adults and eight children received 1.5 mg/kg succinylcholine. At each age, spontaneous recovery of T1 and TOF was similar after rocuronium and vecuronium administration but was more rapid in children (P < 0.05). Spontaneous recovery to TOF0.7 after rocuronium and vecuronium administration in adults was 45.7 +/- 11.5 min and 52.5 +/- 15.6 min; in children, it was 28.8 +/- 7.8 min and 34.6 +/- 9.0 min. Neostigmine accelerated recovery in all reversal groups (P < 0.05) by approximately 40%, but the times from relaxant administration to TOF0.7 were similar and independent of the timing of neostigmine administration. Recovery to T1 90% after succinylcholine was similar in adults (9.4 +/- 5.0 min) and children (8.4 +/- 1.1 min) and was shorter than recovery to TOF0.7 in any reversal group after rocuronium or vecuronium administration. Recovery from rocuronium and vecuronium blockade after neostigmine administration was more rapid in children than in adults. Return of neuromuscular function after reversal was not influenced by the timing of neostigmine administration. These results suggest that reversal of intense rocuronium or vecuronium neuromuscular blockade need not be delayed until return of appreciable neuromuscular function has been demonstrated. Implications: These results suggest that reversal of intense rocuronium or vecuronium neuromuscular blockade need not be delayed until return of appreciable neuromuscular function has been demonstrated. Although spontaneous and neostigmine-assisted recovery is more rapid in children than in adults, in neither is return of function as rapid as after succinylcholine administration.     

Edrophonium and Neostigmine for Reversal of the Neuromuscular Blocking Effect of Vecuronium

The effect of edrophonium for reversal of the non-depolarizing neuromuscular blockade produced by a continuous infusion of vecuronium was compared to that of neostigmine in 20 adult patients during neurolept anaesthesia. When antagonism was attempted at 10% twitch height recovery, reversal time to a train-of-four ratio of 0.7 was significantly shorter following neostigmine 0.04 mg/kg than after edrophonium 0.75 mg/kg (9.8 min and 18.7 min, respectively) but the same after edrophonium 1.5 mg/kg (10.3 min). There was no statistically significant difference in reversal time between neostigmine 0.04 mg/kg given at 10% twitch height and edrophonium 0.75 mg/kg given at 25% twitch height recovery (6.0 min). Additional doses of atropine were necessary following edrophonium 1.5 mg/kg.     

新斯的明拮抗小儿和成年患者维库溴铵的残余肌松作用

目的 观察麻醉恢复期新斯的明拮抗小儿和成年全麻患者维库溴铵的残余肌松作用的剂量反应和安全性.方法 全麻下择期手术的小儿和成年患者各50例,维库溴铵首剂0.1 mg/kg,术中必要时追加0.05 mg/kg.采用加速度肌松监测仪监测四个成串反应的比值(train-of-four ratio,TOFR).当TOFR恢复至0.55时,小儿和成年患者分别随机分为5个亚组,分别给予新斯的明10、20、30、50 μg/kg及阿托品5、10、15、25μg/kg,对照组静脉注射生理盐水2 ml.观察TOFR恢复至0.7、0.9、1.0的时间及术后6、24 h恶心呕吐的发生情况.结果 新斯的明明显加快TOFR的恢复(P＜0.05),其中30μg/kg～50μg/kg效果均更明显(P＜0.05).小儿和成年患者新斯的明拮抗维库溴铵残余肌松作用的剂量反应曲线的差异无统计学意义(P＞0.05),拮抗5min时,小儿和成年患者新斯的明的ED95分别为(6.4±10.5)μg/kg和(2.7±19.2)μg/kg.术后6、24 h恶心呕吐情况的差异无统计学意义(P＞0.05).结论 在TOFR恢复至0.55时,小儿和成年患者新斯的明拮抗维库溴铵的残余肌松作用的效果无统计学差异,推荐使用小剂量的新斯的明进行拮抗,剂量不宜超过30μg/kg.     

