OBJECTIVE: We examined the pattern of organ system dysfunction, the evolution of this pattern over time, and the relationship of these features to mortality in patients who had sepsis syndrome. DESIGN: Prospective, multicenter, observational study. SETTING: Intensive care units in tertiary referral teaching hospitals. PATIENTS: A total of 287 patients who had sepsis syndrome were prospectively identified in intensive care units. MATERIALS AND MEASUREMENTS: Cardiovascular, pulmonary, neurologic, coagulation, renal, and hepatic dysfunction were assessed at onset and on day 3 of sepsis syndrome. Organ dysfunction was classified as normal, mild, moderate, severe, and extreme dysfunction. We calculated the occurrence rate and associated 30-day mortality rate of organ dysfunction at the onset of sepsis syndrome. We then measured the change in organ dysfunction from onset to day 3 of sepsis syndrome and determined, for individual organ systems, the associated 30-day mortality rate. RESULTS: At the onset of sepsis syndrome, clinically significant pulmonary dysfunction was the most common organ failure, but was not related to 30-day mortality. Clinically significant cardiovascular, neurologic, coagulation, renal, and hepatic dysfunction were less common at the onset of sepsis syndrome but were significantly associated with the 30-day mortality rate. Worsening neurologic, coagulation, and renal dysfunction from onset to day 3 of sepsis syndrome were associated with significantly higher 30-day mortality than with improvement or no change in organ dysfunction. CONCLUSIONS: Increased mortality rate in sepsis syndrome is associated with a pattern characterized by failure of nonpulmonary organ systems and, in particular, worsening neurologic, coagulation, and renal dysfunction over the first 3 days. Although initial pulmonary dysfunction is common in patients with sepsis syndrome, it is not associated with an increased mortality rate.
OBJECTIVE: We examined the pattern of organ system dysfunction, the evolution of this pattern over time, and the relationship of these features to mortality in patients who had sepsis syndrome. DESIGN: Prospective, multicenter, observational study. SETTING: Intensive care units in tertiary referral teaching hospitals. PATIENTS: A total of 287 patients who had sepsis syndrome were prospectively identified in intensive care units. MATERIALS AND MEASUREMENTS: Cardiovascular, pulmonary, neurologic, coagulation, renal, and hepatic dysfunction were assessed at onset and on day 3 of sepsis syndrome. Organ dysfunction was classified as normal, mild, moderate, severe, and extreme dysfunction. We calculated the occurrence rate and associated 30-day mortality rate of organ dysfunction at the onset of sepsis syndrome. We then measured the change in organ dysfunction from onset to day 3 of sepsis syndrome and determined, for individual organ systems, the associated 30-day mortality rate. RESULTS: At the onset of sepsis syndrome, clinically significant pulmonary dysfunction was the most common organ failure, but was not related to 30-day mortality. Clinically significant cardiovascular, neurologic, coagulation, renal, and hepatic dysfunction were less common at the onset of sepsis syndrome but were significantly associated with the 30-day mortality rate. Worsening neurologic, coagulation, and renal dysfunction from onset to day 3 of sepsis syndrome were associated with significantly higher 30-day mortality than with improvement or no change in organ dysfunction. CONCLUSIONS: Increased mortality rate in sepsis syndrome is associated with a pattern characterized by failure of nonpulmonary organ systems and, in particular, worsening neurologic, coagulation, and renal dysfunction over the first 3 days. Although initial pulmonary dysfunction is common in patients with sepsis syndrome, it is not associated with an increased mortality rate.
Authors: Matthew M Churpek; Frank J Zadravecz; Christopher Winslow; Michael D Howell; Dana P Edelson Journal: Am J Respir Crit Care Med Date: 2015-10-15 Impact factor: 21.405
Authors: Paul B Massion; Pierre Peters; Didier Ledoux; Valentine Zimermann; Jean-Luc Canivet; Pierre P Massion; Pierre Damas; André Gothot Journal: Intensive Care Med Date: 2012-06-27 Impact factor: 17.440
Authors: K Doi; X Hu; P S T Yuen; A Leelahavanichkul; H Yasuda; S M Kim; J Schnermann; T E N Jonassen; J Frøkiaer; S Nielsen; R A Star Journal: Kidney Int Date: 2008-03-19 Impact factor: 10.612
Authors: Sebastian Brandt; Tomas Regueira; Hendrik Bracht; Francesca Porta; Siamak Djafarzadeh; Jukka Takala; José Gorrasi; Erika Borotto; Vladimir Krejci; Luzius B Hiltebrand; Lukas E Bruegger; Guido Beldi; Ludwig Wilkens; Philipp M Lepper; Ulf Kessler; Stephan M Jakob Journal: Crit Care Date: 2009-11-23 Impact factor: 9.097