Prediction of Outcomes in Trauma: Anatomic or Physiologic Parameters?

Overview

Journal J Am Coll Surg

Specialties General Surgery
Gynecology & Obstetrics

Date 2005 Nov 29

PMID 16310692

Citations 19

Authors

James L Guzzo

Grant V Bochicchio

Lena M Napolitano

Debra L Malone

Walter Meyer

Thomas M Scalea

Affiliations

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Abstract

Background: Prediction of outcomes after injury has traditionally incorporated measures of injury severity, but recent studies suggest that including physiologic and shock measures can improve accuracy of anatomic-based models. A recent single-institution study described a mortality predictive equation [f(x) = 3.48 - .22 (GCS) - .08 (BE) + .08 (Tx) + .05 (ISS) + .04 (Age)], where GSC is Glasgow Coma Score, BE is base excess, Tx is transfusion requirement, and ISS is Injury Severity Score, which had 63% sensitivity, 94% specificity, (receiver operating characteristic [ROC] 0.96), but did not provide comparative data for other models. We have previously documented that the Physiologic Trauma Score, including only physiologic variables (systemic inflammatory response syndrome, Glasgow Coma Score, age) also accurately predicts mortality in trauma. The objective of this study was to compare the predictive abilities of these statistical models in trauma outcomes.

Methods: Area under the ROC curve of sensitivity versus 1-specificity was used to assess predictive ability and measured discrimination of the models.

Results: The study cohort consisted of 15,534 trauma patients (80% blunt mechanism) admitted to a Level I trauma center over a 3-year period (mean age 37 +/- 18 years; mean Injury Severity Score 10 +/- 10; mortality 4%). Sensitivity of the new predictive model was 45%, specificity was 96%, ROC was 0.91, validating this new trauma outcomes model in our institution. This was comparable with area under the ROC for Revised Trauma Score (ROC 0.88), Trauma and Injury Severity Score (ROC 0.97), and Physiologic Trauma Score (ROC 0.95), but superior compared with admission Glasgow Coma Score (ROC 0.79), Injury Severity Score (ROC 0.79), and age (ROC 0.60).

Conclusions: The predictive ability of this new model is superior to anatomic-based models such as Injury Severity Score, but comparable with other physiologic-based models such as Revised Trauma Score, Physiologic Trauma Score and Trauma, and Injury Severity Score.

Citing Articles

Prediction of Mortality and Outcome of Various Trauma Scores in Polytrauma Patients.

Besra R, Toppo S, Bodra P, Kujur A, Tudu M, Bharti B Cureus. 2024; 16(9):e69992.

PMID: 39445290 PMC: 11498667. DOI: 10.7759/cureus.69992.

Performance validation of different trauma scoring systems among polytrauma patients having predominantly blunt abdominal trauma.

Yadav M, Nagar M, Joshi A, Gupta A J Family Med Prim Care. 2020; 9(6):2866-2870.

PMID: 32984140 PMC: 7491821. DOI: 10.4103/jfmpc.jfmpc_377_20.

Determinants of Outcome of Abdominal Trauma in an Urban Tertiary Center.

Agbroko S, Osinowo A, Jeje E, Atoyebi O Niger J Surg. 2019; 25(2):167-171.

PMID: 31579371 PMC: 6771180. DOI: 10.4103/njs.NJS_2_19.

Potential Risk Factors for In-Hospital Mortality in Patients with Moderate-to-Severe Blunt Multiple Trauma Who Survive Initial Resuscitation.

Yucel N, Ozturk Demir T, Derya S, Oguzturk H, Bicakcioglu M, Yetkin F Emerg Med Int. 2019; 2018:6461072.

PMID: 30595921 PMC: 6282151. DOI: 10.1155/2018/6461072.

Prognostic predictors of early mortality from exsanguination in adult trauma: a Malaysian trauma center experience.

Huei T, Mohamad Y, Tan Chor Lip H, Md Noh N, Alwi R Trauma Surg Acute Care Open. 2018; 2(1):e000070.

PMID: 29766083 PMC: 5877896. DOI: 10.1136/tsaco-2016-000070.