Female National Collegiate Athletic Association Division-I Athlete Injury Prediction by Vertical Countermovement Jump Force-Time Metrics.
Journal
Journal of strength and conditioning research
ISSN: 1533-4287
Titre abrégé: J Strength Cond Res
Pays: United States
ID NLM: 9415084
Informations de publication
Date de publication:
01 Apr 2024
01 Apr 2024
Historique:
medline:
21
3
2024
pubmed:
21
3
2024
entrez:
21
3
2024
Statut:
ppublish
Résumé
Merrigan, JJ, Stone, JD, Kraemer, WJ, Vatne, EA, Onate, J, and Hagen, JA. Female National Collegiate Athletic Association Division-I athlete injury prediction by vertical countermovement jump force-time metrics. J Strength Cond Res 38(4): 783-786, 2024-Vertical countermovement jump (CMJ) assessments on force plates have been purported to screen for musculoskeletal injury risk (MSKI) but with little scientific support. Thus, this study aimed to identify associations and noncontact lower-body injury predictability with CMJ force-time metrics in female athletes. The study entailed a retrospective analysis of routine injury and performance monitoring from 155 female National Collegiate Athletics Association Division I athletes. Noncontact lower-body injuries included in analysis were confirmed by medical staff, occurred during competition or training, resulted in time loss from training, and occurred within 3 months following CMJ testing (2 maximal effort, no arm swing, jumps on dual force plates). A total of 44 injuries occurred within 3 months following CMJ baseline testing and resulted in an average of 24.5 missed days from training. Those who sustained an injury were more likely to sustain another injury (15 of 44 injuries [33.1%]; odds ratio = 3.05 [95% CI = 1.31-6.99]). For every 1-unit increase from the mean in eccentric mean power and minimum eccentric force, there was a decrease in odds of sustaining a MSKI. Despite high overall model accuracy (85.6%), the receiving operating characteristic area under the curve (65.9%) was unacceptable and the true positive rate (recall) was 0.0%. Thus, no injuries in the testing data set were correctly classified by the logistic regression model with CMJ force-time metrics as predictors. Baseline CMJ assessment may not be useful for noncontact lower-body musculoskeletal injury screening or predictability in National Collegiate Athletics Association female athletes.
Identifiants
pubmed: 38513181
doi: 10.1519/JSC.0000000000004758
pii: 00124278-202404000-00020
doi:
Types de publication
Journal Article
Langues
eng
Sous-ensembles de citation
IM
Pagination
783-786Informations de copyright
Copyright © 2024 National Strength and Conditioning Association.
Références
Arnason A, Sigurdsson SB, Gudmundsson A, Holme I, Engebretsen L, Bahr R. Risk factors for injuries in football. Am J Sports Med 32: 5S–16S, 2004.
Barber Foss KD, Le Cara E, McCambridge T, Hinton RY, Kushner A, Myer GD. Epidemiology of injuries in women's lacrosse: Implications for sport-level-and sex-specific injury prevention strategies. Clin J Sport Med 28: 406–413, 2018.
Barber-Westin SD, Noyes FR, Smith ST, Campbell TM. Reducing the risk of noncontact anterior cruciate ligament injuries in the female athlete. Phys Sportsmed 37: 49–61, 2009.
Baumgart C, Hoppe MW, Freiwald J. Phase-specific ground reaction force analyses of bilateral and unilateral jumps in patients with ACL reconstruction. Orthop J Sports Med 5: 2325967117710912, 2017.
Beckham G, Suchomel T, Mizuguchi S. Force plate use in performance monitoring and sport science testing. New Stud Athl 29: 25–37, 2014.
Bird MB, Mi Q, Koltun KJ, et al. Unsupervised clustering techniques identify movement strategies in the countermovement jump associated with musculoskeletal injury risk during us marine corps officer candidates school. Front Physiol 13, 868002, 2022.
Bird MB, Koltun KJ, Mi Q, et al. Predictive utility of commercial grade technologies for assessing musculoskeletal injury risk in US Marine Corps Officer candidates. Front Physiol 14: 1088813, 2023.
Case MJ, Knudson DV, Downey DL. Barbell squat relative strength as an identifier for lower extremity injury in collegiate athletes. J Strength Cond Res 34: 1249–1253, 2020.
Chandran A, Morris SN, Boltz AJ, Robison HJ, Collins CL. Epidemiology of injuries in National Collegiate Athletic Association women's soccer: 2014–2015 through 2018–2019. J Athl Train 56: 651–658, 2021.
Clarsen B, Bahr R. Matching the choice of injury/illness definition to study setting, purpose and design: One size does not fit all! Br J Sports Med 48: 510–512, 2014.
