Tissue oxygen saturation predicts the development of organ dysfunction during traumatic shock resuscitation.

Abstract	BACKGROUND: Near-infrared spectroscopy (NIRS) can continuously and noninvasively monitor tissue oxygen saturation (StO2) in muscle and may be an indicator of shock severity. Our purpose was to evaluate how well StO2 predicted outcome in high-risk torso trauma patients presenting in shock. METHODS: The primary outcome in this prospective study was multiple organ dysfunction syndrome (MODS). StO2 data were obtained upon hospital arrival and for 24 hours along with other known predictors of hypoperfusion and clinical outcomes. Clinicians were blinded to StO2 measurements. RESULTS: Seven Level I trauma centers enrolled 383 patients, 50 of whom developed MODS. Minimum StO2 performed similarly to maximum base deficit (BD) in discrimination of MODS patients. The sensitivity for both measures (StO2 cutoff = 75%; BD cutoff = 6 mEq/L) was 78%, the specificity was 34% to 39%, the positive predictive value was 18% to 20% and the negative predictive value was 88% to 91%. StO2 and BD were also comparable in predicting death. CONCLUSIONS: NIRS-derived muscle StO2 measurements perform similarly to BD in identifying poor perfusion and predicting the development of MODS or death after severe torso trauma, yet have the additional advantages of being continuous and noninvasive.
Authors	Stephen M Cohn, Avery B Nathens, Frederick A Moore, Peter Rhee, Juan Carlos Puyana, Ernest E Moore, Gregory J Beilman, StO2 in Trauma Patients Trial Investigators
Journal	The Journal of trauma (J Trauma) Vol. 62 Issue 1 Pg. 44-54; discussion 54-5 (Jan 2007) ISSN: 0022-5282 [Print] United States
PMID	17215732 (Publication Type: Evaluation Study, Journal Article, Multicenter Study, Research Support, Non-U.S. Gov't)
Chemical References	Oxygen
Topics	Adolescent Adult Aged Aged, 80 and over Female Humans Logistic Models Male Middle Aged Monitoring, Physiologic (methods) Multiple Organ Failure (epidemiology, mortality, prevention & control) Muscle, Skeletal (metabolism) Oxygen (metabolism) Predictive Value of Tests Prospective Studies Resuscitation Sensitivity and Specificity Shock, Traumatic (diagnosis, physiopathology, therapy) Spectroscopy, Near-Infrared United States (epidemiology)

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