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.     

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.     

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.     

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.     

不同效应室靶浓度瑞芬太尼对患者异丙酚镇静效应的影响

目的 探讨不同效应室靶浓度瑞芬太尼对患者异丙酚镇静效应的影响.方法择期全麻手术患者50例,年龄20～55岁,体重48～86 kg,性别不限,ASA分级Ⅰ或Ⅱ级,BMI＜30 kg/m2,采用随机数字表法,将患者随机分为5组(n=10):R0组、R1组、R2组、R3组、R4组.麻醉诱导时R0组～R4组瑞芬太尼效应室靶浓度分别为0、2 4 6和8 ng/ml,异丙酚初始效应室靶浓度2.0 μg/ml,待效应室浓度稳定之后每隔1 min增加0.5 μg/ml,直至BIS值降至50.记录患者意识消失时的BIS值、异丙酚效应室浓度.记录BIS值降至50时的异丙酚效应室浓度、异丙酚总用量及所需时间.结果 与R0组比较,R2组～R4组意识消失时BIS值升高,异丙酚效应室浓度降低,BIS值降至50时异丙酚总用量和异丙酚效应室浓度降低,所需时间缩短(P＜0.05或0.01),R.组上述指标差异无统计学意义(P＞0.05);R2组～R4组意识消失时BIS值和异丙酚效应室浓度、BIB值降至50时异丙酚总用量和异丙酚效应室浓度以及所需时间差异无统计学意义(P＞0.05).结论 瑞芬太尼效应室靶浓度达4 ng/ml时可增强异丙酚的镇静效应,且4、6和8 ng/ml时该作用无差异.

Abstract：

Objective To investigate the effects of different target effect-site concentrations (Ces) of remifentanil on the sedative effect of propofol. Methods Fifty ASA Ⅰ or Ⅱ patients aged 20-55 yr weighing 48-86 kg with body mass index ＜ 30 kg/m2 were randomly divided into 5 groups ( n = 10 each) . Anesthesia was induced with TCI of remifentanil (Ce = 0, 2, 4, 6 and 8 ng/ml in groups R0-R4 respectively) and propofol. The initial Ce of propofol was 2.0 μg/ml in the 5 groups, and then the Ce of propofol increased by 0.5 μg/ml every 1 min until BIS value decreased to 50. BIS value and Ce of propofol were recorded as the patient lost consciousness. The effect-site concentration and consumption of propofol and the time required were recorded when BIS value decreased to 50.Results BIS value was significantly increased, while the effect-site concentration of propofol was significantly decreased as the patient lost consciousness, and the effect-site concentration and consumption of propofol were significantly decreased and the time required was shortened when BIS value decreased to 50 in R2-R4 groups compared with group R0 (P ＜ 0.05 or 0.01) . Conclusion The sedative effect of propofol can be enhanced when the Ce of remifentanil reaches 4 ng/ml, and the effects are comparable when the Ce of remifentanil reaches 4, 6 and 8 ng/ml.     

舒芬太尼复合TCI异丙酚抑制前列腺电切术老年患者尿道镜置入反应的半数有效效应室靶浓度

目的 确定舒芬太尼复合TCI异丙酚抑制经尿道前列腺电切术(TURP)老年患者尿道镜置入反应的半数有效效应室靶浓度(EC50).方法 拟行TURP的患者22例,年龄65～79岁,体重47～81 kg,ASA分级Ⅰ～Ⅲ级.TCI异丙酚,血浆靶浓度4 μg/ml,异丙酚达到靶浓度后开始TCI舒芬太尼;采用序贯法,按照患者是否发生尿道镜置入反应确定舒芬太尼的效应室靶浓度,初始效应室靶浓度为0.3 ng/ml,相邻浓度比值为1.1.计算舒芬太尼的EC50及其95%可信区间.结果 舒芬太尼抑制尿道镜置入反应的EC50为0.23 ng/ml,95%可信区间为0.12～0.44 ng/ml.结论 复合TCI异丙酚(血浆靶浓度4 μg/ml)时,舒芬太尼抑制TURP老年患者尿道镜置入反应的EC50为0.23 ng/ml.

