脉搏灌注指数变异在容量治疗中的研究进展_West China Medical Journal

Authors：

 李林佶 ^1,2 ,  魏新川 ¹

1. ;
2. ;

Corresponding author：

魏新川, Email: weixinchuan@163.com

Keywords：

脉搏灌注指数变异; 容量治疗; 血流动力学

DOI：

10.7507/1002-0179.20150226

Video：

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脉搏灌注指数变异是新一代脉氧饱和度监测仪上集成的参数。它在预测患者的扩容反应性上敏感性好，特异性高，并且能够无创、自动、连续地在床旁对患者进行监测，临床应用前景巨大。现就脉搏灌注指数变异的研究背景、基本原理和测量方法、临床应用研究进展、局限性等方面作一综述。

Citation： 李林佶, 魏新川. 脉搏灌注指数变异在容量治疗中的研究进展. West China Medical Journal, 2015, 30(4): 793-796. doi: 10.7507/1002-0179.20150226 Copy

1.	Rivers E, Nguyen B, Havstad S, et al. Early goal-directed therapy in the treatment of severe sepsis and septic shock[J]. N Engl J Med, 2001, 345(19):1368-1377.
2.	Giglio MT, Marucci M, Testini M, et al. Goal-directed haemodynamic therapy and gastrointestinal complications in major surgery:a meta-analysis of randomized controlled trials[J]. Br J Anaesth, 2009, 103(5):637-646.
3.	Dalfino L, Giglio MT, Puntillo F, et al. Haemodynamic goal-directed therapy and postoperative infections:earlier is better. A systematic review and meta-analysis[J]. Crit Care, 2011, 15(3):R154.
4.	Gan TJ, Soppitt A, Maroof M, et al. Goal-directed intraoperative fluid administration reduces length of hospital stay after major surgery[J]. Anesthesiology, 2002, 97(4):820-826.
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7.	Marik PE, Baram M, Vahid B. Does central venous pressure predict fluid responsiveness? A systematic review of the literature and the tale of seven mares[J]. Chest, 2008, 134(1):172-178.
8.	Marik PE, Cavallazzi R, Vasu T, et al. Dynamic changes in arterial waveform derived variables and fluid responsiveness in mechanically ventilated patients:a systematic review of the literature[J]. Crit Care Med, 2009, 37(9):2642-2647.
9.	Connors AF, Speroff T, Dawson NV, et al. The effectiveness of right heart catheterization in the initial care of critically ill patients. SUPPORT Investigators[J]. JAMA, 1996, 276(11):889-897.
10.	Vallée F, Fourcade O, De Soyres O, et al. Stroke output variations calculated by esophageal Doppler is a reliable predictor of fluid response[J]. Intensive Care Med, 2005, 31(10):1388-1393.
11.	Bendjelid K, Romand JA. Fluid responsiveness in mechanically ventilated patients:a review of indices used in intensive care[J]. Intensive Care Med, 2003, 29(3):352-360.
12.	Cannesson M, Attof Y, Rosamel P, et al. Respiratory variations in pulse oximetry plethysmographic waveform amplitude to predict fluid responsiveness in the operating room[J]. Anesthesiology, 2007, 106(6):1105-1111.
13.	Cannesson M, Desebbe O, Rosamel P, et al. Pleth variability index to monitor the respiratory variations in the pulse oximeter plethysmographic waveform amplitude and predict fluid responsiveness in the operating theatre[J]. Br J Anaesth, 2008, 101(2):200-206.
