靶控输注瑞芬太尼和异丙酚麻醉诱导时镇静催眠效应的相互作用

Objective To investigate the sedative and hypnotic interaction between remifentanil and propofol by target-controlled infusion (TCI) during induction of anesthesia.Methods Third-two ASA Ⅰ or Ⅱpatients,aged 22-63 yr,body mass index 18-25 kg/m2,scheduled for elective surgery under general anesthesia,were randomly divided into 4 groups(n=8 each).Group Ⅰ only received TCI pmpofol.GroupⅡ,Ⅲ,and Ⅳreceived a target concentration of 2,4 or 6 ng/ml remifentanil respectively.While the blood-effect site concentrations of remifentanil were equilibrated,patients received TCI of propefol,with an initial target concentration of 0.5μg/ml.After the blood-effect site concentrations of propofol were equilibrated then with 0.5μg/ml increments until the loss consciousness was achieved.The eyelash reflex and state of consciousness were assessed and radial arterial blood sample 6 ml was taken every 3 min to determine the remifentanil and propofol concentrations in blood.Propofol and remifentanil concentrations in blood were measured by reversed-phase high-performance liquid chromatography and high-performance liquid chromatography with ultraviolet detection respectively.The sedative and hypnotic interaction between propofol and remifentanil was determined with a pharmacodynamie interaction model by regression analysis and determined using the isobolographic method.Results Propofol concentrations in blood were lower in group Ⅱ,Ⅲ and Ⅳ than group Ⅰ(P<0.05).The propofol concentratopms in blood were significantly decreased in trun with the increase in the remifentanil concentrations in blood in group Ⅱ-Ⅳ(P<0.05).At loss of eyelash reflex and loss of consciousness of patients,the pharmacodynamic interaction model by curve fitting was superior to linear regression (P<0.05).At loss of eyelash reflex of patients,the curve fitting result showed EC50,prop=2.77μg/ml and EC50,rem=26.67 ng/ml,and the isobolographic method equation is ECprop/2.77+ECrem/26.67=0.69.At loss of consciousness of patients,the curve fitting result showed EC50,prop==3.76μg/ml and EC50,rem=31.56ng/ml,and the isobolographic method equation is Ecprop/3.76+Ecrem/31.56=0.65.Conclusion Remifentanil (Cp 2-6 ng/ml) and propofol by TCI shows a synergistic type of pharmacodynamic interaction on the sedative and hypnotic during induction of anesthesia.     

不同效应室靶浓度瑞芬太尼对患者意识消失和伤害性刺激诱发体动反应消失时依托咪酯半数有效浓度的影响

Objective To investigate the effect of different target effect-site concentrations (Ces) ofremifentanil on the median effective concentration (EC50 ) of etomidate required for loss of consciousness and disappearance of nociceptive stimuli-induced body movement. Methods Eighty ASA Ⅰ orⅡ patients aged 18-64 yr scheduled for elective gynecological surgery under general anesthesia were randomly divided into 4 groups ( n = 20 each): group R0 received no remifentanil and R1-3 groups received remifentanil at 3 predetermined target Ces of 1,2 and 3 ng/ml respectively. At the beginning of anesthesia induction, remifentanil was given by target-controlled infusion (TCI) until the predetermined Ces were achieved, TCI of etomidate was then started at a target plasma concentration of 0.6 μg/ml and then the target plasma concentration of etomidate increased by 0.1 μg/ml every 1 min until the patients lost consciousness and the body movement induced by the nociceptive stimuli disappeared. The Ce of etomidate required for loss of consciousness and disappearance of nociceptive stimuli-induced body move-ment was recorded and the EC50 was calculated by Probit method. Results With the increase in the target Ces of remifentanil, the EC50 of etomidate required for loss of consciousness and disappearance of nociceptive stimuli-induced body movement decreased gradually (P < 0.05) .Conclusion Remifentanil given by TCI can enhance the sedative and analgesic effect of etomidate concentration-dependently.     