Abstract：

Objective To determine the half-effective target effect-site concentration (EC50 ) of sufentanil inhibiting the urethroscope insertion response when combined with propofol by target-controlled infusion (TCI) in the elderly patients undergoing transurethral resection of prostate (TURP) . Methods Twenty-two ASA Ⅰ- Ⅲ patients, aged 65 -79 yr, weighing 47-81 kg, undergoing TURP, were enrolled in the study. Anesthesia was performed with TCI of propofol and sufentanil. The target plasma concentration of propofol was 4 μg/ml. The target effect-site concentration of sufentanil was determined by up-and-down sequential trial. The initial target effect-site concentration of sufentanil was 0.3 ng/ml and the ratio of the target concentrations between the two consecutive patients was 1.1. The ECW and 95% confidence interval of sufentanil required to inhibit the response to urethroscope insertion were calculated. Results The EC50 of sufentanil required to inhibit the urethroscope insertion response was 0.23 ng/ml (95% confidence interval 0.12-0.44 ng/ml). Conclusion When combined with propofol by TCI (target plasma concentration 4 μg/ml), the EC50 of sufentanil inhibiting the response to urethroscope insertion is 0,23 ng/ml in the elderly patients undergoing TURP.     

右美托咪啶对舒芬太尼抑制甲状腺切除术患者切皮时体动反应半数有效效应室靶浓度的影响

目的 评价右美托咪啶对舒芬太尼抑制甲状腺切除术患者体动反应的半数有效效应室靶浓度(EC50)的影响.方法 择期行甲状腺双叶次全切除术患者,性别不限,ASA分级Ⅰ或Ⅱ级,年龄20～64岁,体重指数20～2.5 kg/m2,采用随机数字表法,将其随机分为2组,D组经10 min静脉输注右美托咪啶0.6 μg/kg,C组给予等容量生理盐水,停止给药后5 min时开始靶控输注异丙酚,血浆靶浓度为3.0 μg/ml,输注10 min时,2组开始靶控输注舒芬太尼,第1例患者的效应室靶浓度为0.20ng/ml,输注舒芬太尼3 min时置入喉罩,保留自主呼吸,待舒芬太尼达到目标靶浓度后,开始手术.根据切皮时是否发生体动反应确定下一例患者舒芬太尼的靶浓度,相邻靶浓度比值为1.2.采用序贯法计算舒芬太尼抑制切皮时体动反应的EC50及其95%可信区间(95%CI).结果 C组和D组样本数分别为19和20,舒芬太尼抑制切皮时体动反应的EC50分别为0.1454 ng/ml(95%CI 0.1339～0.1580 ng/ml)和0.1148 ng/ml(95%CI 0.1055～0.1249 ng/ml),D组EC50低于C组(P＜0.05).结论 术前静脉注射右美托咪啶0.6 μg/kg可降低舒芬太尼抑制甲状腺切除术患者切皮时体动反应的EC50.

Abstract：

Objective To investigate the effect of dexmedetomidine on median effective target effect-site concentration ( EC50) of sufentanil inhibiting body movement evoked by skin incision in patients undergoing bilateral subtotal thyroidectomy. Methods Thirty-nine ASA I or II patients of both sexes aged 20-64 yr with a body mass index of 20-25 kg/m2 undergoing bilateral subtotal thyroidectomy were randomly divided into 2 groups: control group (group C) and dexmedetomidine group (group D). The patients were premedicated with intramuscular phenobarbital 0.1 g and scopolamine 0.3 mg. In group D dexmedetomidine 0.6 μg/kg was injected iv over 10 min at S min before induction of anesthesia. Anesthesia was induced with target-controlled infusion (TCI) of propofol and sufentanil. The target plasma concentration of propofol was set at 3.0 μg/ml which was maintained until the end of operation. TCI of sufentanil was started at 10 min after initiation of propofol TCI. The initial target effect-site concentration was set at 0.20 ng/ml and decreased/increased by 20% in the next patient according to whether the patient's body moved or not within 1 min after skin incision. Laryngeal mask airway was inserted at 3 min after initiation of sufentanil TCI. Spontaneous breathing was maintained. Skin incision was made at 10 min after initiation of sufentanil TCI. The EC50 and 95% confidence interval (CI) of sufentanil inhibiting skin incision-evoked body movement were calculated with sequential method. Results EC50, of sufentanil was 0.1148 ng/ml (95% CI 0.1055-0.1249 ng/ml) in group D and 0.1454 ng/ml (95% CI 0.1339-0.1580 ng/ml) in group C, and was significantly lower in group D than in group C. Conclusion Dexmedetomidine 0.6 μg/kg infused iv before operation can reduce the EC50 of sufentanil inhibiting body movement evoked by skin incision in patients undergoing bilateral subtotal thyroidectomy.     

