A Population-based Comparison of CIREN and NASS Cases Using Similarity Scoring

Overview

Journal Annu Proc Assoc Adv Automot Med

Specialties Emergency Medicine
General Medicine

Date 2008 Jan 11

PMID 18184504

Citations 4

Authors

Joel D Stitzel

Patrick Kilgo

Brian Schmotzer

H Clay Gabler

J Wayne Meredith

Affiliations

Soon will be listed here.

Abstract

The Crash Injury Research and Engineering Network (CIREN) provides significant details on injuries, and data on patient outcomes that is unavailable in the National Automotive Sampling System (NASS). However, CIREN cases are selected from specific Level I trauma centers with different inclusion criteria than those used for NASS, and the assertion that a given case is similar to the population of NASS cases is often made qualitatively. A robust, quantitative method is needed to compare CIREN to weighted NASS populations. This would greatly improve the usefulness and applicability of research conducted with data from the CIREN database. Our objective is to outline and demonstrate the utility of such a system to compare CIREN and NASS cases. This study applies the Mahalanobis distance metric methodology to determine similarity between CIREN and NASS/CDS cases. The Mahalanobis distance method is a multivariate technique for population comparison. Independent variables considered were total delta V, age, weight, height, maximum AIS, ISS, model year, gender, maximum intrusion, number of lower and upper extremity injuries, and number of head and chest injuries. The technique provides a unit-independent quantitative score which can be used to identify similarity of CIREN and NASS cases. Weighted NASS data and CIREN data were obtained for the years 2001-2005. NASS cases with Maximum AIS 3 resulted in a subset of 1,869 NASS cases, and 2,819 CIREN cases.

Citing Articles

Crash characteristics and injury patterns of restrained front seat occupants in far-side impacts.

Yoganandan N, Arun M, Halloway D, Pintar F, Maiman D, Szabo A Traffic Inj Prev. 2014; 15 Suppl 1:S27-34.

PMID: 25307394 PMC: 4435938. DOI: 10.1080/15389588.2014.935771.

Comparison of AIS 1990 update 98 versus AIS 2005 for describing PMHS injuries in lateral and oblique sled tests.

Yoganandan N, Pintar F, Humm J, Stadter G, Curry W, Brasel K Ann Adv Automot Med. 2014; 57:197-208.

PMID: 24406958 PMC: 3861828.

Demographics, Velocity Distributions, and Impact Type as Predictors of AIS 4+ Head Injuries in Motor Vehicle Crashes.

Yoganandan N, Fitzharris M, Pintar F, Stemper B, Rinaldi J, Maiman D Ann Adv Automot Med. 2011; 55:267-80.

PMID: 22105402 PMC: 3256840.

Aging is not a risk factor for femoral and tibial fractures in motor vehicle crashes.

Ryb G, Dischinger P, Kleinberger M, Burch C, Ho S Ann Adv Automot Med. 2008; 52:227-34.

PMID: 19026239 PMC: 3256764.

References

Scally J, McCullough C, Brown L, Eppinger R . Development of the Crash Injury Research and Engineering Network. Int J Trauma Nurs. 2000; 5(4):136-8. DOI: 10.1016/s1075-4210(99)90010-x. View

Benson E, Conroy C, Hoyt D, Eastman A, Pacyna S, Smith J . Calcaneal fractures in occupants involved in severe frontal motor vehicle crashes. Accid Anal Prev. 2007; 39(4):794-9. DOI: 10.1016/j.aap.2006.11.010. View

Wang S . Today's CIREN: news you can use. Ann Emerg Med. 2001; 38(2):182-3. DOI: 10.1067/mem.2001.jem1182. View

Siegel J, Loo G, Dischinger P, Burgess A, Wang S, Schneider L . Factors influencing the patterns of injuries and outcomes in car versus car crashes compared to sport utility, van, or pick-up truck versus car crashes: Crash Injury Research Engineering Network Study. J Trauma. 2001; 51(5):975-90. DOI: 10.1097/00005373-200111000-00024. View