不同效应室靶浓度瑞芬太尼对患者意识消失和伤害性刺激诱发体动反应消失时依托咪酯半数有效浓度的影响

Objective To investigate the effect of different target effect-site concentrations (Ces) ofremifentanil on the median effective concentration (EC50 ) of etomidate required for loss of consciousness and disappearance of nociceptive stimuli-induced body movement. Methods Eighty ASA Ⅰ orⅡ patients aged 18-64 yr scheduled for elective gynecological surgery under general anesthesia were randomly divided into 4 groups ( n = 20 each): group R0 received no remifentanil and R1-3 groups received remifentanil at 3 predetermined target Ces of 1,2 and 3 ng/ml respectively. At the beginning of anesthesia induction, remifentanil was given by target-controlled infusion (TCI) until the predetermined Ces were achieved, TCI of etomidate was then started at a target plasma concentration of 0.6 μg/ml and then the target plasma concentration of etomidate increased by 0.1 μg/ml every 1 min until the patients lost consciousness and the body movement induced by the nociceptive stimuli disappeared. The Ce of etomidate required for loss of consciousness and disappearance of nociceptive stimuli-induced body move-ment was recorded and the EC50 was calculated by Probit method. Results With the increase in the target Ces of remifentanil, the EC50 of etomidate required for loss of consciousness and disappearance of nociceptive stimuli-induced body movement decreased gradually (P < 0.05) .Conclusion Remifentanil given by TCI can enhance the sedative and analgesic effect of etomidate concentration-dependently.     

复合TCI异丙酚时瑞芬太尼抑制支撑喉镜诱发心血管反应的EC50

Objective To determine the median effective concentration(EC50) of remifentanil by TCI inhibiting the cardiovascular response to the placement of operating laryngoscope performed under propofol anesthesia administered by TCI.Methods Twenty ASA Ⅰ orⅡ patients,aged 20-51 yr,weighing 52-83 kg,undergoing extirpation of vocal cord polyps under general anesthesia with remifentanil-pmpofol administered by TCI.were enrolled in the study.The target plasma concentration (Cp) of propofol was set at 4μg/ml.Operating laryngoscope was placed at 3 min after tracheal intubation.HR and MAP were continuously monitored.When HR or MAP increased by 15%,the candiovascular response was defined as positive.The EC50 was determined by up-and-down technique.The initial Cp of remifentanil was set at 5 ng/ml and was increased/decreased by 20%in the next patient if the cardiovascular response was positive or negative.Results No chest wall stiffness and intraoperative awareness occurred in all the patients.The EC50 of remifentanil TCI inhibiting the cardiovascular response to the placement of operating laryngoscope was 3.50ng/ml with confidence interval(CI) between 3.47-3.60 ng/ml.Conclusion Thee EC50 of remifentanil TCI inhibiting cardiovascular response to the placement of operating laryngoscope is 3.50ng/ml with CI between 3.47-3.60ng/ml.     

复合TCI异丙酚时瑞芬太尼抑制支撑喉镜诱发心血管反应的EC50

Objective To determine the median effective concentration(EC50) of remifentanil by TCI inhibiting the cardiovascular response to the placement of operating laryngoscope performed under propofol anesthesia administered by TCI.Methods Twenty ASA Ⅰ orⅡ patients,aged 20-51 yr,weighing 52-83 kg,undergoing extirpation of vocal cord polyps under general anesthesia with remifentanil-pmpofol administered by TCI.were enrolled in the study.The target plasma concentration (Cp) of propofol was set at 4μg/ml.Operating laryngoscope was placed at 3 min after tracheal intubation.HR and MAP were continuously monitored.When HR or MAP increased by 15%,the candiovascular response was defined as positive.The EC50 was determined by up-and-down technique.The initial Cp of remifentanil was set at 5 ng/ml and was increased/decreased by 20%in the next patient if the cardiovascular response was positive or negative.Results No chest wall stiffness and intraoperative awareness occurred in all the patients.The EC50 of remifentanil TCI inhibiting the cardiovascular response to the placement of operating laryngoscope was 3.50ng/ml with confidence interval(CI) between 3.47-3.60 ng/ml.Conclusion Thee EC50 of remifentanil TCI inhibiting cardiovascular response to the placement of operating laryngoscope is 3.50ng/ml with CI between 3.47-3.60ng/ml.     

