[1]ÍõÃÎÈð ×ÛÊö Áõ³© º«ÓÀÕý**¹ùÏòÑôÉóУ.¸¹Ç»¾µÊÖÊõ¸öÌ廯·Î±£»¤Í¨Æø²ßÂÔµÄÑо¿½øÕ¹[J].Öйú΢´´Íâ¿ÆÔÓÖ¾,2024,01(7):498-503.

µã»÷¸´ÖÆ

¸¹Ç»¾µÊÖÊõ¸öÌ廯·Î±£»¤Í¨Æø²ßÂÔµÄÑо¿½øÕ¹()

·ÖÏíµ½£º

²Î¿¼ÎÄÏ×/References:

[1]Holmer H, Bekele A, Hagander L, et al. Evaluating the collection, comparability and findings of six global surgery indicators. Br J Surg,2019,106(2):e138-e150.
[2]Young CC, Harris EM, Vacchiano C, et al. Lungª²protective ventilation for the surgical patient: international expert panelª²based consensus recommendations. Br J Anaesth,2019,123(6):898-913.
[3]Li XF, Jin L, Yang JM, et al. Effect of ventilation mode on postoperative pulmonary complications following lung resection surgery: a randomised controlled trial. Anaesthesia,2022,77(11):1219-1227.
[4]Tharp WG, Murphy S, Breidenstein MW, et al. Body habitus and dynamic surgical conditions independently impair pulmonary mechanics during roboticª²assisted laparoscopic surgery. Anesthesiology,2020,133(4):750-763.
[5]Katira BH. Ventilatorª²induced lung injury: classic and novel concepts. Respir Care,2019,64(6):629-637.
[6]Mazzinari G, Serpa Neto A, Hemmes SNT, et al. The association of intraoperative driving pressure with postoperative pulmonary complications in open versus closed abdominal surgery patientsª²a posthoc propensity scoreª²weighted cohort analysis of the LAS VEGAS study. BMC Anesthesiol,2021,21(1):84.
[7]Kim YJ, Kim BR, Kim HW, et al. Effect of driving pressureª²guided positive endª²expiratory pressure on postoperative pulmonary complications in patients undergoing laparoscopic or robotic surgery: a randomised controlled trial. Br J Anaesth,2023,131(5):955-965.
[8]Fogagnolo A, Montanaro F, Alª²Husinat L, et al. Management of intraoperative mechanical ventilation to prevent postoperative complications after general anesthesia: a narrative review. J Clin Med,2021,10(12):2656.
[9]Rustagi PS, Yadav A, Nellore SS. Ultrasonographic evaluation of diaphragmatic excursion changes after major laparoscopic surgeries in the Trendelenburg position under general anaesthesia: a prospective observational study. Indian J Anaesth,2023,67(Suppl 4):S274-S280.
[10]Karalapillai D, Weinberg L, Peyton P, et al. Effect of intraoperative low tidal volume vs conventional tidal volume on postoperative pulmonary complications in patients undergoing major surgery: a randomized clinical trial. JAMA,2020,324(9):848-858.
[11]Yang D, Grant MC, Stone A, et al. A metaª²analysis of intraoperative ventilation strategies to prevent pulmonary complications: is low tidal volume alone sufficient to protect healthy lungs? Ann Surg,2016,263(5):881-887.
[12]¦Zstberg E, Thorisson A, Enlund M, et al. Positive endª²expiratory pressure and postoperative atelectasis: a randomized controlled trial. Anesthesiology,2019,131(4):809-817.
[13]Deng QW, Tan WC, Zhao BC, et al. Intraoperative ventilation strategies to prevent postoperative pulmonary complications: a network metaª²analysis of randomised controlled trials. Br J Anaesth,2020,124(3):324-335.
