Surviving Sepsis Campaign: international guidelines for management of severe sepsis and septic shock: 2008

R Phillip Dellinger, Mitchell M Levy, Jean M Carlet, Julian Bion, Margaret M Parker, Roman Jaeschke, Konrad Reinhart, Derek C Angus, Christian Brun-Buisson, Richard Beale, Thierry Calandra, Jean-Francois Dhainaut, Herwig Gerlach, Maurene Harvey, John J Marini, John Marshall, Marco Ranieri, Graham Ramsay, Jonathan Sevransky, B Taylor Thompson, Sean Townsend, Jeffrey S Vender, Janice L Zimmerman, Jean-Louis Vincent, R Phillip Dellinger, Mitchell M Levy, Jean M Carlet, Julian Bion, Margaret M Parker, Roman Jaeschke, Konrad Reinhart, Derek C Angus, Christian Brun-Buisson, Richard Beale, Thierry Calandra, Jean-Francois Dhainaut, Herwig Gerlach, Maurene Harvey, John J Marini, John Marshall, Marco Ranieri, Graham Ramsay, Jonathan Sevransky, B Taylor Thompson, Sean Townsend, Jeffrey S Vender, Janice L Zimmerman, Jean-Louis Vincent

Abstract

Objective: To provide an update to the original Surviving Sepsis Campaign clinical management guidelines, "Surviving Sepsis Campaign guidelines for management of severe sepsis and septic shock," published in 2004.

Design: Modified Delphi method with a consensus conference of 55 international experts, several subsequent meetings of subgroups and key individuals, teleconferences, and electronic-based discussion among subgroups and among the entire committee. This process was conducted independently of any industry funding.

Methods: We used the GRADE system to guide assessment of quality of evidence from high (A) to very low (D) and to determine the strength of recommendations. A strong recommendation indicates that an intervention's desirable effects clearly outweigh its undesirable effects (risk, burden, cost), or clearly do not. Weak recommendations indicate that the tradeoff between desirable and undesirable effects is less clear. The grade of strong or weak is considered of greater clinical importance than a difference in letter level of quality of evidence. In areas without complete agreement, a formal process of resolution was developed and applied. Recommendations are grouped into those directly targeting severe sepsis, recommendations targeting general care of the critically ill patient that are considered high priority in severe sepsis, and pediatric considerations.

Results: Key recommendations, listed by category, include: early goal-directed resuscitation of the septic patient during the first 6 hrs after recognition (1C); blood cultures prior to antibiotic therapy (1C); imaging studies performed promptly to confirm potential source of infection (1C); administration of broad-spectrum antibiotic therapy within 1 hr of diagnosis of septic shock (1B) and severe sepsis without septic shock (1D); reassessment of antibiotic therapy with microbiology and clinical data to narrow coverage, when appropriate (1C); a usual 7-10 days of antibiotic therapy guided by clinical response (1D); source control with attention to the balance of risks and benefits of the chosen method (1C); administration of either crystalloid or colloid fluid resuscitation (1B); fluid challenge to restore mean circulating filling pressure (1C); reduction in rate of fluid administration with rising filing pressures and no improvement in tissue perfusion (1D); vasopressor preference for norepinephrine or dopamine to maintain an initial target of mean arterial pressure > or = 65 mm Hg (1C); dobutamine inotropic therapy when cardiac output remains low despite fluid resuscitation and combined inotropic/vasopressor therapy (1C); stress-dose steroid therapy given only in septic shock after blood pressure is identified to be poorly responsive to fluid and vasopressor therapy (2C); recombinant activated protein C in patients with severe sepsis and clinical assessment of high risk for death (2B except 2C for post-operative patients). In the absence of tissue hypoperfusion, coronary artery disease, or acute hemorrhage, target a hemoglobin of 7-9 g/dL (1B); a low tidal volume (1B) and limitation of inspiratory plateau pressure strategy (1C) for acute lung injury (ALI)/acute respiratory distress syndrome (ARDS); application of at least a minimal amount of positive end-expiratory pressure in acute lung injury (1C); head of bed elevation in mechanically ventilated patients unless contraindicated (1B); avoiding routine use of pulmonary artery catheters in ALI/ARDS (1A); to decrease days of mechanical ventilation and ICU length of stay, a conservative fluid strategy for patients with established ALI/ARDS who are not in shock (1C); protocols for weaning and sedation/analgesia (1B); using either intermittent bolus sedation or continuous infusion sedation with daily interruptions or lightening (1B); avoidance of neuromuscular blockers, if at all possible (1B); institution of glycemic control (1B) targeting a blood glucose < 150 mg/dL after initial stabilization ( 2C ); equivalency of continuous veno-veno hemofiltration or intermittent hemodialysis (2B); prophylaxis for deep vein thrombosis (1A); use of stress ulcer prophylaxis to prevent upper GI bleeding using H2 blockers (1A) or proton pump inhibitors (1B); and consideration of limitation of support where appropriate (1D). Recommendations specific to pediatric severe sepsis include: greater use of physical examination therapeutic end points (2C); dopamine as the first drug of choice for hypotension (2C); steroids only in children with suspected or proven adrenal insufficiency (2C); a recommendation against the use of recombinant activated protein C in children (1B).

