R. J. Goldberg, J. M. Gore, J. S. Alpert, V. Osganian, J. De-groot et al., Cardiogenic shock after acute myocardial infarction. Incidence and mortality from a community-wide perspective, 1975 to 1988, N Engl J Med, vol.325, issue.16, pp.1117-1139, 1991.

R. J. Goldberg, F. A. Spencer, J. M. Gore, D. Lessard, and J. Yarzebski, Thirty-year trends (1975 to 2005) in the magnitude of, management of, and hospital death rates associated with cardiogenic shock in patients with acute myocardial infarction: a population-based perspective, Circulation, vol.119, issue.9, pp.1211-1220, 2009.

D. Backer, D. Donadello, K. Sakr, Y. Ospina-tascon, G. Salgado et al., Microcirculatory alterations in patients with severe sepsis: impact of time of assessment and relationship with outcome, Crit Care Med, vol.41, issue.3, pp.791-800, 2013.

F. Vallée, H. Nougué, A. Mari, N. Vodovar, G. Dubreuil et al., Variations of Cutaneous Capnometry and Perfusion Index During A Heating Challenge is Early Impaired in Septic Shock and Related to Prognostic in Non-Septic Shock, Shock Augusta Ga, 2018.

L. A. Kirschenbaum, M. E. Astiz, E. C. Rackow, D. C. Saha, and R. Lin, Microvascular response in patients with cardiogenic shock, Crit Care Med, vol.28, issue.5, pp.1290-1294, 2000.

D. Backer, D. Creteur, J. Dubois, M. Sakr, Y. Vincent et al., Microvascular alterations in patients with acute severe heart failure and cardiogenic shock, Am Heart J, vol.147, issue.1, pp.91-100, 2004.

D. Orbegozo, F. Su, K. Xie, L. Rahmania, F. S. Taccone et al., Peripheral Muscle Near-Infrared Spectroscopy Variables are Altered Early in Septic Shock, Shock Augusta Ga, vol.50, issue.1, pp.87-95, 2018.

A. Donati, E. Damiani, R. Domizi, C. Scorcella, A. Carsetti et al., Near-infrared spectroscopy for assessing tissue oxygenation and microvascular reactivity in critically ill patients: a prospective observational study, Crit Care Lond Engl, vol.20, issue.1, p.311, 201601.

P. Gaudard, J. Eliet, O. Attard, and P. Colson, Prognosis value of dynamic variation of tissue oxygen saturation during severe cardiogenic shock, Crit Care, vol.15, issue.1, p.37, 2011.

S. Beglinger, J. Drewe, and M. Christ-crain, The Circadian Rhythm of Copeptin, the C-Terminal Portion of Arginine Vasopressin, J Biomark, 2017.

K. G. Vargas, M. Kassem, C. Mueller, J. Wojta, and K. Huber, Copeptin for the early rule-out of non-STelevation myocardial infarction, Int J Cardiol, vol.223, pp.797-804, 2016.

B. Lattuca, V. Sy, L. S. Nguyen, M. Bernard, M. Zeitouni et al., Copeptin as a prognostic biomarker in acute myocardial infarction, Int J Cardiol, vol.274, pp.337-378, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02136025

T. Sharshar, A. Blanchard, M. Paillard, J. C. Raphael, P. Gajdos et al., Circulating vasopressin levels in septic shock, Crit Care Med, vol.31, issue.6, pp.1752-1760, 2003.

C. A. Sims, Y. Guan, M. Bergey, R. Jaffe, L. Holmes-maguire et al., Arginine vasopressin, copeptin, and the development of relative AVP deficiency in hemorrhagic shock, Am J Surg, vol.214, issue.4, pp.589-95, 2017.

K. Nam, H. Oh, C. Koo, T. K. Kim, Y. J. Cho et al., Microvascular reactivity measured by vascular occlusion test is an independent predictor for postoperative bleeding in patients undergoing cardiac surgery, J Clin Monit Comput, vol.32, issue.2, pp.295-301, 2018.

E. Butler, S. Mahendran, J. Nguyen, and A. Aneman, Microvascular reactivity, assessed by near-infrared spectroscopy and a vascular occlusion test, is associated with patient outcomes following cardiac surgery: A prospective observational study, Eur J Anaesthesiol, 2001.

