Mekontso-Dessap et al.(55 Mekontso-Dessap A, Castelain V, Anguel N, Bahloul M, Schauvliege F, Richard C, et al. Combination of venoarterial PCO2 difference with arteriovenous O2 content difference to detect anaerobic metabolism in patients. Intensive Care Med. 2002;28(3):272-7.) |
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Monnet et al.(66 Monnet X, Julien F, Ait-Hamou N, Lequoy M, Gosset C, Jozwiak M, et al. Lactate and venoarterial carbon dioxide difference/arterial-venous oxygen difference ratio, but not central venous oxygen saturation, predict increase in oxygen consumption in fluid responders. Crit Care Med. 2013;41(6):1412-20.) |
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Mallat et al.(77 Mallat J, Lemyze M, Meddour M, Pepy F, Gasan G, Barrailler S, et al. Ratios of central venous-to-arterial carbon dioxide content or tension to arteriovenous oxygen content are better markers of global anaerobic metabolism than lactate in septic shock patients. Ann Intensive Care. 2016;6(1):10.) |
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Dubin et al.(1212 Dubin A, Pozo MO, Kanoore Edul VS, Risso Vazquez A, Enrico C. Poor agreement in the calculation of venoarterial PCO2 to arteriovenous O2 content difference ratio using central and mixed venous blood samples in septic patients. J Crit Care. 2018;48:445-50.) |
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Abou-Arab et al.(1515 Abou-Arab O, Braik R, Huette P, Bouhemad B, Lorne E, Guinot PG. The ratios of central venous to arterial carbon dioxide content and tension to arteriovenous oxygen content are not associated with overall anaerobic metabolism in postoperative cardiac surgery patients. PLoS One. 2018;13(10):e0205950.) |
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Fischer et al.(1616 Fischer MO, Bonnet V, Lorne E, Lefrant JY, Rebet O, Courteille B, Lemétayer C, Parienti JJ, Gérard JL, Fellahi JL, Hanouz JL; French Hemodynamic Team. Assessment of macro- and micro-oxygenation parameters during fractional fluid infusion: a pilot study. J Crit Care. 2017;40:91-8.) |
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Shaban et al.(1717 Shaban M, Salahuddin N, Kolko MR, Sharshir M, AbuRageila M, AlHussain A. The predictive ability of PV-ACO2 gap and PV-ACO2/CA-VO2 ratio in shock: a prospective, cohort study. Shock. 2017;47(4):395-401.) |
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Valenzuela Espinoza et al.(2525 Valenzuela Espinoza ED, Pozo MO, Kanoore Edul VS, Furche M, Motta MF, Risso Vazquez A, et al. Effects of short-term hyperoxia on systemic hemodynamics, oxygen transport, and microcirculation: an observational study in patients with septic shock and healthy volunteers. J Crit Care. 2019;53:62-8.) |
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Gao et al.(2626 Gao XH, Li PJ, Cao W. [Central venous-arterial carbon dioxide tension to arterial-central venous oxygen content ratio combined with lactate clearance rate as early resuscitation goals of septic shock]. Zhonghua Yi Xue Za Zhi. 2018;98(7):508-13. Chinese.) |
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He et al.(2727 He H, Long Y, Liu D, Wang X, Tang B. The prognostic value of central venous-to-arterial CO2 difference/arterial-central venous O2 difference ratio in septic shock patients with central venous O2 saturation ≥80. Shock. 2017;48(5):551-7.) |
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Mesquida et al.(2828 Mesquida J, Saludes P, Gruartmoner G, Espinal C, Torrents E, Baigorri F, et al. Central venous-to-arterial carbon dioxide difference combined with arterial-to-venous oxygen content difference is associated with lactate evolution in the hemodynamic resuscitation process in early septic shock. Crit Care. 2015;19(1):126.) |
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Moussa et al.(2929 Moussa MD, Durand A, Leroy G, Vincent L, Lamer A, Gantois G, et al. Central venous-to-arterial PCO2 difference, arteriovenous oxygen content and outcome after adult cardiac surgery with cardiopulmonary bypass: a prospective observational study. Eur J Anaesthesiol. 2019;36(4):279-89.)* |
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Mukai et al.(3030 Mukai A, Suehiro K, Kimura A, Funai Y, Matsuura T, Tanaka K, et al. Comparison of the venous-arterial CO2 to arterial-venous O2 content difference ratio with the venous-arterial CO2 gradient for the predictability of adverse outcomes after cardiac surgery. J Clin Monit Comput. 2020;34(1):41-53.)* |
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Ospina-Tascón et al.(3131 Ospina-Tascón GA, Umaña M, Bermúdez W, Bautista-Rincón DF, Hernandez G, Bruhn A, et al. Combination of arterial lactate levels and venous-arterial CO2 to arterial-venous O2 content difference ratio as markers of resuscitation in patients with septic shock. Intensive Care Med. 2015;41(5):796-805.) |
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Saludes et al.(3232 Saludes P, Proença L, Gruartmoner G, Enseñat L, Pérez-Madrigal A, Espinal C, et al. Central venous-to-arterial carbon dioxide difference and the effect of venous hyperoxia: a limiting factor, or an additional marker of severity in shock? J Clin Monit Comput. 2017;31(6):1203-11.) |
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Zhou et al.(3333 Zhou J, Song J, Gong S, Li L, Zhang H, Wang M. Persistent hyperlactatemia-high central venous-arterial carbon dioxide to arterial-venous oxygen content ratio is associated with poor outcomes in early resuscitation of septic shock. Am J Emerg Med. 2017;35(8):1136-41.) |
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Fuentes-Gómez et al.(3434 Fuentes-Gómez AJ, Monares-Zepeda E, Palacios-Moguel P, Aguirre-Sánchez J, Camarena-Alejo G, Franco-Granillo J. 1284 Bayesian analysis for the venous-arterial CO2 to arterial-venous O2 content difference ratio in post-resuscitation patients and proposal of a simplified formula. Intensive Care Med Exp. 2018;6(Suppl 2):670.) |
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