Catherine E Sharoky1, Niels D Martin2, Brian P Smith2, Jose L Pascual2, Lewis J Kaplan2, Patrick M Reilly2, Daniel N Holena2. 1. Department of Surgery, University of Pennsylvania, Philadelphia, Pennsylvania. Electronic address: catherine.sharoky@uphs.upenn.edu. 2. Division of Traumatology, Surgical Critical Care and Emergency Surgery, Department of Surgery, Penn Presbyterian Medical Center, Philadelphia, Pennsylvania.
Abstract
BACKGROUND: Failure to rescue (FTR) refers to death after a major complication. Defining the optimal context in which to reduce FTR after injury requires knowledge of where and when FTR events occur. MATERIALS AND METHODS: Retrospective observational study of patients >16 y with a minimum Abbreviated Injury Score ≥2 at all 30 level I and II Pennsylvania trauma centers (2007-2015). Location and timing of the first major complication were collected. Complication, mortality, and FTR rates were calculated by location (prehospital, emergency department, operating room, stepdown unit, interventional radiology, intensive care unit (ICU), radiology, and the surgical ward) and by postadmission day. Kruskal-Wallis and chi-squared tests were used to compare variables. RESULTS: Major complications occurred in 15,388 of 178,602 (8.6%) patients. The median age was 58 y (interquartile range [IQR] 37-77 y), 78% were Caucasian, 68% were male, 89% were bluntly injured, and the median Injury Severity Score was 19 (IQR 10-29). Death occurred in 2512 of 15,388 patients with a major complication, for an FTR rate of 16.3%. Compared with non-FTR, FTR had earlier major complications (median day 2 [IQR 0-5 d] versus day 4 [IQR 2-8 d], P < 0.001). FTR rates were highest in the prehospital setting (42%), the operating room (33%), and the emergency department (32%), but the greatest number (1608 of 2512 total FTR events, 64%) occurred in the ICU. Pulmonary (32%) and cardiac (26%) complications most frequently contributed to FTR deaths. CONCLUSIONS: Interventions designed to reduce FTR after injury should focus on pulmonary and cardiac complications in the ICU.
BACKGROUND: Failure to rescue (FTR) refers to death after a major complication. Defining the optimal context in which to reduce FTR after injury requires knowledge of where and when FTR events occur. MATERIALS AND METHODS: Retrospective observational study of patients >16 y with a minimum Abbreviated Injury Score ≥2 at all 30 level I and II Pennsylvania trauma centers (2007-2015). Location and timing of the first major complication were collected. Complication, mortality, and FTR rates were calculated by location (prehospital, emergency department, operating room, stepdown unit, interventional radiology, intensive care unit (ICU), radiology, and the surgical ward) and by postadmission day. Kruskal-Wallis and chi-squared tests were used to compare variables. RESULTS: Major complications occurred in 15,388 of 178,602 (8.6%) patients. The median age was 58 y (interquartile range [IQR] 37-77 y), 78% were Caucasian, 68% were male, 89% were bluntly injured, and the median Injury Severity Score was 19 (IQR 10-29). Death occurred in 2512 of 15,388 patients with a major complication, for an FTR rate of 16.3%. Compared with non-FTR, FTR had earlier major complications (median day 2 [IQR 0-5 d] versus day 4 [IQR 2-8 d], P < 0.001). FTR rates were highest in the prehospital setting (42%), the operating room (33%), and the emergency department (32%), but the greatest number (1608 of 2512 total FTR events, 64%) occurred in the ICU. Pulmonary (32%) and cardiac (26%) complications most frequently contributed to FTR deaths. CONCLUSIONS: Interventions designed to reduce FTR after injury should focus on pulmonary and cardiac complications in the ICU.
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