This is a preview of subscription content, log in via an institution to check access.
Preview
Unable to display preview. Download preview PDF.
Références
Friedman G, Silva E, Vincent JL (1998) Has the mortality of septic shock changed with time. Crit Care Med 26: 2078–86
American College of Chest Physicians/Society of Critical Care Medicine Consensus Conference (1992): Definitions for sepsis and organ failure and guidelines for the use of innovative therapies in sepsis. Crit Care Med 20: 864–74
Connors AF, Jr, Speroff T, Dawson NV et al. (1996) The effectiveness of right heart catheterization in the initial care of critically ill patients. SUPPORT Investigators. JAMA 276: 889–97
Astiz ME, Rackow EC (1998) Septic shock. Lancet 351: 1501–05
Ince C, Sinaasappel M (1999) Microcirculatory oxygenation and shunting in sepsis and shock. Crit Care Med 27: 1369–77
Dellinger RP (2003) Cardiovascular management of septic shock. Crit Care Med 31: 946–55
Groeneveld AB, Nauta JJ, Thijs LG (1988) Peripheral vascular resistance in septic shock: its relation to outcome. Intensive Care Med 14: 141–7
Practice parameters for hemodynamic support of sepsis in adult patients in sepsis. Task Force of the American College of Critical Care Medicine, Society of Critical Care Medicine (1999) Crit Care Med 27: 639–60
Bendjelid K, Romand JA (2003) Fluid responsiveness in mechanically ventilated patients: a review of indices used in intensive care. Intensive Care Med 29: 352–60
Potkin RT, Hudson LD, Weaver LJ et al. (1987) Effect of positive end-expiratory pressure on right and left ventricular function in patients with the adult respiratory distress syndrome. Am Rev Respir Dis 135: 307–11
Parker MM, Shelhamer JH, Bacharach SL et al. (1984) Profound but reversible myocardial depression in patients with septic shock. Ann Intern Med 100: 483–90
Guyton AC (1967) Regulation of cardiac output. N Engl J Med 277: 805–12
McGee S, Abernethy WB, 3rd, Simel DL (1999) The rational clinical examination. Is this patient hypovolemic? JAMA 281: 1022–9
Shippy CR, Appel PL, Shoemaker WC (1984) Reliability of clinical monitoring to assess blood volume in critically ill patients. Crit Care Med 12: 107–12
Michard F, Teboul JL (2000) Using heart-lung interactions to assess fluid responsiveness during mechanical ventilation. Crit Care 4: 282–9
Michard F, Teboul JL (2002) Predicting fluid responsiveness in ICU patients: a critical analysis of the evidence. Chest 121: 2000–8
Cariou A, Monchi M, Dhainaut JF (1998) Continuous cardiac output and mixed venous oxygen saturation monitoring. J Crit Care 13: 198–213
Connors AF Jr, McCaffree DR, Gray BA (1983) Evaluation of right-heart catheterization in the critically ill patient without acute myocardial infarction. N Engl J Med 308: 263–7
Eisenberg PR, Jaffe AS, Schuster DP (1984) Clinical evaluation compared to pulmonary artery catheterization in the hemodynamic assessment of critically ill patients. Crit Care Med 12: 549–53
Levy MM, Fink MP, Marshall JC et al. (2003) 2001 SCCM/ESICM/ACCP/ATS/SIS International Sepsis Definitions Conference. Crit Care Med 31: 1250–6
Michard F, Ruscio L, Teboul JL (2001) Clinical prediction of fluid responsiveness in acute circulatory failure related to sepsis. Intensive Care Med 27: 1238
Swan HJ, Ganz W, Forrester J et al. (1970) Catheterization of the heart in man with use of a flow-directed balloon-tipped catheter. N Engl J Med 283: 447–51
Ganz W, Donoso R, Marcus HS et al. (1971) A new technique for measurement of cardiac output by thermodilution in man. Am J Cardiol 27: 392–6
Slama MA, Novara A, Van de Putte P et al. (1996) Diagnostic and therapeutic implications of transesophageal echocardiography in medical ICU patients with unexplained shock, hypoxemia, or suspected endocarditis. Intensive Care Med 22: 916–22
