TY - BOOK AU - CHIU William C AU - POWERS D B AU - HIRSHON J M TI - Impact of trauma centre capacity and volume on the mortality risk of incoming new admissions PY - 2022/// KW - TRAUMA CARE KW - TIME-CRITICAL ASSESSMENTS KW - TRAUMA SYSTEMS KW - CRITICAL INJURED KW - TRAUMA CENTRE CAPACITY KW - GLASGOW COMA SCALE KW - MORTALITY INCOMING PATIENTS KW - MILITARY KW - HEALTH N2 - Introduction: Trauma centre capacity and surge volume may affect decisions on where to transport a critically injured patient and whether to bypass the closest facility. Our hypothesis was that overcrowding and high patient acuity would contribute to increase the mortality risk for incoming admissions; Methods: For a 6-year period, we merged and cross-correlated our institutional trauma registry with a database on Trauma Resuscitation Unit (TRU) patient admissions, movement and discharges, with average capacity of 12 trauma bays. The outcomes of overall hospital and 24hours mortality for new trauma admissions (NEW) were assessed by multivariate logistic regression; Results: There were 42003 (mean=7000/year) admissions having complete data sets, with 36354 (87%) patients who were primary trauma admissions, age ≥18 and survival ≥15min. In the logistic regression model for the entire cohort, NEW admission hospital mortality was only associated with NEW admission age and prehospital Glasgow Coma Scale (GCS) and Shock Index (SI) (all p<0.05). When TRU occupancy reached ≥16 patients, the factors associated with increased NEW admission hospital mortality were existing patients (TRU >1hour) with SI ≥0.9, recent admissions (TRU ≤1hour) with age ≥65, NEW admission age and prehospital GCS and SI (all p<0.05); Conclusion: The mortality of incoming patients is not impacted by routine trauma centre overcapacity. In conditions of severe overcrowding, the number of admitted patients with shock physiology and a recent surge of elderly/debilitated patients may influence the mortality risk of a new trauma admission UR - https://militaryhealth.bmj.com/content/168/3/212 ER -