14.	Cannesson M, Aboy M, Hofer CK, et al. Pulse pressure variation:where are we Today?[J]. J Clin Monit Comput, 2011, 25(1):45-56.
15.	Desgranges FP, Desebbe O, Ghazouani A, et al. Influence of the site of measurement on the ability of plethysmographic variability index to predict fluid responsiveness[J]. Br J Anaesth, 2011, 107(3):329-335.
16.	蔡勤芳, 米卫东, 袁维秀. 脉搏灌注指数变异监测机体容量状况的临床研究[J]. 中华外科杂志, 2010, 48(21):1628-1632.
17.	Hood JA, Wilson RJ. Pleth variability index to predict fluid responsiveness in colorectal surgery[J]. Anesth Analg, 2011, 113(5):1058-1063.
18.	Haas S, Trepte C, Hinteregger M, et al. Prediction of volume responsiveness using pleth variability index in patients undergoing cardiac surgery after cardiopulmonary bypass[J]. J Anesth, 2012, 26(5):696-701.
19.	Vos JJ, Kalmar AF, Struys MM, et al. Comparison of arterial pressure and plethysmographic waveform-based dynamic preload variables in assessing fluid responsiveness and dynamic arterial tone in patients undergoing major hepatic resection[J]. Br J Anaesth, 2013, 110(6):940-946.
20.	Brandt S, Regueira T, Bracht H, et al. Effect of fluid resuscitation on mortality and organ function in experimental sepsis models[J]. Crit Care, 2009, 13(6):R186.
21.	Loupec T, Nanadoumgar H, Frasca DA, et al. Pleth variability index predicts fluid responsiveness in critically ill patients[J]. Crit Care Med, 2011, 39(2):294-299.
22.	Monnet X, Guérin L, Jozwiak M, et al. Pleth variability index is a weak predictor of fluid responsiveness in patients receiving norepinephrine[J]. Br J Anaesth, 2013, 110(2):207-213.
23.	Renner J, Broch O, Gruenewald M, et al. Non-invasive prediction of fluid responsiveness in infants using pleth variability index[J]. Anaesthesia, 2011, 66(7):582-589.
24.	Byon HJ, Lim CW, Lee JH, et al. Prediction of fluid responsiveness in mechanically ventilated children undergoing neurosurgery[J]. Br J Anaesth, 2013, 110(4):586-591.
25.	Forget P, Lois F, De Kock M. Goal-directed fluid management based on the pulse oximeter-derived pleth variability index reduces lactate levels and improves fluid management[J]. Anesth Analg, 2010, 111(4):910-914.
26.	Valenza F, Aletti G, Fossali T, et al. Lactate as a marker of energy failure in critically ill patients:hypothesis[J]. Crit Care, 2005, 9(6):588-593.
27.	Desebbe O, Boucau C, Farhat F, et al. The ability of pleth variability index to predict the hemodynamic effects of positive End-Expiratory pressure in mechanically ventilated patients under general anesthesia[J]. Anesth Analg, 2010, 110(3):792-798.
28.	Charron C, Fessenmeyer C, Cosson C, et al. The influence of tidal volume on the dynamic variables of fluid responsiveness in critically ill patients[J]. Anesth Analg, 2006, 102(5):1511-1517.