瑞芬太尼对丙泊酚靶控输注患者意识消失及诱发脑电爆发抑制时的半数有效浓度的影响

目的探讨丙泊酚TCI时患者意识消失(LOC)及诱发脑电爆发抑制(BS)时的效应室半数有效浓度(EC50)的影响。方法择期全麻手术患者60例,随机均分为瑞芬太尼组(R组)和生理盐水组(N组)。R组:以4ng/ml靶浓度TCI瑞芬太尼10 min后开始TCI丙泊酚,靶浓度从1μg/ml开始递增,递增梯度为1μg/ml,每一靶浓度输注1min,至脑电监测爆发抑制比(BSR)达到15%后结束试验;N组:以等量生理盐水模拟瑞芬太尼TCI,其余方法与R组相同,期间所有患者每间隔20秒行改良OAA/S评分,改良OAA/S评分2分定义为LOC,BSR15%定义为出现BS现象。记录LOC和BSR达15%时的丙泊酚EC50及其95%可信区间(CI)。结果 LOC时R组丙泊酚效应室EC50为1.73μg/ml(95%CI 1.68~1.79μg/ml),N组为2.35μg/ml(95%CI 2.29~2.41μg/ml)(P0.05)。BSR达15%时R组和N组丙泊酚EC50分别为6.25μg/ml(95%CI 6.18~6.42μg/ml)和6.31μg/ml(95%CI 6.13~6.47μg/ml),两组差异无统计学意义。结论复合TCI瑞芬太尼可降低丙泊酚TCI意识消失时的效应室EC50,但对出现脑电爆发抑制时的丙泊酚效应室浓度无明显影响。     

依托咪酯乳剂诱导时雷米芬太尼抑制气管插管反应的效应室靶浓度

目的 测定依托咪酯乳剂诱导时雷米芬太尼抑制气管插管反应的效应室靶浓度(EC50和EC95).方法 选择23例ASAⅠ或Ⅱ级全麻择期手术患者靶控输注(TCI)雷米芬太尼,血浆浓度与效应室浓度达到平衡后静脉注射依托咪酯乳剂0.3 mg/kg,患者意识消失后静脉注射琥珀胆碱行气管插管.气管插管后2 min内最高的SBP和/或HR高出基础值15%为气管插管反应阳性.雷米芬太尼靶浓度按改良序贯法增加或减少0.5 ng/ml.用概率单位回归分析法计算出雷米芬太尼抑制气管插管反应的EC50、EC95及相应的95%可信区间(CI).结果 雷米芬太尼抑制气管插管反应的EC50为3.06 ng/ml,95%CI为2.56～3.47 ng/ml;相应的EC95为3.85 ng/ml,95%CI为3.45～6.64ng/ml.结论 复合依托咪酯0.3 mg/kg诱导时雷米芬太尼抑制气管插管反应的EC50和EC95分别为3.06 ng/ml和3.85 ng/ml.     

人工流产术患者复合异丙酚时靶控输注瑞芬太尼的药效学

目的 探讨人工流产术患者复合异丙酚4.5 μg/ml时靶控输注瑞芬太尼的药效学.方法 拟行人工流产术患者135例,年龄18～30岁,ASAI级,孕6～10周.随机分为9组(n=15):瑞芬太尼效应室靶浓度分别为0.5、0.8、1.1、1.4、1.7、2.0、2.3、2.6和2.9 ng/ml(Ⅰ组～Ⅸ组).各组异丙酚效应室靶浓度均为4.5 μg/ml.采用概率单位回归分析法,计算麻醉效果达优时瑞芬太尼效应室靶浓度EC50、EC95及其95%可信区间(CI)和呼吸抑制时瑞芬太尼效应室靶浓度EC50、EC95及其95%CI.结果 麻醉效果达优时瑞芬太尼的效应室靶浓度EC50为1.67 ng/ml,其95%CI为1.45～1.90 ng/ml,EC95为3.88 ng/ml,其95%CI为3.08～5.89 ng/ml;呼吸抑制时瑞芬太尼效应室靶浓度EC50为2.44 ng/ml,其95%CI为2.28～2.64 ng/ml,EC95为3.36 ng/ml,其95%CI为2.99～4.34 ng/ml.麻醉效果达优时瑞芬太尼的效应室靶浓度EC95高于呼吸抑制时效应室靶浓度EC95(P＜0.05).结论 人工流产术患者复合异丙酚4.5 μg/ml时,麻醉效果达优时瑞芬太尼的效应室靶浓度EC50、EC95,分别为1.67、3.88 ng/ml,呼吸抑制时瑞芬太尼的效应室靶浓度EC50、EC95,分别为2.44、3.36 ng/ml.     

