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13. Gardiner B, Devereux G, Beato M. Injury risk and injury incidence injuries: a cross-sectional study. J Sports Med Phys Fitness. 2020;60
rates in CrossFit. J Sports Med Phys Fitness. 2020;60(7):1005–1013. (6):889–894.
14. Gean RP, Martin RD, Cassat M, Mears SC. A systematic review 42. Martinez-Gomez R, Valenzuela PL, Moral-Gonzalez S, Lucia A, Bar-
and meta-amalysis of injuries in CrossFit. J Surg Orthop Adv. 2020; ranco-Gil D. Effects of an injury prevention program in CrossFit ath-
29(1):26–30. letes: a pilot randomized controlled trial. Int J Sports Med. 2021; in
15. Rodriguez MA, Garcia-Calleja P, Terrados N, Crespo I, delValle M, press.
Olmedillas H. Injuries in CrossFit: a systematic review of epidemiol- 43. Toledo R, Dias MR, Souza D et al. Joint and muscle injuries in men
ogy and risk factors. Phys Sportsmed. 2021; in press. and women CrossFit training participants. Phys Sportsmed. 2021; in
16. Moher D, Liberati A, Tetzlaff J, Altman DG, Group P. Preferred re- press.
porting items for systematic reviews and meta-analyses: the PRISMA 44. Bernstorff MA, Schumann N, Maai N, Schildhauer TA, Konigs hausen
statement. PLOS Med. 2009;6(7):e1000097. M. An analysis of sports-specific pain syndroms through inter-individual
17. Williams S, Booton T, Watson M, Rowland D, Altini M. Heart rate training differences in Cross-Fit. Sports. 2021;9:68.
variability is a moderating factor in the workload-injury relationship 45. Paiva TM, Kanas M, Astur N, Wajchenberg M, Filho DEM. Correla-
of competitive CrossFit athletes. J Sports Sci. 2017;16: 443–449. tion between previous sedentary lifestyle and CrossFit-related injuries.
18. NIH. Study quality assessment tools. Available at https://www.nhlbi.nih Einstein. 2021;19:eAO5941.
.gov/health-topics/study-quality-assessment-tools. Accessed: 27 Octo- 46. Grier T, Canham-Chervak M, McNulty V, Jones BH. Extreme condi-
ber, 2021 tioning programs and injury risk in a US Army Brigade Combat Team.
19. Huedo-Medina T, Sanchez-Meca J, Marin-Martinez F, Botella J. As- US Army Med Dep J. 2013;October-December:36–47.
2
sessing heterogeneity in meta-analysis: Q-statistic or I index? Psychol 47. Aune KT, Powers JM. Injuries in an extreme conditioning program.
Methods. 2006;11(2):193–206. Sports Health. 2016;9(1):52–58.
20. Duval S, Tweedie R. Trim and fill: a simple funnel-plot-based method 48. Batterson AM, Raegan RK, Schleck CD, Laskowski ER. Injury rate
of testing and adjusting for publication bias in meta-analysis. Biomet- and patterns in group strength-endurance classes. Mayo Clin Proc.
rics. 2000;56(2):455–463. 2020;95(3):468–475.
21. Begg CB, Mazumdar M. Operating characteristics of a rank order cor- 49. Teixeira RV, dantas M, deMatos D, et al. Respective study of risk
relation test for publication bias. Biometrics. 1994;50(4):1088–1101. factors and the prevalence of injuries in HIFT. Int J Sports Med. 2020;
22. Weisenthal BM, Beck CA, Maloney MD, DeHaven KE, Giordano 41:168–174.
BD. Injury rate and patterns among CrossFit athletes. Orthop J Sports 50. Haddock CK, Poston WSC, Heinrich KM, Jahnke SA, Jitnarin N. The
Med. 2014;2(4):2325967114531177. benefits of high-intensity functional training fitness programs for mili-
23. Sprey JWC, Ferreira T, deLima MV, Duarte A, Jorge PB, Santili C. An tary personnel. Milit Med. 2016;18(11/12):e1508–e1514.
epidemiological profile of CrossFit athletes in Brazil. Orthop J Sports 51. Hudson RW. The 25 most important Crossfit exercises(and how
Med. 2016;4(8):2325967116663706. to RX them all). Available at https://www.boxrox.com/important
24. Mehrab M, deVos RJ, Kraan GA, Mathijssen NMC. Injury incidence -crossfit-exercises/?nowprocket=1. Accessed: 1 December 2021, 2021
and patterns among Dutch CrossFit athletes. Orthop J Sports Med. 52. VanGent RN, Siem D, VanMiddelkoop M, VanOs AG, Bierma-
2017;5(12):2325967117745263. Zeinstra SMA, Koes BW. Incidence and determinants of lower ex-
25. Escalante G, Gentry CR, Kern BD, Waryasz GR. Injury patterns and tremity running injuries in long distance runners: a systematic review.
rates of Costa Rican CrossFit participants–a retrospective study. Med Br J Sports Med. 2007;41:469–480.
Sportiva. 2017;13(2):2927–2934. 53. Kakouris N, Yener N, Fong DTP. A systematic review of run-
26. Minghelli B, Vicente P. Musculoskeletal injuries in Portuguese Cross- ning-related musculoskeletal injuries in runners. J Sport Health Sci.
Fit parctitoners. J Sports Med Phys Fitness. 2019;59(7):1213–1220. 2021;10:513–522.
