脓毒症并发急性呼吸窘迫综合征的治疗策略

doi:10.3969/j.issn.1002-1949.2017.10.003

Chinese Journal of Critical Care Medicine

2017, Vol. 37

Issue (10): 883-888 DOI: 10.3969/j.issn.1002-1949.2017.10.003

Treatment strategy of sepsis complicated with acute respiratory distress syndrome

Zhang Meng-li, Li Wen-qiang

Department of Emergency, Renmin Hospital of Wuhan University, Wuhan 430060, China

Abstract
Figure/Table
References (28)
Related Citation (15)

Download: PDF (4645 KB) HTML (1 KB)
Export: BibTeX | EndNote (RIS)

Abstract Sepsis has a high incidence and mortality, according to statistics.Every day about 15000 patients died of the disease and its complicationsaround the world. The lungs are one of the most vulnerable organs, and data show that more than 40% of sepsis patients with acute lung injury/acute respiratory distress syndrome(ALI/ARDS), the mortality rate of up to 30%～40%. Once combined with ALI/ARDS, sepsis can aggravate the evolution of the disease, and increase the risk of multiple organ failure and death. Therefore, it is particularly important to explore the mechanism of sepsis ARDS and to actively seek its treatment strategy. The treatment mainly includes anti-inflammatory, anticoagulant, vasoactive drugs, liquid management, stem cell therapy, respiratory support, in vitro membrane lung and other strategies. In this paper, the recent treatment of sepsis complicated with ARDS related strategies to further clarify the pathogenesis of sepsis ARDS and pathophysiology, to find new therapeutic targets and direction.

Received: 16 May 2017

Corresponding Authors: Li Wen-qiang, E-mail: 13971583642@139.com

	Service

	E-mail this article
	Add to my bookshelf
	Add to citation manager
	E-mail Alert
	RSS
	Articles by authors
	Zhang Meng-li
	Li Wen-qiang

Cite this article:

Zhang Meng-li,Li Wen-qiang. Treatment strategy of sepsis complicated with acute respiratory distress syndrome[J]. Chinese Journal of Critical Care Medicine, 2017, 37(10): 883-888.

URL:

http://www.cnemergency.org.cn/EN/10.3969/j.issn.1002-1949.2017.10.003 OR http://www.cnemergency.org.cn/EN/Y2017/V37/I10/883