复合TCI异丙酚时瑞芬太尼抑制纤维支气管镜检查患者气道反应的半数有效血浆靶浓度

目的 确定复合TCI异丙酚时瑞芬太尼抑制纤维支气管镜检查患者气道反应的半数有效血浆靶浓度(EC50).方法 择期行纤维支气管镜检查患者40例,ASA分级Ⅰ或Ⅱ级,随机分为2组(n=20).两组均以TCI瑞芬太尼和异丙酚麻醉,异丙酚效应室靶浓度3μg/ml,瑞芬太尼效应室靶浓度采用序贯法确定,第1例患者瑞芬太尼的效应室靶浓度5μg/L,相邻靶浓度之比为1.1.A组以检查过程中BIS≤60为合适麻醉深度,B组以检查过程中气道反应≤Ⅱ级为合适麻醉深度.分别计算两组瑞芬太尼抑制气道反应的EC50及其95%可信区间(CI).结果 A组和B组瑞芬太尼的EC50及其95%CI分别为4.50μg/L(95%CI 3.88～5.36μg/L)和4.10ug/L(95%CI 3.31～5.00μg/L),A组EC50高于B组(P＜0.05).结论 复合TCI异丙酚(效应室靶浓度为3μg/L)时,瑞芬太尼抑制纤维支气管镜检查患者气道反应的EC50为4.10μg/L.BIS不适宜作为反映异丙酚复合瑞芬太尼麻醉深度的指标.     

右美托咪啶对瑞芬太尼抑制切皮时患者体动反应半数有效效应室靶浓度的影响

目的 评价右美托咪啶对瑞芬太尼抑制切皮时患者体动反应半数有效效应室靶浓度(EC50)的影响.方法 择期拟行乳房肿瘤切除术患者40例,年龄20～50岁,体重45～58 kg,ASA分级Ⅰ或Ⅱ级,采用随机数字表法,将其随机分为瑞芬太尼组(R组)和右美托咪啶复合瑞芬太尼组(RD组),每组20例.R组和RD组切皮前分别静脉输注生理盐水和右美托咪啶1.0μg/kg,输注时间10min,同时靶控输注异丙酚,血浆靶浓度设为3.0 mg/L,13 min后开始靶控输注瑞芬太尼.采用序贯法进行试验,RD组和R组初始效应室靶浓度分别为2.5和3.0μg/L,待两药浓度均达靶浓度后切开皮肤3 cm,有体动反应,则下一例采用高一级浓度,无体动反应,则下一例患者采用低一级浓度,相邻浓度比值为1.2,发生体动反应的标准为患者出现躯干、四肢或头颈可见的运动.计算瑞芬太尼抑制患者体动反应的EC50及其95％可信区间.结果 RD组瑞芬太尼抑制切皮时体动反应的EC50为1.7 μg/L,95％可信区间为1.5～1.9 μg/L,R组瑞芬太尼抑制切皮时体动反应的EC50为2.5 μg/L,95％可信区间为2.2～2.7 μg/L,差异有统计学意义(P＜0.01).结论 靶控输注异丙酚(血浆靶浓度3.0 mg/L)下,静脉输注右美托咪啶1.0μg/kg可降低瑞芬太尼抑制切皮时患者体动反应的EC50.     