N. G. Morgenthaler, J. Struck, S. Jochberger, and M. W. Dünser, Copeptin: clinical use of a new biomarker, Trends Endocrinol Metab TEM, vol.19, issue.2, pp.43-52, 2008.

D. Payen, C. Luengo, L. Heyer, M. Resche-rigon, S. Kerever et al., Is thenar tissue hemoglobin oxygen saturation in septic shock related to macrohemodynamic variables and outcome?, Crit Care Lond Engl, vol.13, 2009.

J. Creteur, T. Carollo, G. Soldati, G. Buchele, D. Backer et al., The prognostic value of muscle StO2 in septic patients, Intensive Care Med, vol.33, issue.9, pp.1549-56, 2007.

J. Mesquida, G. Gruartmoner, and C. Espinal, Skeletal muscle oxygen saturation (StO2) measured by near-infrared spectroscopy in the critically ill patients, BioMed Res Int, p.502194, 2013.

J. Mesquida, C. Espinal, G. Gruartmoner, J. Masip, C. Sabatier et al., Prognostic implications of tissue oxygen saturation in human septic shock, Intensive Care Med, vol.38, issue.4, pp.592-599, 2012.

C. Mayeur, S. Campard, C. Richard, and J. Teboul, Comparison of four different vascular occlusion tests for assessing reactive hyperemia using near-infrared spectroscopy, Crit Care Med, vol.39, issue.4, pp.695-701, 2011.

J. Wollborn, S. Siemering, C. Steiger, H. Buerkle, U. Goebel et al., Phosphodiesterase-4 inhibition reduces ECLS-induced vascular permeability and improves microcirculation in a rodent model of extracorporeal resuscitation, Am J Physiol-Heart Circ Physiol, vol.316, issue.3, pp.751-61, 2019.

R. Chati, F. Doguet, and E. Lesaux, Impact de la stratégie de remplissage vasculaire sur la microcirculation mésentérique dans un modèle expérimental de CEC, Réanimation, vol.23, pp.252-255, 2013.

. Ncmmr), Y. Yeh, C. Lee, C. Wang, Y. Tu et al., Investigation of microcirculation in patients with venoarterial extracorporeal membrane oxygenation life support. Crit Care [Internet], vol.22, 2018.

A. Kara, S. Akin, D. Dos-reis-miranda, A. Struijs, K. Caliskan et al., Microcirculatory assessment of patients under VA-ECMO. Crit Care, vol.20, 2016.

J. Parenica, J. Jarkovsky, J. Malaska, A. Mebazaa, J. Gottwaldova et al., Infectious Complications and Immune/Inflammatory Response in Cardiogenic Shock Patients: A Prospective Observational Study. Shock Augusta Ga, vol.47, pp.165-74, 2017.

H. S. Lim, Cardiogenic Shock: Failure of Oxygen Delivery and Oxygen Utilization, Clin Cardiol, vol.39, issue.8, pp.477-83, 2016.

P. Asfar, F. Meziani, J. Hamel, F. Grelon, B. Megarbane et al., High versus Low Blood-Pressure Target in Patients with Septic Shock, N Engl J Med, vol.370, issue.17, pp.1583-93, 2014.

T. Jäntti, T. Tarvasmäki, V. Harjola, J. Parissis, K. Pulkki et al., Frequency and Prognostic Significance of Abnormal Liver Function Tests in Patients With Cardiogenic Shock, Am J Cardiol, vol.120, issue.7, pp.1090-1097, 2017.

S. Jolly, G. Newton, E. Horlick, P. H. Seidelin, H. J. Ross et al., Effect of Vasopressin on Hemodynamics in Patients With Refractory Cardiogenic Shock Complicating Acute Myocardial Infarction, Am J Cardiol, vol.96, issue.12, pp.1617-1637, 2005.

C. Luyt, A. Landivier, P. Leprince, M. Bernard, A. Pavie et al., Usefulness of cardiac biomarkers to predict cardiac recovery in patients on extracorporeal membrane oxygenation support for refractory cardiogenic shock, J Crit Care, vol.27, issue.5, pp.524-531, 2012.

, Post-Cardiac Arrest Syndrome | Circulation, 2019.

M. A. Peberdy, L. W. Andersen, A. Abbate, L. R. Thacker, D. Gaieski et al., Inflammatory markers following resuscitation from out-of-hospital cardiac arrest-A prospective multicenter observational study, Resuscitation, vol.103, pp.117-141, 2016.