Conclusion: There was strong agreement among a large cohort of international experts regarding many level 1 recommendations for the best current care of patients with severe sepsis. Evidenced-based recommendations regarding the acute management of sepsis and septic shock are the first step toward improved outcomes for this important group of critically ill patients.

Figures

References

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Source Control

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2. Evans A, Winslow BH (1995) Oxygen saturation and hemodynamic response in critically ill mechanically ventilated adults during intrahospital transport. Am J Crit Care 4:106–111

Fluid Therapy

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2. Schortgen F, Lacherade JC, Bruneel F, Cattaneo I, Hemery F, Lemaire F, Brochard L (2001) Effects of hydroxyethyl starch and gelatin on renal function in severe sepsis: a multicentre randomised study. Lancet 357:911–916
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Vasopressors

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2. Day NP, Phu NH, Bethell DP, Mai NT, Chau TT, Hien TT, White NJ (1996) The effects of dopamine and adrenaline infusions on acid-base balance and systemic haemodynamics in severe infection. Lancet 348:219–223
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2. Zhou SX, Qiu HB, Huang YZ, Yang Y, Zheng RQ (2002) Effects of norepinephrine, epinephrine, and norepinephrine-dobutamine on systemic and gastric mucosal oxygenation in septic shock. Acta Pharmacologica Sinica 23:654–658
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Inotropic Therapy

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Steroids

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Recombinant Human Activated Protein C

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Mechanical Ventilation

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Sedation, Analgesia and Neuromuscular Blockade

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2. Freebairn RC, Derrick J, Gomersall CD, Young RJ, Joynt GM (1997) Oxygen delivery, oxygen consumption, and gastric intramucosal pH are not improved by a computer-controlled, closed-loop, vecuronium infusion in severe sepsis and septic shock. Crit Care Medicine 25:72–77
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2. Strange C, Vaughan L, Franklin C, Johnson J (1997) comparison of train-of-four and best clinical assessment during continuous paralysis. Am J Respir Crit Care Med 156:1556–1561

Glucose Control

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2. Egi M, Bellomo R, Stachowski E, French C (2006) Variability in blood glucose concentrations and short-term mortality in critically ill patients. Anesthesiology 105:233–234
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1. Preiser JC (2007) Intensive glycemic control in med-surg patients (European Glucontrol trial). Program and abstracts of the Society of Critical Care Medicine 36th Critical Care Congress; February 17–21, 2007; Orlando, Florida
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2. Wilson M, Weinreb J, Soo Hoo GW (2007) Intensive insulin therapy in critical care: A review of a dozen protocols. Diabetes Care 30:1005–1011

Renal Replacement

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2. Vinsonneau C, Camus C, Combes A, Costa de Beauregard MA, Klouche K, Boulain T, Pallot JL, Chiche JD, Taupin P, Landais P, Dhainaut JF, Hemodiafe Study Group (2006) Continuous venovenous haemodiafiltration versus intermittent haemodialysis for acute renal failure in patients with multiple-organ dysfunction syndrome: a multicentre randomised trial. Lancet 368:379–385
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Bicarbonate Therapy

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DVT Prophylaxis

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2. King CS, Holley AB, Jackson JL, Shorr AF, Moores LK (2007) Twice vs three times daily heparin dosing for thromboembolism prophylaxis in the general medical population: A metaanalysis. Chest 131:507–516
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2. German Hip Arthroplasty Trial Group (GHAT) (1992) Prevention of deep vein thrombosis with low molecular-weight heparin in patients undergoing total hip replacement: a randomized trial. Arch Orthop Trauma Surg 111:110–120
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Stress Ulcer Prophylaxis

