5 results
Large bolus dose vs. continuous infusion of cisatracurium during hypothermic cardiopulmonary bypass surgery
- G. Cammu, V. Boussemaere, L. Foubert, J. Hendrickx, J. Coddens, T. Deloof
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- Journal:
- European Journal of Anaesthesiology / Volume 22 / Issue 1 / January 2005
- Published online by Cambridge University Press:
- 13 April 2005, pp. 25-29
- Print publication:
- January 2005
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Summary
Background and objective: We investigated whether a high bolus dose of cisatracurium (8× ED95) given at induction can provide muscle relaxation for the major part of a cardiac procedure with hypothermic cardiopulmonary bypass, avoid important postoperative residual curarization and cause no waste of product.
Methods: Twenty patients were randomly assigned either to Group 1 (n = 10) or Group 2 (n = 10). Those in Group 1 were given cisatracurium in a high bolus dose (0.4 mg kg−1). Those in Group 2 received cisatracurium 0.1mg kg−1 at induction followed after 30 min by a continuous infusion of cisatracurium. As an escape medication in case of patient movement, a bolus dose of cisatracurium 0.03 mg kg−1 was given.
Results: In Group 1 (large cisatracurium bolus dose), the clinical duration of effect (until T1/T0 = 25%) was 110 min. Six of 10 patients in Group 1 required additional boluses of cisatracurium intraoperatively. Four of these six had received an additional bolus near the end of surgery and had a train-of-four (TOF) ratio = 0 at the end. The other four patients in Group 1 had a final TOF ratio >0.9. In Group 2 (continuous cisatracurium infusion), only two patients had a TOF ratio >0.9 at the end of surgery, no patient moved and none received additional boluses. The total amount of cisatracurium used in the bolus and infusion Groups was 34.5 ± 7.8 and 21.3 ± 5.7 mg, respectively (P = 0.0004).
Conclusions: For continued neuromuscular block during hypothermic cardiac surgery, a high bolus dose of cisatracurium appears to be safe, although it is not an alternative to a continuous infusion, as its neuromuscular blockade does not cover the intraoperative period and a high incidence of movements occurs. In the patients who received a high bolus dose of cisatracurium, postoperative residual curarization appeared after additional boluses had been given. The consumption of cisatracurium by high bolus was significantly greater than with continuous infusion.
A reply
- G. Cammu, J. Hendrickx, J. Coddens, T. Deloof
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- Journal:
- European Journal of Anaesthesiology / Volume 21 / Issue 4 / April 2004
- Published online by Cambridge University Press:
- 23 December 2004, pp. 323-324
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- April 2004
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Implications of the use of neuromuscular transmission monitoring on immediate postoperative extubation in off-pump coronary artery bypass surgery
- G. Cammu, K. De Keersmaecker, F. Casselman, J. Coddens, J. Hendrickx, F. Van Praet, T. Deloof
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- Journal:
- European Journal of Anaesthesiology / Volume 20 / Issue 11 / November 2003
- Published online by Cambridge University Press:
- 11 July 2005, pp. 884-890
- Print publication:
- November 2003
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Summary
Background and objective: When continuous infusions of neuromuscular blocking drugs are administered during lengthy interventions and no routine antagonism of their effects is applied, there is a dramatic incidence of residual curarization. We have examined whether the use of neuromuscular transmission monitoring results in differences in the incidence of postoperative residual curarization, the use of antagonist agents, and the endotracheal extubation rate and outcome after continuous infusion of rocuronium in patients undergoing off-pump coronary artery bypass surgery.