Dose-response relationships for edrophonium and neostigmine as antagonists of atracurium and vecuronium neuromuscular blockade

To determine the potencies of edrophonium and neostigmine as antagonists of nondepolarizing neuromuscular blockade produced by atracurium and vecuronium, dose-response curves were constructed for both antagonists when given at 10% spontaneous recovery of first twitch height. Ninety ASA physical status 1 and 2 adults were given either 0.4 mg/kg atracurium or 0.08 mg/kg vecuronium during thiopental-nitrous oxide-enflurane anesthesia. Train-of-four stimulation was applied to the ulnar nerve every 12 s, and the force of contraction of the adductor pollicis muscle was recorded. When spontaneous recovery of first twitch height reached 10% of its initial control value, edrophonium (0.1, 0.2, 0.4, or 1 mg/kg) or neostigmine (0.005, 0.01, 0.02, or 0.05 mg/kg) was administered by random allocation. Neuromuscular function in another ten subjects was allowed to recover spontaneously. Assisted recovery was defined as actual recovery minus mean spontaneous recovery observed in patients who were not given antagonists. First twitch recovery was initially more rapid when vecuronium was antagonized compared with atracurium, but no difference was detected after 10 min. At 10 min the neostigmine ED80 was 0.022 +/- 0.003 (SEM) mg/kg after atracurium and 0.024 +/- 0.003 mg/kg after vecuronium. The edrophonium ED80 was 0.44 +/- 0.11 mg/kg with atracurium and 0.46 +/- 0.12 mg/kg with vecuronium, giving a neostigmine:edrophonium potency ratio of 20. Atracurium train-of-four fade could be antagonized more easily with edrophonium, whereas that of vecuronium was more easily antagonized by neostigmine. It is concluded that edrophonium and neostigmine are not equally effective against atracurium and vecuronium.     

Emergency use of sugammadex after failure of standard reversal drugs

Administration of sugammadex, 350 mg IV (4 mg/kg), in the postanesthesia care unit immediately (<60 s) relieved acute respiratory distress due to residual neuromuscular blockade in a 42-yr-old patient with chronic renal failure who had received vecuronium, 10 mg IV, for tracheal intubation, after inadequate reversal of neuromuscular blockade in the operating room with neostigmine, 5 mg IV, and glycopyrrolate, 1 mg IV.     

Sugammadex比新斯的明更快逆转维库溴铵所致神经肌肉阻滞的多中心随机对照研究

背景 Sugammadex是一种具有特异结构的γ-环糊精,能选择性地与肌松药结合快速逆转罗库溴铵所致的神经肌肉阻滞,并较小程度地逆转维库溴铵所致的神经肌肉阻滞.该研究中,我们对比了行择期手术的患者中sugammadex和新斯的明对逆转维库溴铵所致神经肌肉阻滞的作用.方法 年龄≥18岁,ASA分级Ⅰ～Ⅲ级拟行择期手术的患...     

Neostigmine and edrophonium as antagonists of atracurium and pancuronium

Edrophonium 0.5 mg/kg or neostigmine 0.04 mg/kg were administered to two groups of 30 patients each for antagonism of atracurium- or pancuronium-induced neuromuscular block at 25% single twitch recovery. Neuromuscular block was studied using both single twitch and train-of-four (TOF) nerve stimulation. The times to 100% single twitch recovery were significantly more rapid for patients receiving edrophonium (P less than 0.01) in both groups (atracurium and pancuronium); the TOF ratios were similar for atracurium, but for pancuronium they were greater after neostigmine than after edrophonium, and only at 25 min were these ratios similar. It is concluded that edrophonium in a dose of 0.5 mg/kg antagonizes neuromuscular blockade induced by atracurium, as does neostigmine in a dose of 0.04 mg/kg, but the former does not consistently antagonize neuromuscular blockade induced by pancuronium even at 25% of single twitch recovery.     

