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Abstract #150677
Audio (mp3) recordingStephen W. Marshall, PhD, Epidemiology, University of North Carolina, CB # 7435, Chapel Hill, NC 27599-7435, 919-966-1320, smarshal@email.unc.edu, Jill Corlette, MS, ATC, Injury Surveillance System, National Collegiate Athletic Association, P.O. Box 6222, Indianapolis, IN 46206-6222, Julie Agel, MA, Department of Orthopaedic Surgery, University of Minnesota, 100 Church St SE # 202, Minneapolis, MN 55454, and Randall Dick, NCAA, P.O. Box 6222, Indianapolis, IN 46206-6222.
Purpose: It is common in injury surveillance to calculate injury rates and their confidence intervals. However, standard statistical methods assume that rates follow a Poisson distribution, which is often not true in injury surveillance data, and thus the confidence intervals produced using standard methods are too narrow. This presentation discusses an alternative method based on negative binomial regression. Methods: We analyzed data from 15 collegiate sports collected by the National Collegiate Athletic Association's Injury Surveillance System (ISS) over 15 years (1988-89 to 2002-03). We compared confidence intervals computed from the ISS data using three methods: 1) standard formula (no model), 2) Poisson regression, and 3) the NB1 negative binomial regression model. Results: We used the game-to-practice rate ratio to compare the three methods (it is well-established that there is a higher rate of injury in games relative to practices in most sports). The game-to-practice rate ratios produced using standard formula and Poisson regression were identical (RR=6.65; 95%CI: 6.58, 6.73; CLR: 1.02). This confidence interval is too narrow, because the NCAA injury rates have a higher variance than predicted by the Poisson distribution (so-called “over-dispersion”). The game-to-practice rate ratio produced using NB1 negative binomial regression was 6.65 (95%CI: 6.41, 6.91; CLR: 1.08). NB1 negative binomial regression provides a more realistic (i.e. wider) confidence interval than standard statistical methods. Conclusion: NB1 negative binomial regression outperforms standard statistical methods. Users of injury surveillance data should be aware that confidence intervals for injury rates may be too narrow if computed using standard statistical methods.
Learning Objectives:
- Describe NB1 negative binomial regression and its application to injury surveillance.
- Discuss the NCAA Injury Surveillance System of data collection.
- Evaluate the performance of standard statistical methods for injury surveillance data.
Keywords: Injury, Surveillance
Presenting author's disclosure statement:
Any relevant financial relationships? No
Any institutionally-contracted trials related to this submission?
I agree to comply with the American Public Health Association Conflict of Interest and Commercial Support Guidelines, and to disclose to the participants any off-label or experimental uses of a commercial product or service discussed in my presentation.
The 135th APHA Annual Meeting & Exposition (November 3-7, 2007) of APHA