Ivanov R, Allen J, Calvin JE (2000) The incidence of major morbidity in critically ill patients managed with pulmonary artery catheters: a meta-analysis. Crit Care Med 28: 615–9
Murdoch SD, Cohen AT, Bellamy MC (2000) Pulmonary artery catheterization and mortality in critically ill patients. Br J Anaesth 85: 611–5
Rhodes A, Cusack RJ, Newman PJ et al. (2002) A randomised, controlled trial of the pulmonary artery catheter in critically ill patients. Intensive Care Med 28: 256–64
Weisel RD, Berger RL, Hechtman HB (1975) Current concepts measurement of cardiac output by thermodilution. N Engl J Med 292: 682–4
Jansen JR, Schreuder JJ, Settels JJ et al. (1990) An adequate strategy for the thermodilution technique in patients during mechanical ventilation. Intensive Care Med 422-5
Okamoto K, Komatsu T, Kumar V et al. (1986) Effects of intermittent positive-pressure ventilation on cardiac output measurements by thermodilution. Crit Care Med 14: 977–80
Synder JV, Powner DJ (1982) Effects of mechanical ventilation on the measurement of cardiac output by thermodilution. Crit Care Med 10: 677–82
Yelderman ML, Ramsay MA, Quinn MD et al. (1992) Continuous thermodilution cardiac output measurement in intensive care unit patients. J Cardiothorac Vasc Anesth 6: 270–4
Jacquet L, Hanique G, Glorieux D et al. (1996) Analysis of the accuracy of continuous thermodilution cardiac output measurement. Comparison with intermittent thermodilution and Fick cardiac output measurement. Intensive Care Med 22: 1125–9
Sun Q, Rogiers P, Pauwels D et al. (2002) Comparison of continuous thermodilution and bolus cardiac output measurements in septic shock. Intensive Care Med 28: 1276–80
Wagner JG, Leatherman JW (1998) Right ventricular end-diastolic volume as a predictor of the hemodynamic response to a fluid challenge. Chest 113: 1048–54
Magder S (1998) More respect for the CVP. Intensive Care Med 24: 651–3
Michard F, Boussat S, Chemla D et al. (2000) Relation between respiratory changes in arterial pulse pressure and fluid responsiveness in septic patients with acute circulatory failure. Am J Respir Crit Care Med 162: 134–8
Calvin JE, Driedger AA, Sibbald WJ (1981) The hemodynamic effect of rapid fluid infusion in critically ill patients. Surgery 90: 61–76
Packman MI, Rackow EC (1983) Optimum left heart filling pressure during fluid resuscitation of patients with hypovolemic and septic shock. Crit Care Med 11: 165–9
Diebel LN, Wilson RF, Tagett MG et al. (1992) End-diastolic volume. A better indicator of preload in the critically ill. Arch Surg 127: 817–21; discussion 821–2
Cigarroa RG, Lange RA, Williams RH et al. (1989) Underestimation of cardiac output by thermodilution in patients with tricuspid regurgitation. Am J Med 86: 417–20
Balik M, Pachl J, Hendl J et al. (2002) Effect of the degree of tricuspid regurgitation on cardiac output measurements by thermodilution. Intensive Care Med 28: 1117–21
Artucio H, Hurtado J, Zimet L et al. (1997) PEEP-induced tricuspid regurgitation. Intensive Care Med 23: 836–40
Wetzel RC, Latson TW (1985) Major errors in thermodilution cardiac output measurement during rapid volume infusion. Anesthesiology 62: 684–7
Sise MJ, Hollingsworth P, Brimm JE et al. (1981) Complications of the flow-directed pulmonary artery catheter: A prospective analysis in 219 patients. Crit Care Med 9: 315–8
— (1997) Pulmonary Artery Catheter Consensus conference: consensus statement. Crit Care Med 25: 910–25
Gnaegi A, Feihl F, Perret C (1997) Intensive care physicians’ insufficient knowledge of right-heart catheterization at the bedside: time to act? Crit Care Med 25: 213–20