异氟醚对新斯的明拮抗维库溴铵肌松作用的影响

目的：研究一定浓度的异氟醚对新斯的明拮抗维库溴铵肌松作用的影响。方法：30例病人随机分为三组（各10例）：（1）丙泊酚静脉麻醉组,即对照组（P组）。（2）观察组。以异氟醚维持麻醉,再分为两组;术中呼气未异氟醚浓度均为1MAC,临近手术结束用新斯的明拮抗时,呼气末异氟醚浓度分别为1MAC（1M组（）和0．3MAC（0．3M组）,术中各组均连续输注维库溴铵,术毕以新斯的明0．035mg/kg拮抗并记录以下数据;维库溴铵输注速率,从拮抗开始到T1恢复到90％,TOF恢复到0．7和0．9的时间拮抗后15分钟时的T1,TOF比值,结果：1M组和0．3M组维库溴铵输注速率较P组降低IP＜0．05）,新斯的明拮抗后,0．3M组和1M组T1恢复到90％,TOF恢复到0．7和0．9的时间较P组延长（P＜0．05和P＜0．01）,1M组TOF恢复到0．9的时间较0＝3M组延长（P＜0．05）,在新斯的明拮抗后15分钟,0．3M组和1M组的T1和TOF比值均低于P组（P＜0．05）,1M组的TOF比值低于0．3M组（P＜0．05）,结论：呼气未浓度为1MAC和0．3MAC的异氟醚均能影响新斯的明对维库溴铵肌松作用的拮抗。     

Time to peak effect of neostigmine at antagonism of atracurium- or vecuronium-induced neuromuscular block

Study Objective: (1) To determine the time to peak effect of neostigmine (time to peak antagonism) during atracurium- or vecuronium-induced neuromuscular block; and (2) to determine the effect on time to peak effect of neostigmine during atracurium-induced neuromuscular block, when the dose of neostigmine is increased from 35 μg/kg to 70 μg/kg.

Design: Prospective, randomized clinical study.

Setting: Gynecologic operating room suite at a university hospital.

Patients: 45 ASA I and II women admitted for gynecologic laparotomy.

Interventions: Anesthesia was performed with thiopental sodium, fentanyl, halothane, nitrous oxide, and atracurium or vecuronium. Train-of-four (TOF) stimulation and mechanomyography were used to monitor neuromuscular transmission. Neostigmine was administered while a constant degree of neuromuscular block was maintained at a twitch height at a point between 4% and 11% of the control twitch height, using a continuous infusion of atracurium or vecuronium. The patients were randomized to three groups, with 15 patients in each group. Group 1 received atracurium block antagonized with neostigmine 35 μg/kg; group 2 received vecuronium block antagonized with neostigmine 35 μg/kg; and group 3 received atracurium block antagonized with neostigmine 70 μg/kg.

Measurements and Main Results: The degree of neuromuscular block at antagonism was similar in the three groups. Time to peak effect (mean ± SD) on TOF ratio was significantly longer in Group 1 (9.7 ± 3.0 minutes) versus Group 2 (6.6 ± 1.4 minutes; (p < 0.05). The time to peak effect on TOF ratio during atracurium-induced block was reduced from 9.7 ± 3.0 minutes to 6.3 ± 2.0 minutes when the dose of neostigmine was increased from 35 μg/kg to 70 μg/kg (p < 0.05). The peak effect on TOF ratio was significantly greater in Group 3 compared with Group 1 (p < 0.05), while it was similar in groups 1 and 2.

Conclusion: The time to peak effect of neostigmine 35 μg/kg is about 6 to 10 minutes when antagonizing a constant degree of atracurium- or vecuronium-induced neuromuscular block at a twitch height at a point between 4% and 11%. Even though the time to peak effect was longer with atracurium than with vecuronium, clinically significant differences between the antagonizing effect of atracurium versus vecuronium block were not demonstrated. The time to peak effect during atracurium-induced block decreased when the dose of neostigmine was increased from 35 μg/kg to 70 μg/kg.     

A comparison of edrophonium and neostigmine for the antagonism of atracurium-induced neuromuscular block

Edrophonium, 0.5 mg/kg, or neostigmine, 0.05 mg/kg, was administered to groups of 20 patients each, for antagonism of atracurium-induced block at varying degrees of spontaneous recovery. Neuromuscular block was studied using train-of-four (TOF) stimulation. Adequate reversal of neuromuscular block (TOF ratio of 0.7) was achieved in all patients given neostigmine but only in 13 of the 20 given edrophonium. The onset of action of edrophonium (23 sec) was significantly more rapid than that of neostigmine (40 sec), as was the time taken to attain a TOF ratio of 0.7 in those in whom adequate antagonism was achieved (68 sec for edrophonium and 246 sec for neostigmine). Five of the seven patients in the edrophonium group who failed to be reversed adequately had shown three or fewer twitches to a TOF stimulation. It is concluded that edrophonium in a dose of 0.5 mg/kg does not consistently antagonize neuromuscular blockade induced by atracurium, particularly if all four responses to a TOF stimulation are not elicited prior to antagonism of the block.     