Methods: Twenty patients were assigned to group 1 (n = 10, non-blinded neuromuscular transmission monitoring) or group 2 (n = 10, blinded neuromuscular transmission monitoring). In group 1, patients were given rocuronium at an infusion rate of 6 μg kg−1 min−1. The rate was manually adjusted in order to maintain T1/T0 at 10%. In group 2, a rocuronium infusion was started 30 min after induction of anaesthesia, at a rate of 6 μg kg−1 min−1; this rate was left unchanged during surgery. The rocuronium infusion was discontinued on completion of all vascular anastomoses; propofol was stopped at the beginning of closure of the subcutis and pirinitramide (piritramide) 15 mg was administered intravenously. Remifentanil was discontinued at the beginning of skin closure and neostigmine (50 μg kg−1) administered at the end of surgery when the train-of-four ratio was <0.9 in group 1, and routinely in group 2. A 20 min test period for spontaneous ventilation was allowed once surgery had been accomplished. When the train-of-four ratio was ≥0.9 (group 1), patients were extubated if also breathing spontaneously, fully awake and able to follow commands. When they met the clinical criteria for normal neuromuscular function after induced blockade, patients in group 2 were extubated when fully awake and able to follow commands.
Results: In group 1, the rate of rocuronium infusion required to keep T1/T0 at 10% was 5 ± 1.9 μg kg−1 min−1; this was not significantly different from the fixed rate in group 2 (P = 0.15). One patient in group 2 was excluded. Eight out of 10 and eight out of nine patients in groups 1 and 2, respectively, reached the extubation criteria. Three out of eight, and five out of eight, patients from groups 1 and 2, respectively, were extubated in the operating room. At that time of endotracheal extubation, all three patients from group 1, but only four of the five patients from group 2 had a train-of-four ratio ≥0.9. In group 2, one patient was reintubated in the intensive care unit. The incidence of pharmacological reversal was high in group 1.
Conclusions: Although we found no additional benefit of using neuromuscular transmission monitoring, it seems an absolute necessity for safety reasons. Pharmacological antagonism was mandatory. However, in our opinion, it is not wise routinely to perform immediate postoperative extubation in off-pump coronary artery bypass surgery.
Anaesthetic management and outcome in right-lobe living liver-donor surgery
- G. Cammu, R. Troisi, O. Cuomo, B. de Hemptinne, E. Di Florio, E. Mortier
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- Journal:
- European Journal of Anaesthesiology / Volume 19 / Issue 2 / February 2002
- Published online by Cambridge University Press:
- 16 August 2006, pp. 93-98
- Print publication:
- February 2002
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Background and objective: We reviewed retrospectively the anaesthetic management and perioperative course of eight right hepatectomies for living liver donation.
Methods: After preoperative psychiatric evaluation, eight ASA I–II individuals donated the right lobe of their liver to a family member. A graft-recipient body weight ratio of 0.8–1.0% was required for patient selection. Indications for liver transplantation were: hepatitis C viral-related cirrhosis in six patients; combined hepatitis C and B viral cirrhosis in one patient; multifocal hepatocellular carcinoma – four lesions, involving both liver lobes – of hepatitis C viral-related cirrhosis in another patient. Indication for adult-to-adult living-donor liver transplantation was retained in the latter because of rapid deterioration of liver disease, rare recipient's blood group and extended, unresectable hepatocellular carcinoma. Hepatitis C viral-related cirrhosis was casually the primary indication for adult-to-adult living-donor liver transplantation in this group. The condition of the donated hepatic lobe was optimized by appropriate drug and perfusion management. Preoperative investigations included: blood tests (full cell count and film, thyroid function tests, pregnancy tests, full virological tests and bacteriological cultures, and immunological typing), chest radiograph, electrocardiogram plus Doppler cardiac ultrasound, spirometry, aminopyrine breath test, liver Doppler examination, magnetic resonance imaging, angiography and cholangiography and a volumetric study of the whole liver and the right lobe. Haemoglobin and lactate concentrations, liver function tests and international normalized ratio were measured before and after operation. The volume and weight of the resected right lobe was calculated. Anaesthesia was induced with propofol 300 mL h−1 and sufentanil 0.3 μg kg−1 intravenously; cisatracurium, 0.15 mg kg−1, was given to facilitate tracheal intubation. Anaesthesia was maintained during normocapnic ventilation of the lungs with oxygen 40% in air, isoflurane 1–1.5 MAC and sufentanil. Routine anaesthetic monitoring included electrocardiography, pulse oximetry, invasive blood pressure, central venous pressure, urine output, state of neuromuscular blockade and core temperature. Periods of hypotension (< 80% of the preoperative blood pressure) or haemodynamic instability (requiring inotropic or vasoactive support) were registered. Total blood loss and transfusion (homologous, autologous or cell-saver blood) requirements were measured; volume replacements were derived.