［1］Khan MM, Yang WL, Wang P. Endoplasmic reticulum stress in sepsis［J］. Shock, 2015, 44(4):294-304. ［2］Mikkelsen ME,Shah CV,Meyer NJ,et al.The epidemiology of acute respiratory distress syndrome in patients presenting to the emergency department with severe sepsis［J］.Shock, 2013, 40(5):375-381. ［3］Paden ML, Rycus PT, Thiagarajan RR. Update and outcomes in extracorporeal life support［J］. Semin Perinatol, 2014, 38(2):65-70. ［4］Marhong JD, Munshi L, Detsky M, et al. Mechanical ventilation during extracorporeal life support(ECLS): a systematic review［J］. Intensive Care Med, 2015, 41(6):994-1003. ［5］Schmidt M, Stewart C, Bailey M, et al. Mechanical ventilation management during extracorporeal membrane oxygenation for acute respiratory distress syndrome: a retrospective international multicenter study［J］.Crit Care Med, 2015, 43(3):654-664. ［6］Guttendorf J, Boujoukos AJ, Ren D, et al. Discharge outcome in adults treated with extracorporeal membrane oxygenation［J］. Am J Crit Care, 2014, 23(5): 365-377. ［7］Sud S, Sud M, Friedrich JO, et al. High frequency oscillation in patients with acute lung injury and acute respiratory distress syndrome(ARDS): systematic review and meta-analysis［J］. BMJ, 2010, 340:C2327. ［8］Chen M, Lu J, Chen Q, et al.Statin in the treatment of ALI/ARDS: a systematic review and Meta-analysis based on international databases［J］.Zhonghua Wei Zhong Bing Ji Jiu Yi Xue, 2017, 29(1):51-56. ［9］Morel J, Hargreaves I, Brealey D, et al.Simvastatin pre-treatment improves survival and mitochondrial function in a 3-day fluid-resuscitated rat model of sepsis［J］.Clin Sci(Lond), 2017, 131(8):747-758. ［10］Choudhury S, Kandasamy K, Maruti BS, et al. Atorvastatin along with imipenem attenuates acute lung injury in sepsis through decrease in inflammatory mediators and bacterial load［J］. Eur J Pharmacol, 2015, 765:447-456. ［11］Kozan A, Kilic N, Alacam H, et al. The Effects of Dexamethasone and L-NAME on Acute Lung Injury in Rats with Lung Contusion［J］. Inflammation, 2016, 39(5):1747-1756. ［12］Chen X, Walther FJ, Sengers RM, et al. Metformin attenuates hyperoxia-induced lung injury in neonatal rats by reducing the inflammatory response［J］. Am J Physiol Lung Cell Mol Physiol, 2015, 309(3):L262-270. ［13］Wang G, Song Y, Feng W, et al. Activation of AMPK attenuates LPS-induced acute lung injury by upregulation of PGC1α and SOD1 ［J］. Exp Ther Med, 2016, 12(3):1551-1555. ［14］Xu X, Liu N, Zhang YX, et al. The Protective Effects of HJB-1, a Derivative of 17-Hydroxy-Jolkinolide B, on LPS-Induced Acute Distress Respiratory Syndrome Mice［J］. Molecules, 2016, 21(1):77. ［15］Takaoka Y, Goto S, Nakano T, et al. Glyceraldehyde-3-phosphate dehydrogenase(GAPDH)prevents lipopolysaccharide(LPS)-induced, sepsis-related severe acute lung injury in mice［J］. Sci Rep, 2014, 4:5204. ［16］Matsuishi Y, Jesmin S, Kawano S, et al. Landiolol hydrochloride ameliorates acute lung injury in a rat model of early sepsis through the suppression of elevated levels of pulmonary endothelin-1［J］. Life Sci, 2016, 166:27-33. ［17］Cao TH, Jin SG, Fei DS, et al. Artesunate Protects Against Sepsis-Induced Lung Injury Via Heme Oxygenase-1 Modulation［J］. Inflammation, 2016, 39(2):651-662. ［18］Zhao H, Zhao M, Wang Y, et al. Glycyrrhizic Acid Prevents Sepsis-Induced Acute Lung Injury and Mortality in Rats ［J］. J Histochem Cytochem, 2016, 64(2):125-137. ［19］Matthay MA. Therapeutic potential of mesenchymal stromal cells for acute respiratory distress syndrome ［J］. Ann Am Thorac Soc, 2015, 12(Suppl 1):S54-57. ［20］Ho MS, Mei SH, Stewart DJ.The Immunomodulatory and Therapeutic Effects of Mesenchymal Stromal Cells for Acute Lung Injury and Sepsis［J］.J Cell Physiol, 2015, 230(11):2606-2617.  ［21］Xin X, Yan L, Guangfa Z, et al.Mesenchymal Stem Cells Promoted Lung Wound Repair through Hox A9 during Endotoxemia-Induced Acute Lung Injury［J］.Stem Cells Int， 2017， 2017:3 648 020.  ［22］Yu SL, Lee DC, Sohn HA, et al. Homeobox A9 directly targeted by miR-196b regulates aggressiveness through nuclear Factor-kappa B activity in non-small cell lung cancer cells［J］. Mol Carcinog， 2016， 55(12):1915-1926. ［23］Chen J, Shao Y, Xu G, et al. Bone marrow-derived mesenchymal stem cells attenuate phosgene-induced acute lung injury in rats［J］. Inhal Toxicol, 2015, 27(5):254-261. ［24］Li B, Zhang H, Zeng M, et al. Bone marrow mesenchymal stem cells protect alveolar macrophages from lipopolysaccharide-induced apoptosis partially by inhibiting the Wnt/β-catenin pathway［J］. Cell Biol Int, 2014, 39(2):192-200. ［25］Li L, Jin S, Zhang Y. Ischemic preconditioning potentiates the protective effect of mesenchymal stem cells on endotoxin-induced acute lung injury in mice through secretion of exosome ［J］.Int J Clin Exp Med, 2015, 8(3):3825-3832. ［26］Li C, Bo L, Liu W, et al. Enteral Immunomodulatory Diet(Omega-3 Fatty Acid, γ-Linolenic Acid and Antioxidant Supplementation)for Acute Lung Injury and Acute Respiratory Distress Syndrome: An Updated Systematic Review and Meta-Analysis［J］. Nutrients, 2015, 7(7):5572-5585. ［27］Wu BG, Peng TC, Tsai PS, et al. High-lipid enteral nutrition could partially mitigate inflammation but not lung injury in hemorrhagic shock rats ［J］. J Surg Res, 2013, 184(2):997-1005. ［28］Li X, Zhang X, Yang E, et al. Fish oil–supplemented parenteral nutrition could alleviate acute lung injury, modulate immunity, and reduce inflammation in rats with abdominal sepsis［J］. Nutr Res, 2015, 35(9):784-791.