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2. Bresalier RS, Grendell JH, Cello JP, Meyer AA (1987) Sucralfate versus titrated antacid for the prevention of acute stress-related gastrointestinal hemorrhage in critically ill patients. Am J Med 83:110–116
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2. Poleski MH, Spanier AH (1986) Cimetidine versus antacids in the prevention of stress erosions in critically ill patients. Am J Gastroenterol 81:107–111
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2. Stothert JC Jr, Simonowitz DA, Dellinger EP, Farley M, Edwards WA, Blair AD, Cutler R, Carrico CJ (1980) Randomized prospective evaluation of cimetidine and antacid control of gastric pH in the critically ill. Ann Surg 192:169–174
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2. Cook DJ, Fuller HD, Guyatt GH, Marshall JC, Leasa D, Hall R, Winton TL, Rutledge F, Todd TJ, Roy P, et al. (1994) Risk factors for gastrointestinal bleeding in critically ill patients. N Engl J Med 330:377–381
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2. Schuster DP, Rowley H, Feinstein S, McGue MK, Zuckerman GR (1984) Prospective evaluation of the risk of upper gastrointestinal bleeding after admission to a medical intensive care unit. Am J Med 76:623–629
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2. Misra UK, Kalita J, Pandey S, Mandal SK, Srivastava M (2005) A randomized placebo controlled trial of ranitidine versus sucralfate in patients with spontaneous intracerebral hemorrhage for prevention of gastric hemorrhage. J Neurological Sciences 239:5–10
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2. Friedman CJ, Oblinger MJ, Suratt PM, Bowers J, Goldberg SK, Sperling MH, Blitzer AH (1982) Prophylaxis of upper gastrointestinal hemorrhage in patients requiring mechanical ventilation. Crit Care Med 10:316–319
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2. Hastings PR, Skillman JJ, Bushnell LS, Silen W (1978) Antacid titration in the prevention of acute gastrointestinal bleeding: A controlled, randomized trial in 100 critically ill patients. N Engl J Med 298:1041–1045
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2. Cook DJ, Witt LG, Cook RJ, Guyatt GH (1991) Stress ulcer prophylaxis in the critically ill: A meta-analysis. Am J Med 91:519–257
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2. Kahn JM, Doctor JN, Rubenfeld GD (2006) Stress ulcer prophylaxis in mechanically ventilated patients: integrating evidence and judgment using a decision analysis. Intensive Care Med 32:1151–1158
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2. Cook D, Guyatt G, Marshall J, Leasa D, Fuller H, Hall R, Peters S, Rutledge F, Griffith L, McLellan A, Wood G, Kirby A (1998) A comparison of sucralfate and ranitidine for the prevention of upper gastrointestinal bleeding in patients requiring mechanical ventilation. N Engl J Med 338:791–797
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2. Cook DJ, Reeve BK, Guyatt GH, Heyland DK, Griffith LE, Buckingham L, Tryba M (1996) Stress ulcer prophylaxis in critically ill patients: resolving discordant meta-analyses. JAMA 275:308–314
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2. Levy MJ, Seelig CB, Robinson NJ, Ranney JE (1997) Comparison of omeprazole and ranitidine for stress ulcer prophylaxis. Dig Dis Sci 42:1255–1299
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2. Quartin A, Hata JS, Frank WO, Bagin RG, Rock JA, Hepburn B, Laine L (2005) Randomized, double-blind comparison of immediate-release omeprazole oral suspension versus intravenous cimetidine for the prevention of upper gastrointestinal bleeding in critically ill patients. Crit Care Med 33:760–765