Tencer A, Kaufman R, Ryan K, C Grossman D, Henley B, Mann F . Femur fractures in relatively low speed frontal crashes: the possible role of muscle forces. Accid Anal Prev. 2002; 34(1):1-11. DOI: 10.1016/s0001-4575(00)00097-x. View

Assal M, Huber P, Tencer A, ROHR E, Mock C, Kaufman R . Are drivers more likely to injure their right or left foot in a frontal car crash: a crash and biomechanical investigation. Annu Proc Assoc Adv Automot Med. 2002; 46:273-88. View

Siegel J, Smith J, Tenenbaum N, McCammon L, Siddiqi S, Presswalla F . Deceleration energy and change in velocity on impact: key factors in fatal versus potentially survivable motor vehicle crash (mvc) aortic injuries (AI): the role of associated injuries as determinants of outcome. Annu Proc Assoc Adv Automot Med. 2002; 46:315-38. View

Nirula R, Mock C, Kaufman R, Rivara F, Grossman D . Correlation of head injury to vehicle contact points using crash injury research and engineering network data. Accid Anal Prev. 2002; 35(2):201-10. DOI: 10.1016/s0001-4575(01)00104-x. View

Brookes C, Wang S, McWilliams J . Maxillofacial injuries in North American vehicle crashes. Eur J Emerg Med. 2003; 10(1):30-4. DOI: 10.1097/00063110-200303000-00009. View

10.

Wang S, Bednarski B, Patel S, Yan A, Kohoyda-Inglis C, Kennedy T . Increased depth of subcutaneous fat is protective against abdominal injuries in motor vehicle collisions. Annu Proc Assoc Adv Automot Med. 2003; 47:545-59. PMC: 3217555. View

11.

Augenstein J, Perdeck E, Stratton J, Digges K, Bahouth G . Characteristics of crashes that increase the risk of serious injuries. Annu Proc Assoc Adv Automot Med. 2003; 47:561-76. PMC: 3217552. View

12.

Dischinger P, Read K, Kerns T, Ho S, Kufera J, BURCH C . Causes and outcomes of mild traumatic brain injury: an analysis of CIREN data. Annu Proc Assoc Adv Automot Med. 2003; 47:577-89. PMC: 3217580. View

13.

Brookes C . Maxillofacial and ocular injuries in motor vehicle crashes. Ann R Coll Surg Engl. 2004; 86(3):149-55. PMC: 1964180. DOI: 10.1308/003588404323043247. View

14.

Acierno S, Kaufman R, Rivara F, Grossman D, Mock C . Vehicle mismatch: injury patterns and severity. Accid Anal Prev. 2004; 36(5):761-72. DOI: 10.1016/j.aap.2003.07.001. View

15.

Moran S, Key J, McGwin Jr G, Keeley J, Davidson J, Rue 3rd L . The applicability of a computer model for predicting head injury incurred during actual motor vehicle collisions. J Trauma. 2004; 57(1):99-103. DOI: 10.1097/01.ta.0000082152.28929.62. View

16.

Yoganandan N, Pintar F, Baisden J, Gennarelli T, Maiman D . Injury biomechanics of C2 dens fractures. Annu Proc Assoc Adv Automot Med. 2004; 48:323-37. PMC: 3217418. View

17.

Siegel J, Smith J, Siddiqi S . Change in velocity and energy dissipation on impact in motor vehicle crashes as a function of the direction of crash: key factors in the production of thoracic aortic injuries, their pattern of associated injuries and patient survival. A Crash.... J Trauma. 2004; 57(4):760-77. DOI: 10.1097/01.ta.0000147502.50248.c4. View

18.

Read K, Kufera J, Dischinger P, Kerns T, Ho S, Burgess A . Life-altering outcomes after lower extremity injury sustained in motor vehicle crashes. J Trauma. 2004; 57(4):815-23. DOI: 10.1097/01.ta.0000136289.15303.44. View

19.

. NHTSA Crash-Injury Research and Engineering Network. Ann Emerg Med. 1996; 28(4):450-1; discussion 451-2. View

20.

Schafer J . Multiple imputation: a primer. Stat Methods Med Res. 1999; 8(1):3-15. DOI: 10.1177/096228029900800102. View