Iberti TJ, Fischer EP, Leibowitz AB et al. (1990) A multicenter study of physicians’ knowledge of the pulmonary artery catheter. Pulmonary Artery Catheter Study Group. JAMA 264: 2928–32
Mihm FG, Gettinger A, Hanson CW, 3rd et al. (1998) A multicenter evaluation of a new continuous cardiac output pulmonary artery catheter system. Crit Care Med 26: 1346–50
Burchell SA, Yu M, Takiguchi SA et al. (1997) Evaluation of a continuous cardiac output and mixed venous oxygen saturation catheter in critically ill surgical patients. Crit Care Med 25: 388–91
Weil MH, Henning RJ (1979) New concepts in the diagnosis and fluid treatment of circulatory shock. Thirteenth annual Becton, Dickinson and Company Oscar Schwidetsky Memorial Lecture. Anesth Analg 58: 124–32
McGee SR (1998) Physical examination of venous pressure: a critical review. Am Heart J 136: 10–8
Davison R, Cannon R (1974) Estimation of central venous pressure by examination of jugular veins. Am Heart J 87: 279–82
Ladakis C, Myrianthefs P, Karabinis A et al. (2001) Central venous and mixed venous oxygen saturation in critically ill patients. Respiration 68: 279–85
Rivers E, Nguyen B, Havstad S et al. (2001) Early goal-directed therapy in the treatment of severe sepsis and septic shock. N Engl J Med 345: 1368–77
Berridge JC (1992) Influence of cardiac output on the correlation between mixed venous and central venous oxygen saturation. Br J Anaesth 69: 409–10
Turnaoglu S, Tugrul M, Camci E et al. (2001) Clinical applicability of the substitution of mixed venous oxygen saturation with central venous oxygen saturation. J Cardiothorac Vasc Anesth 15: 574–9
Hotchkiss RS, Karl IE (2003) The pathophysiology and treatment of sepsis. N Engl J Med 348: 138–50
Goedje O, Hoeke K, Lichtwarck-Aschoff M et al. (1999) Continuous cardiac output by femoral arterial thermodilution calibrated pulse contour analysis: comparison with pulmonary arterial thermodilution. Crit Care Med 27: 2407–12
Berkenstadt H, Margalit N, Hadani M et al. (2001) Stroke volume variation as a predictor of fluid responsiveness in patients undergoing brain surgery. Anesth Analg 92: 984–9
Sakka SG, Ruhl CC, Pfeiffer UJ et al. (2000) Assessment of cardiac preload and extravascular lung water by single transpulmonary thermodilution. Intensive Care Med 26: 180–7
Goedje O, Seebauer T, Peyerl M et al. (2000) Hemodynamic monitoring by double-indicator dilution technique in patients after orthotopic heart transplantation. Chest 118: 775–81
Godje O, Peyerl M, Seebauer T et al. (1998) Central venous pressure, pulmonary capillary wedge pressure and intrathoracic blood volumes as preload indicators in cardiac surgery patients. Eur J Cardiothorac Surg 13: 533–539; discussion 539–40
Linton RA, Band DM, Haire KM (1993) A new method of measuring cardiac output in man using lithium dilution. Br J Anaesth 71: 262–6
Kurita T, Morita K, Kato S et al. (1997) Comparison of the accuracy of the lithium dilution technique with the thermodilution technique for measurement of cardiac output. Br J Anaesth 79: 770–5
Garcia-Rodriguez C, Pittman J, Cassell CH et al. (2002) Lithium dilution cardiac output measurement: a clinical assessment of central venous and peripheral venous indicator injection. Crit Care Med 30: 2199–204
Jardin F, Farcot JC, Gueret P et al. (1983) Cyclic changes in arterial pulse during respiratory support. Circulation 68: 266–74
Chemla D, Hebert JL, Coirault C et al. (1998) Total arterial compliance estimated by stroke volume-to-aortic pulse pressure ratio in humans. Am J Physiol 274: H500–5
Michard F, Chemla D, Richard C et al. (1999) Clinical use of respiratory changes in arterial pulse pressure to monitor the hemodynamic effects of PEEP. Am J Respir Crit Care Med 159: 935–9