SDD References

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2. Vandenbroucke-Grauls CMJ, Vandenbroucke JP (1991) Effect of selective decontamination of the digestive tract on respiratory tract infections and mortality in the intensive care unit. Lancet 338:859–862
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2. Selective Decontamination of the Digestive Tract Trialists' Collaborative Group (1993) Meta-analysis of randomised controlled trials of selective decontamination of the digestive tract. BMJ 307:525–532
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2. Kollef M (1994) The role of selective digestive tract decontamination on mortality and respiratory tract infections. A meta-analysis. Chest 105:1101–1108
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2. Heyland DK, Cook DJ, Jaeschke R, Griffith L, Lee HN, Guyatt GH (1994) Selective decontamination of the digestive tract: an overview. Chest 105:1221–1229
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2. Hurley JC (1995) Prophylaxis with enteral antibiotics in ventilated patients: selective decontamination or selective cross-infection? Antimicrob Agents Chemother 39:941–947
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2. Nathens AB, Marshall JC (1999) Selective decontamination of the digestive tract in surgical patients. A systematic review of the evidence. Arch Surg 134:170–176
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2. Liberati A, D'Amico R, Pifferi S, Torri V, Brazzi L (2004) Antibiotic prophylaxis to reduce respiratory tract infections and mortality in adults receiving intensive care (Cochrane Review). In: The Cochrane Library, Issue 1. Chichester, UK: Wiley & Sons, Ltd.
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2. Silvestri L, van Saene HKF, Milanese M, Gregori D (2005) Impact of selective decontamination of the digestive tract on fungal carriage and infection: systematic review of randomised controlled trials. Intensive Care Med 31:898–910
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2. Hammond JMJ, Potgieter PD (1995) Is there a role for selective decontamination of the digestive tract in primarily infected patients in the ICU? Anaesth Intens Care 23:168–174
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2. De Jonge E, Schultz M, Spanjaard L, Bossuvt P, Kesecioglu J (2003) Selective decontamination of digestive tract in intensive care. Lancet 362:2119–2120
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2. De Jonge E, Schultz MJ, Spanjaard L, Bossuyt PM, Vroom MB, Dankert J, Kesecioglu J (2003) Effects of selective decontamination of the digestive tract on mortality and acquisition of resistance bacteria on intensive care: a randomised controlled trial. Lancet 362:1011–1016
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2. Hammond JM, Potgieter PD, Saunders GL, Forder AA (1992) Double blind study of selective decontamination of the digestive tract in intensive care. Lancet 340:5–9
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2. de la Cal MA, Cerda E, van Saene HKF, Garcĺa-Hierro P, Negro E, Parra ML, Arias S, Ballesteros D (2004) Effectiveness and safety of enteral vancomycin to control endemicity of methicillin-resistant Staphylococcus aureus in a medical/surgical intensive care unit. J Hospital Infect 56:175–183
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2. Silvestri L, van Saene HKF, Milanese M, Fontana F, Gregori D, Oblach L, Piacente N, Blazic M (2004) Prevention of MRSA pneumonia by oral vancomycin decontamination: a randomised trial. Eur Respir J 23:921–926
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2. Cerda E, Abella A, de la Cal MA, Lorente JA, Garcĺa-Hierro P, van Saene HKF, Alĺa I, Aranguren A (2007) Enteral Vancomycin Controls Methicillin-resistant Staphylococcus Aureus Endemicity in an Intensive Care Burn Unit. A 9-Year Prospective Study. Ann Surg 245:397–407

Consideration for Limitation of Support

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2. Thompson BT, Cox PN, Antonelli M, Carlet JM, Cassell J, Hill NS, Hinds CJ, Pimentel JM, Reinhart K, Thijs LG, American Thoracic Society, European Respiratory Society, European Society of Intensive Care Medicine, Society of Critical Care Medicine, Sociètède Rèanimation de Langue Française (2004) Challenges in end-of-life care in the ICU: statement of the 5th International Consensus Conference in Critical Care: Brussels, Belgium, April 2003: executive summary. Crit Care Med 32:1781–1784
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Pediatric Considerations

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2. Kanter RK, Zimmerman JJ, Strauss RH, Stoeckel KA (1986) Pediatric emergency intravenous access. Evaluation of a protocol. Am J Dis Child 140:132–134
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2. Carcillo JA, Davis AL, Zaritsky A (1991) Role of early fluid resuscitation in pediatric septic shock. JAMA 266:1242–1245
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Summary and Future Directions

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2. Levy MM, Pronovost PJ, Dellinger RP, Townsend S, Resar RK, Clemmer TP, Ramsay G (2004) Sepsis change bundles: converting guidelines into meaningful change in behavior and clinical outcome. Crit Care Med [Suppl] 32:S595–S597

Appendicies

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2. Steinberg KP, Hudson LD, Goodman RB, Hough CL, Lanken PN, Hyzy R, Thompson BT, Ancukiewicz M, National Heart, Lung and Blood Institute Acute Respiratory Distress Syndrome (ARDS) Clinical Trials Network (2006) Efficacy and safety of corticosteroids for persistent acute respiratory distress syndrome. N Engl J Med 354:1671–1684

Source: PubMed

Surviving Sepsis Campaign: international guidelines for management of severe sepsis and septic shock: 2008

Abstract

Figures

References

スポンサーと協力者

医学的状態

薬物療法