新辅助化疗对乳腺癌患者靶控输注异丙酚意识消失时半数有效效应室靶浓度的影响

Objective To investigate the effect of neoadjuvant chemotherapy on EC50 of propofol given by TCI which produces loss of consciousness (LOC) in breast cancer patients.Methods Ninety ASA Ⅰ or Ⅱ breast cancer patients aged 30-60 yr scheduled for elective surgery were allocated into 3 groups according to the chemotherapy the patients received (n=30 each):group Ⅰ control (group C) received no chemotherapy;group Ⅱ taxol and group Ⅲ adriamycine+cyclophosphamide+5-Fu.The patients were unpremedicated.The EC50 of propofol given by TCI was determined by up-and-down technique.The initial effect-site concentration (Ce) of propofol was 2.07μg/ml and the ratio between the 2 successive Ce was 1.09.Loss of response to verbal command and eyelash stimulation was used as sighs of LOC.The EC50 of propofol was calculated.Results The EC50 of propofol causing LOC was significantly lower in group Ⅱ and Ⅲ than in control group.There was no significant difference in the EC50 of propofol which produces LOC between group Ⅱ and Ⅲ.Conclusion The EC50 of propofol causing LOC in breast cancerpatients is decreased by adjuvant chemotherapy.     

新辅助化疗对乳腺癌患者靶控输注异丙酚意识消失时半数有效效应室靶浓度的影响

Objective To investigate the effect of neoadjuvant chemotherapy on EC50 of propofol given by TCI which produces loss of consciousness (LOC) in breast cancer patients.Methods Ninety ASA Ⅰ or Ⅱ breast cancer patients aged 30-60 yr scheduled for elective surgery were allocated into 3 groups according to the chemotherapy the patients received (n=30 each):group Ⅰ control (group C) received no chemotherapy;group Ⅱ taxol and group Ⅲ adriamycine+cyclophosphamide+5-Fu.The patients were unpremedicated.The EC50 of propofol given by TCI was determined by up-and-down technique.The initial effect-site concentration (Ce) of propofol was 2.07μg/ml and the ratio between the 2 successive Ce was 1.09.Loss of response to verbal command and eyelash stimulation was used as sighs of LOC.The EC50 of propofol was calculated.Results The EC50 of propofol causing LOC was significantly lower in group Ⅱ and Ⅲ than in control group.There was no significant difference in the EC50 of propofol which produces LOC between group Ⅱ and Ⅲ.Conclusion The EC50 of propofol causing LOC in breast cancerpatients is decreased by adjuvant chemotherapy.     

同等药效学指标下依托咪酯与丙泊酚脑电双频指数值的比较

Objective To measure the predicted plasma and effect-site EC50 and bispeetral index(BIS) of etomidate delivered with TCI,and to compare the difference in BIS value induced by etomidate and propofol at same pharmacodynamics index (EC50 of losing consciousness).Methods Forty seven patients scheduled for surgery were anesthetized with etomidate using TCI.TCL started to get a predicted plasma etomidate concentration of 0.25 mg/L,and increased by 0.03 mg/L every 30 s until patients lost their consciousness.A quantal response model(probit analysis) was used to calculate the predict plasma and effect-site EC50,EC50 and EC95 of etomidate,and the corresponding BIS values were recorded and compared to that induced with propofol reported before.Results The predicted plasma etomidate concentration of EC50 to losing consciousness was 0.59 mg/L with EC05 and EC95 of 0.46,0.71 μg/ml,respectively.The corresponding effect-site concentration of EC50 was 0.51 mg/L with EC05 and EC95 of 0.37 and 0.64 mg/L,respectively.In this study,BIS values to make 50% and 90% of patients losing their consciousness were 44 and 31～56,respectively.The BIS value induced with etomidate(45±10) was markedly lower than that with propofol(58±11) at the same pharmacodynamics index (EC50 of losing consciousness).Conclusion The predicted plasma and effectsite EC50 of etomidate administered with TCI to lose consciousness is 0.59 mg/L and 0.51 mg/L,respectively.The corresponding BIS value with etomidate is markedly lower than that with propofol.     