Recovery times following edrophonium and neostigmine reversal of pancuronium, atracurium, and vecuronium steady-state infusions

The ability of edrophonium and neostigmine to antagonize nondepolarizing neuromuscular blockade produced by steady-state infusions of atracurium, pancuronium, and vecuronium was studied in 71 adult patients anesthetized with nitrous oxide and halothane. Infusion rates of blocking drugs were adjusted so that single twitch depression as measured by the evoked integrated EMG of the hypothenar muscles was kept at 10% of control. Two minutes after the termination of the infusion either edrophonium (0.75 mg/kg) or neostigmine (0.05 mg/kg) was administered. Single twitch depression and train-of-four (T4/T1) fade was recorded during the recovery period. T4/T1 fade ratios observed at 20 min postreversal were 0.80 (atracurium-edrophonium); 0.76 (vecuronium-edrophonium); 0.44 (pancuronium-edrophonium); 0.95 (atracurium-neostigmine); 0.89 (vecuronium-neostigmine); and 0.68 (pancuronium-neostigmine). Under conditions of this study neostigmine produced more rapid and complete recovery than did edrophonium. Although edrophonium produced adequate antagonism of atracurium if 20-30 min were allowed to elapse, edrophonium reversal of pancuronium was rarely acceptable even at 30 min. Increasing the dose of edrophonium to 1.0 mg/kg produced single twitch values of 0.90 at 5 min postreversal but did not increase the rate of recovery of the train-of-four fade ratio. Neostigmine reversal of pancuronium, on the other hand, generally produced T4/T1 ratios of greater than 0.70 in 20-30 min. Although the pattern of recovery seen after reversal of vecuronium was in general quite similar to that seen after atracurium, two patients in the vecuronium-edrophonium group showed delayed recovery and also failed to respond significantly to subsequent doses of neostigmine.(ABSTRACT TRUNCATED AT 250 WORDS)     

4-Aminopyridine potentiates neostigmine and pyridostigmine in man.

To elucidate the interaction of 4-aminopyridine with neostigmine and pyridostigmine, the authors studied 57 anesthetized surgical patients using a technique of constant infusion of pancuronium to quantitate antagonist activity. 4-Aminopyridine, 0.15 or 0.35 mg/kg, produced no antagonism, while 0.5 mg/kg produced a mean 24 +/- 6 per cent (peak) antagonism. The dose that produced 50 per cent antagonism (ED50) of neostigmine alone was 22 micrograms/kg; with 0.35 mg/kg 4-aminopyridine, it was 7 micrograms/kg. The ED50 of pyridostigmine alone was 110 micrograms/kg; with 0.35 mg/kg 4-aminopyridine, it was 27 micrograms/kg. 4-Aminopyridine prolonged the onset times of both neostigmine and pyridostigmine, but prolonged the duration of action of neostigmine only. At a given level of antagonism of pancuronium, adding 4-aminopyridine 0.35 mg/kg, to neostigmine and to pyridostigmine decreased the amounts of atropine needed to prevent a change in heart rate by 68 and 70 per cent, respectively. The authors conclude that 4-aminopyridine potentiates antagonism of a pancuronium-induced neuromuscular blockade by neostigmine or pyridostigmine. Also, less atropine is needed to prevent cardiac muscarinic stimulation when 4-aminopyridine is used with either neostigmine or pyridostigmine.     

Postoperative neuromuscular function in pediatric day-care patients.

After anesthesia employing nondepolarizing muscle relaxants, 30%-40% of adult patients demonstrate residual paralysis with a train-of-four ratio less than 70%, but it is not known if the same is true for children. This study was designed to investigate neuromuscular transmission in 91 ASA physical status I or II day-care children (aged 0-10 yr) after halothane anesthesia in which pancuronium (n = 34), atracurium (n = 32), or vecuronium (n = 25) was administered. Peripheral nerve stimulation was used clinically to assess neuromuscular blockade during surgery. In the recovery room, the evoked response of the adductor pollicis muscle was measured by train-of-four stimulation of the ulnar nerve. This measurement was made (mean +/- SEM) at 18.0 +/- 1.5, 15.0 +/- 1.3, and 15.0 +/- 1.7 min after pharmacologic antagonism with 0.02 mg/kg atropine and 0.06 mg/kg neostigmine in the pancuronium, atracurium, and vecuronium groups, respectively. There were no differences in the ages of the patients in the three groups at 4.3 +/- 0.4, 4.0 +/- 0.4, and 5.0 +/- 0.5 yr, with 17 children less than 2 yr. Recovery from neuromuscular blockade in all three groups was almost complete. The train-of-four ratio (height of fourth twitch compared with the first) was similar in patients who had received pancuronium (96.7% +/- 0.9%), atracurium (95.5% +/- 0.9%), or vecuronium (96.3% +/- 1.3%). Therefore, postoperative muscle weakness or respiratory impairment is unlikely in pediatric day-care surgical patients more than 2 yr old when these anesthetic techniques are used.     