Boulain T, Achard JM, Teboul JL et al. (2002) Changes in BP induced by passive leg raising predict response to fluid loading in critically ill patients. Chest 121: 1245–1252
Tavernier B, Makhotine O, Lebuffe G et al. (1998) Systolic pressure variation as a guide to fluid therapy in patients with sepsis-induced hypotension. Anesthesiology 89: 1313–21
Labovitz AJ, Buckingham TA, Habermehl K et al. (1985) The effects of sampling site on the two-dimensional echo-Doppler determination of cardiac output. Am Heart J 109: 327–32
Smith MD, MacPhail B, Harrison MR et al. (1992) Value and limitations of transesophageal echocardiography in determination of left ventricular volumes and ejection fraction. J Am Coll Cardiol 19: 1213–22
Clements FM, Harpole DH, Quill T et al. (1990) Estimation of left ventricular volume and ejection fraction by two-dimensional transoesophageal echocardiography: comparison of short axis imaging and simultaneous radionuclide angiography. Br J Anaesth 64: 331–6
Perrino AC, Jr., Luther MA, O’Connor TZ et al. (1995) Automated echocardiographic analysis. Examination of serial intraoperative measurements. Anesthesiology 83: 285–92
Ozier Y, Gueret P, Jardin F et al. (1984) Two-dimensional echocardiographic demonstration of acute myocardial depression in septic shock. Crit Care Med 12: 596–99
Jardin F, Brun-Ney D, Auvert B et al. (1990) Sepsis-related cardiogenic shock. Crit Care Med 18: 1055–60
Yoshida K, Yoshikawa J, Shakudo M et al. (1988) Color Doppler evaluation of valvular regurgitation in normal subjects. Circulation 78: 840–7
Mitaka C, Nagura T, Sakanishi N et al. (1989) Two-dimensional echocardiographic evaluation of inferior vena cava, right ventricle, and left ventricle during positive-pressure ventilation with varying levels of positive end-expiratory pressure. Crit Care Med 17: 205–10
Jardin F, Farcot JC, Boisante L et al. (1981) Influence of positive end-expiratory pressure on left ventricular performance. N Engl J Med 304: 387–92
Appleton CP, Galloway JM, Gonzalez MS et al. (1993) Estimation of left ventricular filling pressures using two-dimensional and Doppler echocardiography in adult patients with cardiac disease. Additional value of analyzing left atrial size, left atrial ejection fraction and the difference in duration of pulmonary venous and mitral flow velocity at atrial contraction. J Am Coll Cardiol 22: 1972–82
Kuecherer HF, Muhiudeen IA, Kusumoto FM et al. (1990) Estimation of mean left atrial pressure from transesophageal pulsed Doppler echocardiography of pulmonary venous flow. Circulation 82: 1127–39
Cheung AT, Savino JS, Weiss SJ et al. (1994) Echocardiographic and hemodynamic indexes of left ventricular preload in patients with normal and abnormal ventricular function. Anesthesiology 81: 376–87
Feissel M, Michard F, Mangin I et al. (2001) Respiratory changes in aortic blood velocity as an indicator of fluid responsiveness in ventilated patients with septic shock. Chest 119: 867–73
Bendjelid K, Romand JA, Walder B et al. (2002) Correlation between measured inferior vena cava diameter and right atrial pressure depends on the echocardiographic method used in patients who are mechanically ventilated. J Am Soc Echocardiogr 15: 944–9
Vieillard-Baron A, Augarde R, Prin S et al. (2001) Influence of superior vena caval zone condition on cyclic changes in right ventricular outflow during respiratory support. Anesthesiology 95: 1083–8
Cahalan MK, Foster E (1995) Training in transesophageal echocardiography: in the lab or on the job? Anesth Analg 81: 217–8
