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Journal Article

Citation

Meyers MC. Orthop. J. Sports Med. 2019; 7(3): e2325967119832878.

Affiliation

Department of Sport Science and Physical Education, Idaho State University, Pocatello, Idaho, USA.

Copyright

(Copyright © 2019, American Orthopaedic Society for Sports Medicine, Publisher SAGE Publishing)

DOI

10.1177/2325967119832878

PMID

30937317

PMCID

PMC6434442

Abstract

BACKGROUND: Artificial turf surfaces are developed to duplicate playing characteristics of natural grass. With the newer generations of sand and rubber infill systems, the infill is a common component that varies between fields and is a critical factor that could influence the player-surface interaction. Because the influence of infill weight on sport trauma is unknown, this study quantified American football trauma in high schools in the United States across artificial turf systems of various infill weights. HYPOTHESIS: Athletes would not experience differences in game-related injuries across artificial turf systems of various infill weights. STUDY DESIGN: Cohort study; Level of evidence, 2.

METHODS: Artificial turf systems were divided into 4 sand/rubber infill weight groups by pounds per square foot: ≥9.0, 6.0-8.9, 3.0-5.9, and 0.0-2.9. A total of 57 high schools in 4 states participated over the course of 5 seasons. Outcomes of interest included injury severity, as a function of infill weight, across head, knee, and shoulder traumas; injury category; primary type of injury; tissue type; specific body location of injury; cleat design; environmental factors; and turf age. Data were subject to multivariate analyses of variance (MANOVAs) and Wilks λ criteria through use of general linear model procedures.

RESULTS: Of 1837 games documented, 528 games were played on infill weights of ≥9.0 lb/ft2, 521 on 6.0-8.9 lb/ft2, 525 on 3.0-5.9 lb/ft2, and 263 on 0.0-2.9 lb/ft2, with 4655 total injuries reported. MANOVAs indicated significant infill weight effects across injury severity (F2,4648 = 5.087; P =.0001), with significant main effects also observed by injury category, tissue injured, lower extremity joint and muscle, cleat design, environmental factors, and turf age. Post hoc analyses indicated significantly lower (P <.05 to.0001) total and substantial traumas, concussions, shoe-surface interaction during contact trauma, surface impacts, muscle-tendon overload, cleat design influence, adverse weather trauma, lower extremity injuries, and turf age effect while athletes were competing on the 6.0 to ≥9.0 lb/ft2 infill weight systems compared with the lighter infill weight systems.

CONCLUSION: As infill surface weight decreased, football trauma significantly increased across numerous playing conditions. Based on findings, high school football fields should minimally contain 6.0 pounds of infill per square foot.


Language: en

Keywords

artificial surface; knee; trauma; turf

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