Reversal of combination nondepolarized neuromuscular block

The antagonism of a pancuronium-curare (P + C) neuromuscular block was assessed and compared to the antagonism of a pancuronium (P) block. One group of seven patients received P + C (0.024 mg/kg + 0.144 mg/kg); another similar group of seven patients received P (0.07 mg/kg). Both groups were anesthetized with nitrous oxide/oxygen/narcotic anesthesia. Each patient received 0.025 mg/kg of neostigmine when a train-of-four revealed only one twitch (90% block). The resultant antagonism of the pancuronium-curare blocks was the same as the antagonism of the pancuronium blocks (train-of-four ratio, 0.38 vs 0.32; P = 0.5). The authors conclude that neostigmine requirements for combination blocks are the same as those for single agent blocks.     

Neostigmine and 4-aminopyridine antagonism of lincomycin-pancuronium neuromuscular blockade in man

Seven anesthetized patients were studied to determine the interaction between pancuronium and lincomycin and the ability of neostigmine and 4-aminopyridine to antagonize the block. Lincomycin 600 mg given IV alone did not decrease twitch tension. An 8 to 10% decrease in twitch tension occurred when lincomycin was given after neostigmine antagonism of pancuronium. Lincomycin augmented a partial pancuronium neuromuscular blockade. The combined lincomycin-pancuronium neuromuscular blockade was effectively antagonized by both neostigmine and 4-aminopyridine although the latter produced a slower rate of antagonism. The authros conclude that lincomycin, 600 mg IV, augments a pancuronium neurovascular blockade. 4-Aminopyridine offers no advantage over neostigmine and, in fact, may offer a disadvantage because of a slower rate of antagonism.     

Can early administration of neostigmine, in single or repeated doses, alter the course of neuromuscular recovery from a vecuronium-induced neuromuscular blockade?

The authors sought to determine whether neostigmine, given at a time when no response to peripheral nerve stimulation could be elicited, hastened recovery from a vecuronium-induced neuromuscular blockade (NMB). The effect of neostigmine (70 micrograms/kg) in antagonizing a profound (no-twitch) vecuronium-induced (0.1 mg/kg) NMB in 40 healthy patients was studied. Patients were randomly assigned to one of four groups specifying the sequence of neostigmine administration. Fifteen minutes after the administration of vecuronium, when there was no detectable twitch response, each patient received either neostigmine (70 micrograms/kg) with glycopyrrolate (15 micrograms/kg) or an equivalent volume of normal saline (placebo). When T1 (the first response in the train-of-four [TOF] sequence) recovered to 10% of control, patients again received either neostigmine with glycopyrrolate in the same doses as before or the placebo. The following variables were measured: times from vecuronium injection until T1 recovered to 10% (t [10]) and 90% (t [90]) of control, and time until the TOF ratio was equal to 75% (t [TOF75]). Mean values of t (90) and t (TOF75) were shorter (54.7-75.2 min and 60.4-79.5 min, respectively) for the three groups who received neostigmine as compared with patients who received two doses of placebo (104.3 and 122.6 min, respectively). There were no differences in the t (90) and t (TOF75) values among the three groups who received neostigmine.(ABSTRACT TRUNCATED AT 250 WORDS)     

Recovery from vecuronium neuromuscular blockade following neostigmine administration in infants, children, and adults during halothane anesthesia

