中华麻醉学杂志
中華痳醉學雜誌
중화마취학잡지
CHINESE JOURNAL OF ANESTHESIOLOGY
2010年
9期
1133-1135
,共3页
王翔锋%冯艺%杨拔贤%易伟宁
王翔鋒%馮藝%楊拔賢%易偉寧
왕상봉%풍예%양발현%역위저
每搏输出量%血管容量%呼吸,人工
每搏輸齣量%血管容量%呼吸,人工
매박수출량%혈관용량%호흡,인공
Stroke volume%Vascular capacitance%Respiration,artifical
目的 评价每搏变异度(SVV)监测胸腔镜手术患者单肺通气时血容量变化的准确性.方法 择期行胸腔镜手术患者22例,性别不限,年龄18~60岁,体重51~77 kg,ASA分级Ⅰ或Ⅱ级.麻醉诱导后置入双腔支气管导管,行双肺机械通气,进胸前改为单肺通气,通气参数:潮气量8 ml/kg,通气频率10~14次/min,吸呼比1∶2,氧浓度100%,PEEP 0,维持PETCO2 35~40 mm Hg.分别于双肺通气5 min和单肺通气30 min时进行容量负荷试验,于10 min内静脉输注6%羟乙基淀粉(HES)5 ml/kg.于双肺通气时输注HES前即刻和输注HES结束后3 min(T1.2)、单肺通气时输注HES前即刻和输注HES结束后3 min(T3.4)时,记录MAP、HR、CO、和SVV,计算CI及SVV和CI的变化率(△SVV和CI).△CI≥11%为扩容有效,绘制SVV判断血容量变化的ROC曲线,计算曲线下面积(AUC)及其95%可信区间(95%CI).结果 与输注HES前即刻比较,输注HES结束后CO升高,SVV降低(P<0.05).双肺通气时△SVV与△CI呈负相关,相关系数为-0.710(P<0.05).ROC曲线分析结果示:SVV监测血容量变化的阈值为11.5%,灵敏度为82%,特异度为92%,AUC为0.880(95%CI 0.580~0.987).单肺通气时△SVV与△CI呈负相关,相关系数为-0.668(P<0.05).ROC曲线分析结果示:SVV监测血容量变化的阈值为9.5%,灵敏度为77%,特异度为63%,AUC为0.971(95%CI 0.917~1.024).结论 单肺通气并不会影响SVV监测胸腔镜手术患者血容量变化的准确性.
目的 評價每搏變異度(SVV)鑑測胸腔鏡手術患者單肺通氣時血容量變化的準確性.方法 擇期行胸腔鏡手術患者22例,性彆不限,年齡18~60歲,體重51~77 kg,ASA分級Ⅰ或Ⅱ級.痳醉誘導後置入雙腔支氣管導管,行雙肺機械通氣,進胸前改為單肺通氣,通氣參數:潮氣量8 ml/kg,通氣頻率10~14次/min,吸呼比1∶2,氧濃度100%,PEEP 0,維持PETCO2 35~40 mm Hg.分彆于雙肺通氣5 min和單肺通氣30 min時進行容量負荷試驗,于10 min內靜脈輸註6%羥乙基澱粉(HES)5 ml/kg.于雙肺通氣時輸註HES前即刻和輸註HES結束後3 min(T1.2)、單肺通氣時輸註HES前即刻和輸註HES結束後3 min(T3.4)時,記錄MAP、HR、CO、和SVV,計算CI及SVV和CI的變化率(△SVV和CI).△CI≥11%為擴容有效,繪製SVV判斷血容量變化的ROC麯線,計算麯線下麵積(AUC)及其95%可信區間(95%CI).結果 與輸註HES前即刻比較,輸註HES結束後CO升高,SVV降低(P<0.05).雙肺通氣時△SVV與△CI呈負相關,相關繫數為-0.710(P<0.05).ROC麯線分析結果示:SVV鑑測血容量變化的閾值為11.5%,靈敏度為82%,特異度為92%,AUC為0.880(95%CI 0.580~0.987).單肺通氣時△SVV與△CI呈負相關,相關繫數為-0.668(P<0.05).ROC麯線分析結果示:SVV鑑測血容量變化的閾值為9.5%,靈敏度為77%,特異度為63%,AUC為0.971(95%CI 0.917~1.024).結論 單肺通氣併不會影響SVV鑑測胸腔鏡手術患者血容量變化的準確性.
