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SpO2/FiO2 ratio on hospital admission is an indicator of early acute respiratory distress syndrome development among patients at risk.

Festic E, Bansal V, Kor DJ, Gajic O; US Critical Illness and Injury Trials Group: Lung Injury Prevention Study Investigators (USCIITG–LIPS).

J Intensive Care Med. 2015 May;30(4):209-16. doi: 10.1177/0885066613516411. Epub 2013 Dec 20.


Assessment of PaO₂/FiO₂ for stratification of patients with moderate and severe acute respiratory distress syndrome.

Villar J, Blanco J, del Campo R, Andaluz-Ojeda D, Díaz-Domínguez FJ, Muriel A, Córcoles V, Suárez-Sipmann F, Tarancón C, González-Higueras E, López J, Blanch L, Pérez-Méndez L, Fernández RL, Kacmarek RM; Spanish Initiative for Epidemiology, Stratification & Therapies for ARDS (SIESTA) Network.

BMJ Open. 2015 Mar 27;5(3):e006812. doi: 10.1136/bmjopen-2014-006812.


The value of positive end-expiratory pressure and Fio₂ criteria in the definition of the acute respiratory distress syndrome.

Britos M, Smoot E, Liu KD, Thompson BT, Checkley W, Brower RG; National Institutes of Health Acute Respiratory Distress Syndrome Network Investigators.

Crit Care Med. 2011 Sep;39(9):2025-30. doi: 10.1097/CCM.0b013e31821cb774.


Comparison of the SpO2/FIO2 ratio and the PaO2/FIO2 ratio in patients with acute lung injury or ARDS.

Rice TW, Wheeler AP, Bernard GR, Hayden DL, Schoenfeld DA, Ware LB; National Institutes of Health, National Heart, Lung, and Blood Institute ARDS Network.

Chest. 2007 Aug;132(2):410-7. Epub 2007 Jun 15.


A clinical classification of the acute respiratory distress syndrome for predicting outcome and guiding medical therapy*.

Villar J, Fernández RL, Ambrós A, Parra L, Blanco J, Domínguez-Berrot AM, Gutiérrez JM, Blanch L, Añón JM, Martín C, Prieto F, Collado J, Pérez-Méndez L, Kacmarek RM; Acute Lung Injury Epidemiology and Natural history Network.

Crit Care Med. 2015 Feb;43(2):346-53. doi: 10.1097/CCM.0000000000000703.


[The levels of angiopoietin-2 in patients with acute respiratory distress syndrome and its value on prognosis].

Zhong M, Zhang L, Wang F, Peng S, Zhang J, Xuan G.

Zhonghua Wei Zhong Bing Ji Jiu Yi Xue. 2014 Nov;26(11):804-9. doi: 10.3760/cma.j.issn.2095-4352.2014.11.008. Chinese.


Extravascular lung water indexed to predicted body weight is a novel predictor of intensive care unit mortality in patients with acute lung injury.

Craig TR, Duffy MJ, Shyamsundar M, McDowell C, McLaughlin B, Elborn JS, McAuley DF.

Crit Care Med. 2010 Jan;38(1):114-20. doi: 10.1097/CCM.0b013e3181b43050.


FiO2 predicts outcome in infants with respiratory syncytial virus-induced acute respiratory distress syndrome.

Schene KM, van den Berg E, Wösten-van Asperen RM, van Rijn RR, Bos AP, van Woensel JB.

Pediatr Pulmonol. 2014 Nov;49(11):1138-44. doi: 10.1002/ppul.22974. Epub 2013 Dec 17.


Comparison of the pulse oximetric saturation/fraction of inspired oxygen ratio and the PaO2/fraction of inspired oxygen ratio in children.

Khemani RG, Patel NR, Bart RD 3rd, Newth CJL.

Chest. 2009 Mar;135(3):662-668. doi: 10.1378/chest.08-2239. Epub 2008 Nov 24.


The Ratio of Partial Pressure Arterial Oxygen and Fraction of Inspired Oxygen 1 Day After Acute Respiratory Distress Syndrome Onset Can Predict the Outcomes of Involving Patients.

Lai CC, Sung MI, Liu HH, Chen CM, Chiang SR, Liu WL, Chao CM, Ho CH, Weng SF, Hsing SC, Cheng KC.

Medicine (Baltimore). 2016 Apr;95(14):e3333. doi: 10.1097/MD.0000000000003333.


Echocardiography to predict tolerance to negative fluid balance in acute respiratory distress syndrome/acute lung injury.

Allyn J, Allou N, Dib M, Tashk P, Desmard M, Dufour G, Daoud O, Mentec H, Montravers P.

J Crit Care. 2013 Dec;28(6):1006-10. doi: 10.1016/j.jcrc.2013.07.044. Epub 2013 Aug 15.


Predictors of mortality in acute lung injury during the era of lung protective ventilation.

Seeley E, McAuley DF, Eisner M, Miletin M, Matthay MA, Kallet RH.

Thorax. 2008 Nov;63(11):994-8. doi: 10.1136/thx.2007.093658. Epub 2008 Jun 19.


Defining acute lung disease in children with the oxygenation saturation index.

Thomas NJ, Shaffer ML, Willson DF, Shih MC, Curley MA.

Pediatr Crit Care Med. 2010 Jan;11(1):12-7. doi: 10.1097/PCC.0b013e3181b0653d.


Effects of sustained inflation and postinflation positive end-expiratory pressure in acute respiratory distress syndrome: focusing on pulmonary and extrapulmonary forms.

Tugrul S, Akinci O, Ozcan PE, Ince S, Esen F, Telci L, Akpir K, Cakar N.

Crit Care Med. 2003 Mar;31(3):738-44.


Predicting risk of postoperative lung injury in high-risk surgical patients: a multicenter cohort study.

Kor DJ, Lingineni RK, Gajic O, Park PK, Blum JM, Hou PC, Hoth JJ, Anderson HL 3rd, Bajwa EK, Bartz RR, Adesanya A, Festic E, Gong MN, Carter RE, Talmor DS.

Anesthesiology. 2014 May;120(5):1168-81. doi: 10.1097/ALN.0000000000000216.


Markers of poor outcome in patients with acute hypoxemic respiratory failure.

Choi WI, Shehu E, Lim SY, Koh SO, Jeon K, Na S, Lim CM, Lee YJ, Kim SC, Kim IH, Kim JH, Kim JY, Lim J, Rhee CK, Park S, Kim HC, Lee JH, Lee JH, Park J, Koh Y, Suh GY; Korean Study group on Respiratory Failure (KOSREF).

J Crit Care. 2014 Oct;29(5):797-802. doi: 10.1016/j.jcrc.2014.05.017. Epub 2014 Jun 2.


The ratio of Th17/Treg cells as a risk indicator in early acute respiratory distress syndrome.

Yu ZX, Ji MS, Yan J, Cai Y, Liu J, Yang HF, Li Y, Jin ZC, Zheng JX.

Crit Care. 2015 Mar 11;19:82. doi: 10.1186/s13054-015-0811-2.


Outcomes of acute respiratory distress syndrome (ARDS) in elderly patients.

Eachempati SR, Hydo LJ, Shou J, Barie PS.

J Trauma. 2007 Aug;63(2):344-50.


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