[14]Wang Y, Yang Y, Wang DM, et al. Different positive end expiratory pressure and tidal volume controls on lung protection and inflammatory factors during surgical anesthesia. World J Clin Cases,2022,10(33):12146-12155.
[15]Soul¨¦ C, Crognier L, Puel F, et al. Assessment of electrical impedance tomography to set optimal positive endª²expiratory pressure for venoarterial extracorporeal membrane oxygenationª²treated patients. Crit Care Med,2021,49(6):923-933.
[16]De Meyer GRA, Morrison SG, Saldien V, et al. Minimizing lung injury during laparoscopy in headª²down tilt: a physiological cohort study. Anesth Analg,2023,137(4):841-849.
[17]Li P, Kang X, Miao M, et al. Individualized positive endª²expiratory pressure (PEEP) during oneª²lung ventilation for prevention of postoperative pulmonary complications in patients undergoing thoracic surgery: a metaª²analysis. Medicine (Baltimore),2021,100(28):e26638.
[18]Millington SJ, Cardinal P, Brochard L. Setting and titrating positive endª²expiratory pressure. Chest,2022,161(6):1566-1575.
[19]Neto AS, Hemmes SN, Barbas CS, et al. Association between driving pressure and development of postoperative pulmonary complications in patients undergoing mechanical ventilation for general anaesthesia: a metaª²analysis of individual patient data. Lancet Respir Med,2016,4(4):272-280.
[20]Xu Q, Guo X, Liu J, et al. Effects of dynamic individualized PEEP guided by driving pressure in laparoscopic surgery on postoperative atelectasis in elderly patients: a prospective randomized controlled trial. BMC Anesthesiol,2022,22(1):72.
[21]Buonanno P, Marra A, Iacovazzo C, et al. Impact of ventilation strategies on pulmonary and cardiovascular complications in patients undergoing general anaesthesia for elective surgery: a systematic review and metaª²analysis.Br J Anaesth,2023,131(6):1093-1101.
[22]Li X, Liu H, Wang J, et al. Individualized positive endª²expiratory pressure on postoperative atelectasis in patients with obesity: a randomized controlled clinical trial. Anesthesiology,2023,139(3):262-273.
[23]Öܽ¨Î°,Íõ´«¹â,»ÆÑà,µÈ.×î¼ÑºôÎüÄ©Õýѹ·Î±£»¤Í¨Æø²ßÂÔ¶Ô¸¹Ç»¾µÏ½áÖ±³¦°©¸ùÖÎÊõ»¼ÕßÑõºÏ¹¦ÄܵÄÓ°Ïì.ÁÙ´²Âé×íѧÔÓÖ¾,2020,36(6):548-551.
[24]L D, Kumar R, Patel N, et al. Effect of lung complianceª²based optimum pressure versus fixed positive endª²expiratory pressure on lung atelectasis assessed by modified lung ultrasound score in laparoscopic gynecological surgery: a prospective randomized controlled trial. Cureus,2023,15(6):e40278.
[25]Jonkman AH, Ranieri VM, Brochard L. Lung recruitment. Intensive Care Med,2022,48(7):936-938.
[26]Sella N, Pettenuzzo T, Zarantonello F, et al. Electrical impedance tomography: a compass for the safe route to optimal PEEP. Respir Med,2021,187:106555.
[27]Shu B, Zhang Y, Ren Q, et al. Optimal positive endª²expiratory pressure titration of intraoperative mechanical ventilation in different operative positions of female patients under general anesthesia. Heliyon,2023,9(10):e20552.
[28]Jiang L, Deng Y, Xu F, et al. Individualized PEEP guided by EIT in patients undergoing general anesthesia: a systematic review and metaª²analysis. J Clin Anesth,2024,94:111397.