长期饮酒对异丙酚使患者意识消失的半数有效效应室靶浓度的影响

目的 拟通过探讨长期饮酒对异丙酚使患者意识消失的半数有效效应室靶浓度(EC50)的影响,评价长期饮酒对异丙酚镇静效力的影响.方法 择期拟行外科手术的男性患者50例,年龄25～60岁,体重50～80kg,ASA分级Ⅰ或Ⅱ级,根据是否有长期饮酒史分为2组(n=25),对照组:日饮酒量＜25 g;长期饮酒组:日饮酒量超过45 g持续2年或2年以上.采用序贯法确定异丙酚使患者意识消失的EC50其95%可信区间,长期饮酒组和对照组异丙酚初始效应室靶浓度分别为2.0和1.5μg/ml,各相邻靶浓度之比为1.05.以睫毛反射消失及对言语指令无反应作为判断意识消失的标准.结果 长期饮酒组和对照组异丙酚使患者意识消失时的EC50及其95%可信区间分别为3.92(3.56～4.63)g/ml和2.73(2.26～3.31)μg/ml,长期饮酒组EC50高于对照组(P＜0.05).结论 长期饮酒可增加异丙酚使患者意识消失时的EC50,降低其镇静效力.

Abstract：

Objective To evaluate the effect of chronic alcohol intake on the sedative potency of propofol through investigating the effect of chronic alcohol intake on the half-effective target effect-site concentration ( EC50 )of propofol required for loss of consciousness in patients. Methods Fifty male ASA Ⅰ or Ⅱ patients, aged 25-60 yr, weighing 50-80 kg, scheduled for elective surgery, were divided into 2 groups according to the history of chronic alcoholic intake ( n = 25 each): control group (alcoholic intake per day ＜ 25 g) and chronic alcoholic group (alcoholic intake per day＞45 g, lasting for 2 yr or more). The EC50 and 95% confidence interval (CI)were determined by up-and-down sequential method. The initial target effect-site concentration was 2 μg/nl in chronic alcoholic group and 1.5μg/ml in control group, and the ratio between the two successive concentrations was 1.05. Loss of consciousness was defined as loss of response to verbal command and eyelash stimulation. Results The EC50 of propofol that produced loss of consciousness was 3.92 (95 % CI 3.56-4.63 ) μg/ml in chronic alcoholic group and 2.73 (95%CI 2.26-3.31)μg/ml in control group. The EC50 of propofol was significantly higher in chronic alcoholic group than in control group ( P ＜ 0.05). Conclusion Chronic alcohol intake can increase the EC50 of propofol required to induce loss of consciousness and reduce sedative potency in patients.     

靶控输注异丙酚复合瑞芬太尼麻醉时NI与BIS监测镇静深度的比较

Objective To compare bispectral index (BIS) with narcotrend index (NI) during propofol-remifentanil anesthesia administered by target-controlled infusion (TCI).Methods Ten ASA Ⅰ or Ⅱ pafients aged 18-56 yr weighing 52-67kg undergoing abdominal surgery lasting>1h were included in this study.BIS and NI were monitored simultaneously.Anesthesia was induced with TCI of propofol with target plasma concentration (Cp) of 3～4μg/ml and remifentanil (Cp 3-4ng/ml).Tracheal intubation was facilitated with cis-atracurium 0.3 mg/kg.The patients were mechanically ventilated.PETCO2 was maintained between 30-35 mm Hg.Anesthesia was maintained with TCI of propofol and remifentanil by the anesthesiologist bhnded to BIS and NI values.according to hemedynamic parameters.BIS and narcotrend values were recorded every minute and compared by another anesthesiologist.All data were compared by Bland-Altman analysis and with Kappa coefficient for agreement.The correlation between BIS and NI was tested by Spearman correlation analysis.The number of error ofjudgement (Type Ⅰ was defined as BIS<40 and NI>62;Type Ⅱ was defined as BIS>60 and NI<20)Was counted.Results The correlation and agreement between BIS and NI during maintenance of propofol-remifentanil anesthesia administered by TCI showed good consistency.Conclusion Both NI and BIS Can help anesthesiologist control the depth of anesthesia during TCI of propofol-remifentanil.     