Dane Ş, Can S, Gürsoy R, Ezirmik N. Sport injuries: Relations to sex, sport, injured body region. Percept Mot Skills 98: 519–524, 2004.
Fort-Vanmeerhaeghe A, Milà-Villarroel R, Pujol-Marzo M, Arboix-Alió J, Bishop C. Higher vertical jumping asymmetries and lower physical performance are indicators of increased injury incidence in youth team-sport athletes. J Strength Cond Res 36: 2204, 2211, 2022.
Gabbett TJ, Ullah S, Finch CF. Identifying risk factors for contact injury in professional rugby league players – application of a frailty model for recurrent injury. J Sci Med Sport 15: 496–504, 2012.
Hando BR, Scott WC, Bryant JF, Tchandja JN, Angadi SS. The use of force plate vertical jump scans to identify special warfare trainees at risk for musculoskeletal injury: A large cohort study. Am J Sports Med 50: 1687–1694, 2022.
Hodgson L, Gissane C, Gabbett TJ, King DA. For debate: Consensus injury definitions in team sports should focus on encompassing all injuries. Clin J Sport Med 17: 188–191, 2007.
Kerr ZY, Marshall SW, Dompier TP, Corlette J, Klossner DA, Gilchrist J. College sports–related injuries — United States, 2009–10 through 2013–14 academic years. MMWR Morb Mortal Wkly Rep 64: 1330–1336, 2015.
LaStayo PC, Woolf JM, Lewek MD, Snyder-Mackler L, Reich T, Lindstedt SL. Eccentric muscle contractions: Their contribution to injury, prevention, rehabilitation, and sport. J Orthop Sports Phys Ther 33: 557–571, 2003.
Merrigan JJ, Stone JD, Hornsby WG, Hagen JA. Identifying reliable and relatable force–time metrics in athletes—considerations for the isometric mid-thigh pull and countermovement jump. Sports 9: 4, 2020.
Merrigan JJ, Stone JD, Thompson AG, Hornsby WG, Hagen JA. Monitoring neuromuscular performance in military personnel. Int J Environ Res Public Health 17: 9147, 2020.
Merrigan JJ, Stone JD, Galster SM, Hagen JA. Analyzing force-time curves: Comparison of commercially available automated software and custom MATLAB analyses. J Strength Cond Res 36: 2387–2402, 2022.
Nedimyer AK, Boltz AJ, Robison HJ, Collins CL, Morris SN, Chandran A. Epidemiology of injuries in National Collegiate Athletic Association women's field hockey: 2014–2015 through 2018–2019. J Athl Train 56: 636–642, 2021.
Pedley JS, Lloyd RS, Read PJ, et al. Utility of kinetic and kinematic jumping and landing variables as predictors of injury risk: A systematic review. J Sci Sport Exerc 2: 287–304, 2020.
Pellegrini A, Lombardi M, Riva N, Combi F, Pecci C, Porcellini G. Injury analysis of a professional female soccer team in first division Italian season. J Sports Med Phys Fitness 61: 1369–1374, 2021.
Pontillo M, Hines SM, Sennett BJ. Prediction of ACL injuries from vertical jump kinetics in Division 1 collegiate athletes. Int J Sports Phys Ther 16: 156–161, 2021.
R Core Team. R: A Language and Environment for Statistical Computing. Vienna Austria: R Found. Stat. Comput; https://www.R-project.org (2023, Accessed June 16, 2023).
Roos KG, Marshall SW, Kerr ZY, et al. Epidemiology of overuse injuries in collegiate and high school athletics in the United States. Am J Sports Med 43: 1790–1797, 2015.
Roos KG, Wasserman EB, Dalton SL, et al. Epidemiology of 3825 injuries sustained in six seasons of National Collegiate Athletic Association men's and women's soccer (2009/2010–2014/2015). Br J Sports Med 51: 1029–1034, 2017.
Ryman Augustsson S, Ageberg E. Weaker lower extremity muscle strength predicts traumatic knee injury in youth female but not male athletes. BMJ Open Sport Exerc Med 3: e000222, 2017.
Tuominen M, Stuart MJ, Aubry M, Kannus P, Tokola K, Parkkari J. Injuries in women's international ice hockey: An 8-year study of the world championship tournaments and Olympic winter games. Br J Sports Med 50: 1406–1412, 2016.
Verschueren J, Tassignon B, De Pauw K, et al. Does acute fatigue negatively affect intrinsic risk factors of the lower extremity injury risk profile? A systematic and critical review. Sports Med 50: 767–784, 2020.
Visnes H, Aandahl HÅ, Bahr R. Jumper's knee paradox—jumping ability is a risk factor for developing jumper's knee: A 5-year prospective study. Br J Sports Med 47: 503–507, 2013.