[29]Girrbach F, Petroff D, Schulz S, et al. Individualised positive endª²expiratory pressure guided by electrical impedance tomography for robotª²assisted laparoscopic radical prostatectomy: a prospective, randomised controlled clinical trial. Br J Anaesth,2020,125(3):373-382.
[30]Frerichs I, Sch¢|dler D, Becher T. Setting positive endª²expiratory pressure by using electrical impedance tomography. Curr Opin Crit Care,2024,30(1):43-52.
[31]Ç®Ãô,¸µÔªºÀ,ÁèÔÆÅô,µÈ.ºôÆøÄ©ÕýѹµÝÔö·¨·Î¸´ÕŶÔ×óÐØ΢´´¹Ú×´¶¯ÂöÅÔ·ÒÆÖ²Êõ»¼ÕßѪÁ÷¶¯Á¦Ñ§¼°ºôÎüÁ¦Ñ§µÄÓ°Ïì.Öйú΢´´Íâ¿ÆÔÓÖ¾,2021,21(8):710-715.
[32]Yang Y, Geng Y, Zhang D, et al. Effect of lung recruitment maneuvers on reduction of atelectasis determined by lung ultrasound in patients more than 60 years old undergoing laparoscopic surgery for colorectal carcinoma: a prospective study at a single center. Med Sci Monit,2021,27:e926748.
[33]Yu X, Zhai Z, Zhao Y, et al. Performance of lung ultrasound in detecting periª²operative atelectasis after general anesthesia. Ultrasound Med Biol,2016,42(12):2775-2784.
[34]Liu Y, Wang J, Geng Y, et al. The effect of ultrasoundª²guided lung recruitment maneuvers on atelectasis in lungª²healthy patients undergoing laparoscopic gynecologic surgery: a randomized controlled trial. BMC Anesthesiol,2022,22(1):200.
[35]Wu XZ, Xia HM, Zhang P, et al. Effects of ultrasoundª²guided alveolar recruitment manoeuvres compared with sustained inflation or no recruitment manoeuvres on atelectasis in laparoscopic gynaecological surgery as assessed by ultrasonography: a randomized clinical trial. BMC Anesthesiol,2022,22(1):261.
[36]Gama De Abreu M, Schultz MJ, Serpa Neto A, et al. Openª²lung ventilation strategy during general anesthesia. Anesthesiology,2020,133(5):982-984.
[37]Ferrando C, Carrami¢‹ana A, Pi¢‹eiro P, et al. Individualised, perioperative openª²lung ventilation strategy during oneª²lung ventilation (iPROVEª²OLV): a multicentre, randomised, controlled clinical trial. Lancet Respir Med,2024,12(3):195-206.
[38]Wang J, Zeng J, Zhang C, et al. Optimized ventilation strategy for surgery on patients with obesity from the perspective of lung protection: a network metaª²analysis. Front Immunol,2022,13:1032783.
[39]Àîºê,¹ùæº,Íõ¿­,µÈ.·Î¿ª·ÅͨÆø²ßÂÔ¶Ô¸¹Ç»¾µ½áÖ±³¦°©ÊÖÊõÖÐÑõºÏÕÏ°­µÄÓ°Ïì.ÖлªÎ¸³¦Íâ¿ÆÔÓÖ¾,2020,23(11):1081-1087.
[40]Rackley CR.Monitoring during mechanical ventilation. Respiratory Care,2020,65(6):832-846.
[41]Mojoli F, Pozzi M, Arisi E. Setting positive endª²expiratory pressure: using the pressureª²volume curve. Curr Opin Crit Care,2024,30(1):35-42.
[42]¶­À¼,ÁõÏþ÷,ÀîÕ¼¾ü,µÈ.»ùÓÚѹÁ¦-ÈÝ»ýÇúÏߵĸöÌ廯·Î±£»¤ÐÔͨÆø²ßÂÔÔÚ·ÊÅÖ»¼Õ߸¾¿Æ¸¹Ç»¾µÊÖÊõÖеÄÓ¦ÓÃ.¹ú¼ÊÂé×íѧÓ븴ËÕÔÓÖ¾,2021,42(5):467-470.
[43]Weber J, Gutjahr J, Schmidt J, et al. Effect of individualized PEEP titration guided by intratidal compliance profile analysis on regional ventilation assessed by electrical impedance tomography-a randomized controlled trial. BMC Anesthesiol,2020,20(1):42.
[44]Chiumello D, Arnal JM, Umbrello M, et al. Hysteresis and lung recruitment in acute respiratory distress syndrome patients: a CT scan study. Crit Care Med,2020,48(10):1494-1502.