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

目的 探讨靶控输注(TCI)瑞芬太尼和异丙酚麻醉诱导时镇静催眠效应的相互作用.方法 择期全麻手术患者32例,ASAⅠ或Ⅱ级,年龄22～63岁,体重指数18～25 kg/m2.采用TCI异丙酚和瑞芬太尼诱导麻醉,随机分为4组(n=8):Ⅰ组单纯TCI异丙酚,Ⅱ组～Ⅳ组TCI瑞芬太尼,血浆靶浓度分别为2、4、6 ng/ml,当瑞芬太尼血浆靶浓度与效应室浓度达平衡时开始TCI异丙酚,异丙酚初始血浆靶浓度均为0.5μg/ml,当异丙酚血浆靶浓度与效应室浓度达平衡时以0.5μg/ml的浓度梯度递增诱导至患者意识消失.每隔3min观察睫毛反射和意识状态,同时抽取桡动脉血样6ml,分别采用反相高效液相色谱法和高效液相色谱-紫外法测定异丙酚和瑞芬太尼血药浓度.采用药效学相互作用模型公式和等辐射法分析两者镇静催眠效应的相互作用.结果 与Ⅰ组比较,Ⅱ组～Ⅳ组睫毛反射消失和意识消失时异丙酚血药浓度降低,而Ⅱ组～Ⅳ组随瑞芬太尼血药浓度升高,异丙酚血药浓度依次降低(P<0.05).睫毛反射消失和意识消失时,异丙酚和瑞芬太尼血药浓度用药效学相互作用模型曲线拟合均优于直线回归(P<0.05).拟合出睫毛反射消失时EC50,prop=2.77μg/ml、EC50,rem=26.67 ng/ml,其等辐射法公式EC prop/2.77+Ecrem/26.67=0.69;意识消失时EC50,prop=3.76μg/ml、EC50,rem=31.56 ng/ml,其等辐射法公式Ecprop/3.76+Ecrem/31.56=0.65.结论 麻醉诱导期间,TCI瑞芬太尼(血浆靶浓度2～6ng/ml)和异丙酚在镇静催眠效应上呈协同作用.     

靶控输注异丙酚时瑞芬太尼抑制患者喉罩置管反应的药效学

目的 探讨TCI异丙酚时瑞芬太尼抑制患者喉罩置管反应的药效学.方法 择期乳腺纤维瘤切除术患者36例,年龄18～59岁,ASA分级Ⅰ或Ⅱ级,BMI＜30 kg/m2.采用序贯法进行试验,TCI异丙酚,Ce为4.0μg/ml,待患者意识消失后,TCI瑞芬太尼,初始Ce 2.9 ng/ml,待Ce与血浆浓度达平衡后3 min置入喉罩,相邻Ce之比为1.2.喉罩置入成功的标准为:Muzi评分≤2分且喉罩置入后3 min内MAP和HR升高不超过基础值水平的15%.结果 瑞芬太尼抑制喉罩置管反应的EC50为2.75ng/ml,95%可信区间为2.51～3.01 ng/ml.结论 TCI异丙酚Ce为4.0μg/ml时瑞芬太尼抑制患者喉罩置管反应的EC50为2.75 ng/ml.     

复合靶控输注异丙酚时瑞芬太尼抑制重症肌无力患者气管插管反应的药效学

目的 探讨复合靶控输注异丙酚时瑞芬太尼抑制重症肌无力患者气管插管反应的药效学.方法 拟行经胸骨正中劈开胸腺切除术的重症肌无力患者45例,ASA Ⅰ或Ⅱ级,TCI异丙酚和瑞芬太尼进行麻醉诱导,异丙酚血浆靶浓度为4 μg/ml,瑞芬太尼初始效应室靶浓度(Ce)为1.8 ng/ml,依次按2.7、4.0、6.0 ng/ml梯度递增,至患者可耐受喉麻管置入声门下进行气管内表麻后,进行气管插管.采用概率单位回归分析法分别计算瑞芬太尼抑制气管插管反应的Ce50和Ce95.结果 瑞芬太尼抑制气管插管反应的Ce50为2.2 ng/ml,其95%可信区间为2.0～2.3 ng/ml;抑制气管插管反应的Ce95为3.0 ng/ml,其95%可信区间为2.8～3.5 ng/ml.结论 复合靶控输注异丙酚(血浆靶浓度为4 μg/ml)时,瑞芬太尼抑制重症肌无力患者气管插管反应的Ce50和Ce95分别为2.2、3.0 ng/ml.