Results: Data are presented as mean (range). There was no morbidity or mortality and no periods of intraoperative hypotension or haemodynamic instability. The operation time averaged 619 (525–780) min. Four donors were extubated in the operating room immediately after surgery; the others were extubated in the intensive care unit, where the mean extubation time was 16.3 (5–25) h after arrival. The estimated blood loss was 967 (550–1600) mL. No homologous blood was administered; five donors received autologous blood,intraoperatively; three donors received a cell-saver blood transfusion. Intraoperative fluid replacement was with crystalloids, colloids and 4% albumin. Total urine output was 1472 (700–3100)mL. Although intraoperative hypothermia occurred all subjects were normothermic at the end of operation. The pre- and immediately postoperative haemoglobin concentration averaged 13.6 (9.8–15.6) and 10.5 (6.9–13.0) g dL−1 respectively. On the first postoperative day, the haemoglobin was 11.7 (8.4–15.1) g dL−1. The donors' liver function tests were transiently elevated in the initial postoperative period. The intensive care unit discharge time was 2 (1–3) days. The hospital stay was 13 (7–17) days. There was no morbidity or mortality.
Conclusions: The study demonstrates that right-lobe living-donor surgery was well tolerated, without intraoperative hypotension or haemodynamic instability, without perioperative anaesthetic or surgical complications, and with an excellent general outcome.
Postoperative residual curarization with cisatracurium and rocuronium infusions
- G. Cammu, L. de Baerdemaeker, N. den Blauwen, J.-C. de Mey, M. Struys, E. Mortier
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- Journal:
- European Journal of Anaesthesiology / Volume 19 / Issue 2 / February 2002
- Published online by Cambridge University Press:
- 16 August 2006, pp. 129-134
- Print publication:
- February 2002
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Background and objective: Monitoring of neuromuscular blockade still often relies on clinical judgement. Moreover, there are substantial national differences in the use of agents to 'reverse' their effects. We investigated the recovery characteristics and incidence of postoperative residual curarization after cisatracurium and rocuronium infusions for long duration interventions without systematic antagonism.
Methods: In 30 patients undergoing major surgery, we measured infusion dose requirements for rocuronium and cisatracurium during propofol anaesthesia. Infusions were discontinued at the beginning of surgical closure; spontaneous recovery of neuromuscular function was awaited in both groups. Neostigmine (50 μg kg−1) was administered only when a patient started to wake without a train-of-four ratio (TOF) of 0.9.
Results: In the cisatracurium and rocuronium groups, four (27%) and one (7%) patients, respectively, had a TOF ratio ≥0.9 at the end of surgery. The TOF ratio in each group at that time was 51 ± 32% for cisatracurium and 47 ± 31% for rocuronium (P = 0.78). Six patients (40%) in the cisatracurium group and seven (47%) in the rocuronium group required neostigmine. The TOF ratio at the time of reversal was 63 ± 7% for cisatracurium and 40 ± 19% for rocuronium (P = 0.01). The time interval between the end of surgery and a TOF ratio of 0.9 was 10 ± 9 min for cisatracurium and 18 ± 13 min for rocuronium (P = n.s.).
Conclusions: Patients receiving a cisatracurium or rocuronium infusion have a high incidence of postoperative residual curarization when the block is not antagonized. When ‘reversal’ is not attempted, cisatracurium seems to be safer than rocuronium.