Davies JN, Allen DR, Chant AD (1991) Non-invasive Doppler-derived cardiac output: a validation study comparing this technique with thermodilution and Fick methods. Eur J Vasc Surg 5: 497–500
Feinberg MS, Hopkins WE, Davila-Roman VG et al. (1995) Multiplane transesophageal echocardiographic doppler imaging accurately determines cardiac output measurements in critically ill patients. Chest 107: 769–73
Cariou A, Monchi M, Joly LM et al. (1998) Noninvasive cardiac output monitoring by aortic blood flow determination: evaluation of the Sometec Dynemo-3000 system. Crit Care Med 26: 2066–72
Kolkman JJ, Otte JA, Groeneveld AB (2000) Gastrointestinal luminal PCO2 tonometry: an update on physiology, methodology and clinical applications. Br J Anaesth 84: 74–86
Creteur J, De Backer D, Vincent JL (1999) Does gastric tonometry monitor splanchnic perfusion? Crit Care Med 27: 2480–4
Vincent JL, Creteur J (1998) Gastric mucosal pH is definitely obsolete-please tell us more about gastric mucosal PCO2. Crit Care Med 26: 1479–81
Knichwitz G, Kuhmann M, Brodner G et al. (1996) Gastric tonometry: precision and reliability are improved by a phosphate buffered solution. Crit Care Med 24: 512–6
Joly LM, Monchi M, Cariou A et al. (1999) Effects of dobutamine on gastric mucosal perfusion and hepatic metabolism in patients with septic shock. Am J Respir Crit Care Med 160: 1983–6
Marik PE (1993) Gastric intramucosal pH. A better predictor of multiorgan dysfunction syndrome and death than oxygen-derived variables in patients with sepsis. Chest 104: 225–9
Shoemaker WC, Belzberg H, Wo CC et al. (1998) Multicenter study of noninvasive monitoring systems as alternatives to invasive monitoring of acutely ill emergency patients. Chest 114: 1643–52
Clancy TV, Norman K, Reynolds R et al. (1991) Cardiac output measurement in critical care patients: Thoracic Electrical Bioimpedance versus thermodilution. J Trauma 31: 1116–1120; discussion 1120–1
Sageman WS, Amundson DE (1993) Thoracic electrical bioimpedance measurement of cardiac output in postaortocoronary bypass patients. Crit Care Med 21: 1139–42
Young JD, McQuillan P (1993) Comparison of thoracic electrical bioimpedance and thermodilution for the measurement of cardiac index in patients with severe sepsis. Br J Anaesth 70: 58–62
Appel PL, Kram HB, Mackabee J et al. (1986) Comparison of measurements of cardiac output by bioimpedance and thermodilution in severely ill surgical patients. Crit Care Med 14: 933–5
Preiser JC, Daper A, Parquier JN et al. (1989) Transthoracic electrical bioimpedance versus thermodilution technique for cardiac output measurement during mechanical ventilation. Intensive Care Med 15: 221–3
Summers RL, Shoemaker WC, Peacock WF et al. (2003) Bench to bedside: electrophysiologic and clinical principles of noninvasive hemodynamic monitoring using impedance cardiography. Acad Emerg Med 10: 669–80
Marik PE, Pendelton JE, Smith R (1997) A comparison of hemodynamic parameters derived from transthoracic electrical bio-impedance with those parameters obtained by thermodilution and ventricular angiography. Crit Care Med 25: 1545–50
Vincent JL (2001) Hemodynamic support in septic shock. Intensive Care Med 27: S80–92
Vincent JL, De Backer D (2002) Cardiac output measurement: is least invasive always the best? Crit Care Med 30: 2380–2
Rights and permissions
Copyright information
© 2005 Springer-Verlag France
About this chapter
Cite this chapter
Fieux, F., Jacob, L. (2005). Évaluation hémodynamique. In: Sepsis sévère et choc septique. Le point sur⋯. Springer, Paris. https://doi.org/10.1007/2-287-27496-0_9
Download citation
DOI: https://doi.org/10.1007/2-287-27496-0_9
Publisher Name: Springer, Paris
Print ISBN: 978-2-287-22072-2
Online ISBN: 978-2-287-27496-1
eBook Packages: MedicineMedicine (R0)