BACKGROUND: The National Field Triage Guidelines were created to inform triage decisions by emergency medical services (EMS) providers and include eight anatomic injuries that prompt transportation to a Level I/II trauma center. It is unclear how accurately EMS providers recognize these injuries. Our objective was to compare EMS-identified anatomic triage criteria with International Classification of Diseases-10th revision (ICD-10) coding of these criteria, as well as their association with trauma center need (TCN). METHODS: Scene patients 16 years and older in the NTDB during 2017 were included. National Field Triage Guidelines anatomic criteria were classified based on EMS documentation and ICD-10 diagnosis codes. The primary outcome was TCN, a composite of Injury Severity Score greater than 15, intensive care unit admission, urgent surgery, or emergency department death. Prevalence of anatomic criteria and their association with TCN was compared in EMS-identified versus ICD-10-coded criteria. Diagnostic performance to predict TCN was compared. RESULTS: There were 669,795 patients analyzed. The ICD-10 coding demonstrated a greater prevalence of injury detection. Emergency medical service-identified versus ICD-10-coded anatomic criteria were less sensitive (31% vs. 59%), but more specific (91% vs. 73%) and accurate (71% vs. 68%) for predicting TCN. Emergency medical service providers demonstrated a marked reduction in false positives (9% vs. 27%) but higher rates of false negatives (69% vs. 42%) in predicting TCN from anatomic criteria. Odds of TCN were significantly greater for EMS-identified criteria (adjusted odds ratio, 4.5; 95% confidence interval, 4.46-4.58) versus ICD-10 coding (adjusted odds ratio 3.7; 95% confidence interval, 3.71-3.79). Of EMS-identified injuries, penetrating injury, flail chest, and two or more proximal long bone fractures were associated with greater TCN than ICD-10 coding. CONCLUSION: When evaluating the anatomic criteria, EMS demonstrate greater specificity and accuracy in predicting TCN, as well as reduced false positives compared with ICD-10 coding. Emergency medical services identification is less sensitive for anatomic criteria; however, EMS identify the most clinically significant injuries. Further study is warranted to identify the most clinically important anatomic triage criteria to improve our triage protocols. LEVEL OF EVIDENCE: Care management, Level IV; Prognostic, Level III.
BACKGROUND: The National Field Triage Guidelines were created to inform triage decisions by emergency medical services (EMS) providers and include eight anatomic injuries that prompt transportation to a Level I/II trauma center. It is unclear how accurately EMS providers recognize these injuries. Our objective was to compare EMS-identified anatomic triage criteria with International Classification of Diseases-10th revision (ICD-10) coding of these criteria, as well as their association with trauma center need (TCN). METHODS: Scene patients 16 years and older in the NTDB during 2017 were included. National Field Triage Guidelines anatomic criteria were classified based on EMS documentation and ICD-10 diagnosis codes. The primary outcome was TCN, a composite of Injury Severity Score greater than 15, intensive care unit admission, urgent surgery, or emergency department death. Prevalence of anatomic criteria and their association with TCN was compared in EMS-identified versus ICD-10-coded criteria. Diagnostic performance to predict TCN was compared. RESULTS: There were 669,795 patients analyzed. The ICD-10 coding demonstrated a greater prevalence of injury detection. Emergency medical service-identified versus ICD-10-coded anatomic criteria were less sensitive (31% vs. 59%), but more specific (91% vs. 73%) and accurate (71% vs. 68%) for predicting TCN. Emergency medical service providers demonstrated a marked reduction in false positives (9% vs. 27%) but higher rates of false negatives (69% vs. 42%) in predicting TCN from anatomic criteria. Odds of TCN were significantly greater for EMS-identified criteria (adjusted odds ratio, 4.5; 95% confidence interval, 4.46-4.58) versus ICD-10 coding (adjusted odds ratio 3.7; 95% confidence interval, 3.71-3.79). Of EMS-identified injuries, penetrating injury, flail chest, and two or more proximal long bone fractures were associated with greater TCN than ICD-10 coding. CONCLUSION: When evaluating the anatomic criteria, EMS demonstrate greater specificity and accuracy in predicting TCN, as well as reduced false positives compared with ICD-10 coding. Emergency medical services identification is less sensitive for anatomic criteria; however, EMS identify the most clinically significant injuries. Further study is warranted to identify the most clinically important anatomic triage criteria to improve our triage protocols. LEVEL OF EVIDENCE: Care management, Level IV; Prognostic, Level III.
Authors: Craig D Newgard; Rongwei Fu; Dana Zive; Tom Rea; Susan Malveau; Mohamud Daya; Jonathan Jui; Denise E Griffiths; Lynn Wittwer; Ritu Sahni; K Dean Gubler; Jonathan Chin; Pat Klotz; Stephanie Somerville; Tina Beeler; T J Bishop; Tara N Garland; Eileen Bulger Journal: J Am Coll Surg Date: 2015-11-14 Impact factor: 6.113
Authors: Michael A Horst; Shreya Jammula; Brian W Gross; Alan D Cook; Eric H Bradburn; Juliet Altenburg; Danielle Von Nieda; Madison Morgan; Frederick B Rogers Journal: J Trauma Acute Care Surg Date: 2018-03 Impact factor: 3.313
Authors: E Brooke Lerner; Jennifer Roberts; Clare E Guse; Manish N Shah; Robert Swor; Jeremy T Cushman; Alan Blatt; Gregory J Jurkovich; Karen Brasel Journal: Prehosp Emerg Care Date: 2013-04-29 Impact factor: 3.077
Authors: Francis X Guyette; Eric N Meier; Craig Newgard; Barbara McKnight; Mohamud Daya; Eileen M Bulger; Judy L Powell; Karen J Brasel; Jeffery D Kerby; Debra Egan; Michael Sise; Raul Coimbra; Timothy C Fabian; David B Hoyt Journal: J Trauma Acute Care Surg Date: 2015-03 Impact factor: 3.313
Authors: R J Mullins; J Veum-Stone; M Helfand; M Zimmer-Gembeck; J R Hedges; P A Southard; D D Trunkey Journal: JAMA Date: 1994 Jun 22-29 Impact factor: 56.272
Authors: E Brooke Lerner; Brian D Willenbring; Ronald G Pirrallo; Karen J Brasel; Charles E Cady; M Riccardo Colella; Arthur Cooper; Jeremy T Cushman; David M Gourlay; Gregory J Jurkovich; Craig D Newgard; Jeffrey P Salomone; Scott M Sasser; Manish N Shah; Robert A Swor; Stewart C Wang Journal: J Trauma Acute Care Surg Date: 2014-04 Impact factor: 3.313
Authors: Andrew-Paul Deeb; Heather M Phelos; Andrew B Peitzman; Timothy R Billiar; Jason L Sperry; Joshua B Brown Journal: J Trauma Acute Care Surg Date: 2020-07 Impact factor: 3.697