27. daCosta TS, Louzada CTN, Miyashita GK, et al. CrossFit: injury 54. Videbaek S, Bueno AM, Nielsen RO, Rasmussen S. Incidence of run-
prelanence and main risk factors. Clinics. 2019;74:e1402. ning-related injuries per 1000 h of running in different types of run-
28. Cheng TT, Mansor A, Lim YZ, Parash MTH. Injury inci- ners: a systematic review and meta-analysis. Sports Med. 2015;45:
dence, patterns, and risk factors in functional training ath- 1017–1026.
letes in an Asian population. Orthop J Sports Med. 2020;8(10): 55. Keogh JWL, Winwood PW. The epidemiology of injuries across the
2325967120957412. weight-training sports. Sports Med. 2017;47(3):479–501.
29. Tawfik A, Katt BM, Sirch F et al. A study of the incidence of hand or 56. Aasa U, Svartholm I, Andersson F, Berglund L. Injuries among
wrist injuries in CrossFit athletes. Cureus. 2021;13(3):e13818. weightlifters and powerlifters: a systematic review. Br J Sports Med.
30. Feito Y, Burrows EK, Tabb LP. A 4-year analysis of the incidence 2017;51:211–220.
of injury among CrossFit trained participants. Orthop J Sports Med. 57. Thomas RE, Thomas BE. A systematic review of injuries in gymnas-
2018;6(10):2325967118803100. tics. Phys Sportsmed. 2019;47(1):96–121.
31. Feito Y, Burrows E, Tabb L, Ciesielka KA. Breaking the myth of com- 58. Campbell RA, Bradshaw EJ, Ball NB, Pease DL, Spratford W. Injury
petition: a cross-sectional analysis of injuries among CrossFit trained epidemiology and risk factors in competitive artistic gynmastics: a sys-
participants. BMJ Open Sports Exerc Med. 2020;6:e000750. tematic review. Br J Sports Med. 2019;53:1056–1069.
32. Hak PT, Hodzovic E, Hickey B. The natureand prevalence of injury 59. Coughlin SS. Recall bias in epidemiologic studies. J Clin Epidemiol.
during CrossFit training. J Strength Condit Res. 2013; in press. 1990;43(1):87–91.
33. Chachula LA, Cameron KL, Svoboda SJ. Association of prior injury 60. Jenkins P, Earle-Richardson G, Slingerland DT, May J. Time depen-
with report of new injuries sustained during CrossFit training. Athl dent memory decay. Am J Ind Med. 2002;41:98–101.
Training Sports Health Care. 2016;8(1):28–34. 61. Kolber MJ, Beekhuizen KS, Cheng MSS, Hellman MA. Shoulder inju-
34. Moran S, Booker H, Staines J, Williams S. Rates and risk factors of ries attributed to resistance training: a brief review. J Strength Condit
injury in CrossFit: a prospective cohort study. J Sports Med Phys Fit- Res. 2010;24(6):1696–1704.
ness. 2017;57(9):1147–1153. 62. Calhoon G, Fry AC. Injury rates and profies of elite competitive
35. Montalvo AM, Shaefer H, Rodriguez B, Li T, Epnere K, Myer GD. weightlifters. J Athl Training. 1999;34(3):232–238.
Retrospective injury epidemiology and risk factors for injury in Cross- 63. Rhea MR, Landers DM, Alvar BA, Arent SM. The effects of competi-
Fit J Sports Sci. 2017;16:53–59. tion and the presence of an audience on weight lifting performance. J
36. Tafuri S, Salatino G, Napoletano PL, Monno A, Notarnicola A. Strength Condit Res. 2003;17(2):303–306.
The risk of injury among CrossFit athletes: an Italian observa- 64. Edwards AM, Dutton-Challis L, Cottrell D, Guy JH, Hettinga FJ. Im-
tional retrospective survey. J Sports Med Phys Fitness. 2019;59(9): pact of active and passive social facilitation on self-paced endurance
1544–1550. and sprint exercise: encouragement augments performance and moti-
37. Elkin JL, Kammerman JS, Kunselman AR, Gallo RA. Likelihood of vation to exercise. BMJ Open Sports Exerc Med. 2018;4:e000368.
injury and medical care between CrossFit and traditional weightlifting 65. Sheridan A, Marchant CC, Williams EL, Jones HS, Hewitt PA, Sparks
participants. Orthop J Sports Med. 2019;7(5):2325967119843348. A. Presence of spotters improves bench press performance: a decep-
38. Larsen RT, Hessner AL, Ishoi L, Langberg H, Christensen J. Injuries tion study. J Strength Condit Res. 2017;33(7):1755–1761.
in novice participants during an eight-week start up CrossFit Pro- 66. Rynecki ND, Siracuse BL, Ippolito JA, Beebe KS. Injuries sustained
gram: a prospective cohort study. Sports. 2020;8:21. during high intensity interval training: are modern fitness trends con-
39. Szeles PRQ, daCosta TS, daCunha RA et al. CrossFit and the epide- tributing to increased injury rates? J Sports Med Phys Fitness. 2019;
miology of musculoskeletal injuries. Orthop J Sports Med. 2020;8(3): 59:1206–1212.
2325967120908884. 67. Clarsen B, Ronsen O, Myklebust G, Florenes TW, Bahr R. The Oslo
40. Alekseyev K, John A, Malek A et al. Identifying the most common Sports Trauma Research Center questionnaire on health problems: a
CrossFit injuries in a variety of athletes. Rehabil Process Outcome. new approach to prospective monitoring of illness and injury in elite
2020;9:1–9. athletes. Br J Sports Med. 2013;48(9):754–760.
41. Lima PO, Souza MB, Sampaio TV, Almedia GP, Oliveira RR. Epi-
demiology and associated factors in CrossFit-related musculoskeletal

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