Perioperative and long-term morbidity and mortality after above-knee and below-knee amputations in diabetics and nondiabetics

We performed a retrospective review of a vascular surgery quality assurance database to evaluate the perioperative and long-term morbidity and mortality of above-knee amputations (AKA, n = 234) and below-knee amputations (BKA, n = 720) and to examine the effect of diabetes mellitus (DM) (181 of AKA and 606 of BKA patients). All patients in the database who had AKA or BKA from 1990 to May 2001 were included in the study. Perioperative 30-day cardiac morbidity and mortality and 3-yr and 10-yr mortality after AKA or BKA were assessed. The effect of DM on 30-day cardiac outcome was assessed by multivariate logistic regression and the effect on long-term survival was assessed by Cox regression analysis. The perioperative cardiac event rate (cardiac death or nonfatal myocardial infarction) was at least 6.8% after AKA and at most 3.6% after BKA. Median survival was significantly less after AKA (20 mo) than BKA (52 mo) (P < 0.001). DM was not a significant predictor of perioperative 30-day mortality (odds ratio, 0.76 [0.39-1.49]; P = 0.43) or 3-yr survival (Hazard ratio, 1.03 [0.86-1.24]; P = 0.72) but predicted 10-yr mortality (Hazard ratio, 1.34 [1.04-1.73]; P = 0.026). Significant predictors of the 30-day perioperative mortality were the site of amputation (odds ratio, 4.35 [2.56-7.14]; P < 0.001) and history of renal insufficiency (odds ratio, 2.15 [1.13-4.08]; P = 0.019). AKA should be triaged as a high-risk surgery while BKA is an intermediate-risk surgery. Long-term survival after AKA or BKA is poor, regardless of the presence of DM.     

Body composition assessment and methodology in nonathletic and athletic adolescent and adult males and females

The purpose of this review is to outline methodology for assessing body composition utilizing anthropometric and densitometric techniques. The objective of body composition assessment is to measure body fat and lean body mass. The quantity of these components varies due to growth, physical activity, dietary regimens, and aging. Anthropometric techniques incorporate selected skinfolds, circumferences, skeletal widths, or other variables to estimate body composition within k2.0-4.0%. These techniques are adequate for field testing of groups or individuals, but are population specific. Densitometry measures body volume irrespective of physique, sex, or age. This laboratory technique estimates body composition within 1.0-2.0%, is more difficult to administer, but is not population specific. Some limitation exists with any present technique due to biological variability and incomplete research of reference body composition in children, females, and the aged. J Orthop Sports Phys Ther 1984;5(6):336-347.     

Postoperative nausea and vomiting and opioid-induced nausea and vomiting: guidelines for prevention and treatment

Postoperative nausea and vomiting (PONV) causes patient discomfort, lowers patient satisfaction, and increases care requirements. Opioid-induced nausea and vomiting (OINV) may also occur if opioids are used to treat postoperative pain. These guidelines aim to provide recommendations for the prevention and treatment of both problems. A working group was established in accordance with the charter of the Sociedad Espa?ola de Anestesiología y Reanimación. The group undertook the critical appraisal of articles relevant to the management of PONV and OINV in adults and children early and late in the perioperative period. Discussions led to recommendations, summarized as follows: 1) Risk for PONV should be assessed in all patients undergoing surgery; 2 easy-to-use scales are useful for risk assessment: the Apfel scale for adults and the Eberhart scale for children. 2) Measures to reduce baseline risk should be used for adults at moderate or high risk and all children. 3) Pharmacologic prophylaxis with 1 drug is useful for patients at low risk (Apfel or Eberhart 1) who are to receive general anesthesia; patients with higher levels of risk should receive prophylaxis with 2 or more drugs and baseline risk should be reduced (multimodal approach). 4) Dexamethasone, droperidol, and ondansetron (or other setrons) have similar levels of efficacy; drug choice should be made based on individual patient factors. 5) The drug prescribed for treating PONV should preferably be different from the one used for prophylaxis; ondansetron is the most effective drug for treating PONV. 6) Risk for PONV should be assessed before discharge after outpatient surgery or on the ward for hospitalized patients; there is no evidence that late preventive strategies are effective. 7) The drug of choice for preventing OINV is droperidol.