목적 평개매박변이도(SVV)감측흉강경수술환자단폐통기시혈용량변화적준학성.방법 택기행흉강경수술환자22례,성별불한,년령18~60세,체중51~77 kg,ASA분급Ⅰ혹Ⅱ급.마취유도후치입쌍강지기관도관,행쌍폐궤계통기,진흉전개위단폐통기,통기삼수:조기량8 ml/kg,통기빈솔10~14차/min,흡호비1∶2,양농도100%,PEEP 0,유지PETCO2 35~40 mm Hg.분별우쌍폐통기5 min화단폐통기30 min시진행용량부하시험,우10 min내정맥수주6%간을기정분(HES)5 ml/kg.우쌍폐통기시수주HES전즉각화수주HES결속후3 min(T1.2)、단폐통기시수주HES전즉각화수주HES결속후3 min(T3.4)시,기록MAP、HR、CO、화SVV,계산CI급SVV화CI적변화솔(△SVV화CI).△CI≥11%위확용유효,회제SVV판단혈용량변화적ROC곡선,계산곡선하면적(AUC)급기95%가신구간(95%CI).결과 여수주HES전즉각비교,수주HES결속후CO승고,SVV강저(P<0.05).쌍폐통기시△SVV여△CI정부상관,상관계수위-0.710(P<0.05).ROC곡선분석결과시:SVV감측혈용량변화적역치위11.5%,령민도위82%,특이도위92%,AUC위0.880(95%CI 0.580~0.987).단폐통기시△SVV여△CI정부상관,상관계수위-0.668(P<0.05).ROC곡선분석결과시:SVV감측혈용량변화적역치위9.5%,령민도위77%,특이도위63%,AUC위0.971(95%CI 0.917~1.024).결론 단폐통기병불회영향SVV감측흉강경수술환자혈용량변화적준학성.
Objective To evaluate the accuracy of stroke volume variation (SVV) in monitoring blood volume during one-lung ventilation in patients undergoing thoracoscopy operation. Methods Twenty-two ASA Ⅰ or Ⅱ patients ( 12 male, 10 female) aged 18-60 yr undergoing thoracoscopy operation under general anesthesia were studied. Anesthesia was induced with midazolam, sufentanil, propofol and rocuronium and maintained with TCI of propofol and remifentanil and intermittent iv boluses of vecoronium. Robertshow double-lumen endobronchial tube was inserted. Correct position of the tube was verified by fiberoptic bronchoscopy. The patients were mechani40 mm Hg. Radial artery was cannulated and connected to FloTrac pressure transducer and Vigileo monitor. A loading dose of 6% HES 5 ml/kg was infused over 10 min. MAP, HR, CO and SVV were recorded before and at 3 min after loading dose. The change rate of SVV (SVV) and CI (△CI) were calculated. Increase in CI by 11% was considered effective volume expansion. The ROC curve for SVV in determining the volume expansion efficacy was plotted. The area under the curve for SVV and 95% confidence interval were calculated. Results (1) CO were significantly increased while SVV decreased after a loading dose of HES. (2) During two-lung ventilation 12 patients responded to the 6% HES loading dose.SVV correlated with△CI ( - 0.710, P < 0.05). The volume expansion efficacy was determined by SVV 11.5 % (sensitivity = 82 %, specificity = 92 % ). The area under the curve for SVV and 95% confidance interval were 0.880 (0.580-0.987). (3) During one-lung ventilation 11 patients responded to the 6 % HES loading dose. SVV correlated with CI ( - 0.668 , P < 0.05). The volume expansion efficacy was determined by SVV 9.5 % ( sensitivity = 77 %, specificity = 63 % ). The area under the curve for SVV and 95% confidance interval were 0.971 (0.917-1.024). Conclusion One-lung ventilation does not alter the ability of SVV in monitoring blood volume in patients undergoing thoracoscopy operation.