1. Rivers E, Nguyen B, Havstad S, et al. Early goal-directed therapy in the treatment of severe sepsis and septic shock[J]. N Engl J Med, 2001, 345(19):1368-1377.
2. Giglio MT, Marucci M, Testini M, et al. Goal-directed haemodynamic therapy and gastrointestinal complications in major surgery:a meta-analysis of randomized controlled trials[J]. Br J Anaesth, 2009, 103(5):637-646.
3. Dalfino L, Giglio MT, Puntillo F, et al. Haemodynamic goal-directed therapy and postoperative infections:earlier is better. A systematic review and meta-analysis[J]. Crit Care, 2011, 15(3):R154.
4. Gan TJ, Soppitt A, Maroof M, et al. Goal-directed intraoperative fluid administration reduces length of hospital stay after major surgery[J]. Anesthesiology, 2002, 97(4):820-826.
5. Conway DH, Mayall R, Abdul-Latif MS, et al. Randomised controlled trial investigating the influence of intravenous fluid titration using oesophageal Doppler monitoring during bowel surgery[J]. Anaesthesia, 2002, 57(9):845-849.
6. 米卫东. 脉搏灌注指数变异在容量监测中的应用[C]//中华医学会全国麻醉学术年会论文汇编. 北京:中华医学会麻醉学分会, 2010:25-29.
7. Marik PE, Baram M, Vahid B. Does central venous pressure predict fluid responsiveness? A systematic review of the literature and the tale of seven mares[J]. Chest, 2008, 134(1):172-178.
8. Marik PE, Cavallazzi R, Vasu T, et al. Dynamic changes in arterial waveform derived variables and fluid responsiveness in mechanically ventilated patients:a systematic review of the literature[J]. Crit Care Med, 2009, 37(9):2642-2647.
9. Connors AF, Speroff T, Dawson NV, et al. The effectiveness of right heart catheterization in the initial care of critically ill patients. SUPPORT Investigators[J]. JAMA, 1996, 276(11):889-897.
10. Vallée F, Fourcade O, De Soyres O, et al. Stroke output variations calculated by esophageal Doppler is a reliable predictor of fluid response[J]. Intensive Care Med, 2005, 31(10):1388-1393.
11. Bendjelid K, Romand JA. Fluid responsiveness in mechanically ventilated patients:a review of indices used in intensive care[J]. Intensive Care Med, 2003, 29(3):352-360.
12. Cannesson M, Attof Y, Rosamel P, et al. Respiratory variations in pulse oximetry plethysmographic waveform amplitude to predict fluid responsiveness in the operating room[J]. Anesthesiology, 2007, 106(6):1105-1111.
13. Cannesson M, Desebbe O, Rosamel P, et al. Pleth variability index to monitor the respiratory variations in the pulse oximeter plethysmographic waveform amplitude and predict fluid responsiveness in the operating theatre[J]. Br J Anaesth, 2008, 101(2):200-206.
14. Cannesson M, Aboy M, Hofer CK, et al. Pulse pressure variation:where are we Today?[J]. J Clin Monit Comput, 2011, 25(1):45-56.
15. Desgranges FP, Desebbe O, Ghazouani A, et al. Influence of the site of measurement on the ability of plethysmographic variability index to predict fluid responsiveness[J]. Br J Anaesth, 2011, 107(3):329-335.
16. 蔡勤芳, 米卫东, 袁维秀. 脉搏灌注指数变异监测机体容量状况的临床研究[J]. 中华外科杂志, 2010, 48(21):1628-1632.
17. Hood JA, Wilson RJ. Pleth variability index to predict fluid responsiveness in colorectal surgery[J]. Anesth Analg, 2011, 113(5):1058-1063.
18. Haas S, Trepte C, Hinteregger M, et al. Prediction of volume responsiveness using pleth variability index in patients undergoing cardiac surgery after cardiopulmonary bypass[J]. J Anesth, 2012, 26(5):696-701.
19. Vos JJ, Kalmar AF, Struys MM, et al. Comparison of arterial pressure and plethysmographic waveform-based dynamic preload variables in assessing fluid responsiveness and dynamic arterial tone in patients undergoing major hepatic resection[J]. Br J Anaesth, 2013, 110(6):940-946.
20. Brandt S, Regueira T, Bracht H, et al. Effect of fluid resuscitation on mortality and organ function in experimental sepsis models[J]. Crit Care, 2009, 13(6):R186.
21. Loupec T, Nanadoumgar H, Frasca DA, et al. Pleth variability index predicts fluid responsiveness in critically ill patients[J]. Crit Care Med, 2011, 39(2):294-299.
22. Monnet X, Guérin L, Jozwiak M, et al. Pleth variability index is a weak predictor of fluid responsiveness in patients receiving norepinephrine[J]. Br J Anaesth, 2013, 110(2):207-213.
23. Renner J, Broch O, Gruenewald M, et al. Non-invasive prediction of fluid responsiveness in infants using pleth variability index[J]. Anaesthesia, 2011, 66(7):582-589.
24. Byon HJ, Lim CW, Lee JH, et al. Prediction of fluid responsiveness in mechanically ventilated children undergoing neurosurgery[J]. Br J Anaesth, 2013, 110(4):586-591.
25. Forget P, Lois F, De Kock M. Goal-directed fluid management based on the pulse oximeter-derived pleth variability index reduces lactate levels and improves fluid management[J]. Anesth Analg, 2010, 111(4):910-914.
26. Valenza F, Aletti G, Fossali T, et al. Lactate as a marker of energy failure in critically ill patients:hypothesis[J]. Crit Care, 2005, 9(6):588-593.
27. Desebbe O, Boucau C, Farhat F, et al. The ability of pleth variability index to predict the hemodynamic effects of positive End-Expiratory pressure in mechanically ventilated patients under general anesthesia[J]. Anesth Analg, 2010, 110(3):792-798.
28. Charron C, Fessenmeyer C, Cosson C, et al. The influence of tidal volume on the dynamic variables of fluid responsiveness in critically ill patients[J]. Anesth Analg, 2006, 102(5):1511-1517.

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脉搏灌注指数变异在容量治疗中的研究进展

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