To determine whether neostigmine had different effects in pediatric patients during vecuronium neuromuscular blockade, the rate of recovery following neostigmine administration was compared in infants (n = 8), children (n = 10), and adults (n = 10) during nitrous oxide-halothane anesthesia. After induction of anesthesia, patients received 100 micrograms/kg of vecuronium. The EMG response of the adductor pollicis was monitored after train-of-four (TOF) stimulation of the ulnar nerve every 20 s. When the first twitch of TOF spontaneously recovered to 10% of control value, neostigmine was injected (40 micrograms/kg in adults, 30 micrograms/kg in infants and children). During the first few minutes following neostigmine administration, no differences were observed between the three groups. After the 8 min, recovery was more rapid in children than in infants and adults up to and including the 15th min. Ten minutes after neostigmine administration, the first twitch (mean +/- SD) reached 97 +/- 3%, 99 +/- 2%, and 97 +/- 5% of control value in infants, children, and adults, respectively; TOF ratio was greater in children (0.96 +/- 0.03) than in either adults (0.82 +/- 0.17) or in infants (0.83 +/- 0.14) (P less than 0.05). During the first minutes after neostigmine administration, the lack of difference in TOF recovery in the three groups suggests that neostigmine is the main factor of recovery. In contrast, the more complete recovery after the eighth minute in children could be due to the faster rate of spontaneous recovery from vecuronium induced neuromuscular blockade in children.     

Atracurium: neuromuscular blockade in repeated administration

The neuromuscular blocking action of repeated injections of atracurium and vecuronium was studied in 74 surgical patients during balanced anaesthesia (methohexitone or etomidate, intubation after suxamethonium, fentanyl, droperidol, N2O). The initial bolus dose (ID) of atracurium was 0.25 mg/kg and of vecuronium 0.05 mg/kg followed by repeated increments (RD) of atracurium 0.1 mg/kg and vecuronium 0.0125 mg/kg when neuromuscular function (EMG) had recovered to about 30% of pre-relaxant control. Dose-response relationships revealed atracurium to be about 1/5 as potent as vecuronium; the ED50 of atracurium was 0.13 +/- 0.03 mg/kg and of vecuronium 0.023 +/- 0.007 mg/kg. The ID of both relaxants produced a neuromuscular blockade of about 90% within 4 min. The duration from the time of injection to 30% recovery was slightly longer in atracurium 26 +/- 9 min. In all patients the RD produced within 3.5 min satisfactory muscle relaxation with a neuromuscular block of about 85%. The mean duration of atracurium (18 min) was 5-10 min longer than of vecuronium (12 min). To maintain good surgical relaxation (more than 70% blockade) atracurium 0.32 mg/kg X h and vecuronium 0.056 mg/kg X h were required. No cumulation could be measured after repeated injections. The recovery time of atracurium and vecuronium at the end of anaesthesia was 10-12 min. Neither cardiovascular side-effects nor signs of histamine release were observed after both relaxants in our particular dose range. It is concluded, that atracurium is a favourable blocker for anaesthetic practice: The time of onset is approximately the same compared with vecuronium. The duration of action, however, is slightly longer but still truly intermediate long.(ABSTRACT TRUNCATED AT 250 WORDS)     

Omitting antagonism of neuromuscular block: effect on postoperative nausea and vomiting and risk of residual paralysis. A systematic review

We have estimated the effect of omitting antagonism of neuromuscular block on postoperative nausea and vomiting. A systematic search (MEDLINE, EMBASE, Biological Abstracts, Cochrane library, reference lists and hand searching; no language restriction, up to March 1998) was performed for relevant randomized controlled trials. In eight studies (1134 patients), antagonism with neostigmine or edrophonium was compared with spontaneous recovery after general anesthesia with pancuronium, vecuronium, mivacurium or tubocurarine. On combining neostigmine data, there was no evidence of an antiemetic effect when it was omitted. However, the highest incidence of emesis with neostigmine 1.5 mg was lower than the lowest incidence of emesis with 2.5 mg. Numbers-needed-to-treat to prevent emesis by omitting neostigmine compared with using it were consistently negative with 1.5 mg, and consistently positive (3-6) with 2.5 mg. There was a lack of evidence for edrophonium. In two studies, three patients with spontaneous recovery after mivacurium or vecuronium needed rescue anticholinesterase drugs because of clinically relevant muscle weakness (number-needed-to-harm, 30). Omitting neostigmine may have a clinically relevant antiemetic effect when high doses are used. Omitting antagonism, however, introduces a non-negligent risk of residual paralysis even with short-acting neuromuscular blocking agents.