Biology of Sport
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3/2024
vol. 41
 
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Original paper

Biological maturity vs. relative age: Independent impact on physical performance in male and female youth handball players

Alfonso de la Rubia
1
,
Adam Leight Kelly
2
,
Jorge García-González
3
,
Jorge Lorenzo
1
,
Daniel Mon-López
1
,
Sergio Maroto-Izquierdo
4

1.
Deporte y Entrenamiento Research Group, Departamento de Deportes, Facultad de Ciencias de la Actividad Física y del Deporte, Universidad Politécnica de Madrid, Madrid, Calle Martín Fierro, 7. 28040, Spain
2.
Research Centre for Life and Sport Sciences (CLaSS), School of Health Sciences, Department of Sport and Exercise, Birmingham City University, Birmingham, West Midlands, UK
3.
Departamento de Ciencias Sociales, Facultad de Ciencias de la Actividad Física y del Deporte, Universidad Politécnica de Madrid, Madrid, Calle Martín Fierro, 7. 28040, Spain
4.
i+HeATLH, Strategic Research Group, Deparment of Health Sciences, European University Miguel de Cervantes. Valladolid, Calle del Padre Julio Chevalier, 2, 47012, Spain
Biol Sport. 2024; 41(3): 3–13
DOI: https://doi.org/10.5114/biolsport.2024.132999
Online publish date: 2023/12/20
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1. Spinger LS. Can I Make it ? Exploring the Transition Process into a Handball Academy in Germany. University of Thessaly; 2016.
2. Sweeney L, Horan D, MacNamara Á. Premature Professionalisation or Early Engagement? Examining Practise in Football Player Pathways. Front Sport Act Living. 2021; 3:1–9. doi/10.3389 /fspor.2021.660167/full.
3. Sweeney L, Cumming SP, MacNamara Á, et al. A tale of two selection biases: The independent effects of relative age and biological maturity on player selection in the Football Association of Ireland’s national talent pathway. Int J Sports Sci Coach. 2022; 174795412211261 . doi/10.1177/17479541221126152.
4. Radnor JM, Staines J, Bevan J, et al. Maturity Has a Greater Association than Relative Age with Physical Performance in English Male Academy Soccer Players. Sports. 2021; 9:171. doi/ 10.3390 /sports9120171.
5. Parr J, Winwood K, Hodson-Tole E, et al. The main and interactive effects of biological maturity and relative age on physical performance in elite youth soccer players. J Sports Med. 2020; 2020:1–11. doi.10.1155/2020/1957636.
6. Towlson C, MacMaster C, Parr J, et al. One of these things is not like the other: time to differentiate between relative age and biological maturity selection biases in soccer? Sci Med Footb. 2022; 6:273–276. doi/full/10.1080/2473393 8.2021.1946133.
7. Helsen WF, Baker J, Michiels S, et al. The relative age effect in European professional soccer: Did ten years of research make any difference? J Sport Sci. 2012; 30:1665–1671. doi/abs/10 .1080/02640414.2012.721929.
8. Musch J, Grondin S. Unequal Competition as an Impediment to Personal Development: A Review of the Relative Age Effect in Sport. Dev Rev. 2001; 21:147–167. doi/10.1006/drev .2000.0516.
9. Schorer J, Cobley S, Büsch D, et al. Influences of competition level, gender, player nationality, career stage and playing position on relative age effects. Scand J Med Sci Sports. 2009; 19:720–730. doi/10.1111/j.1600-0838.2008 .00838.x.
10. Wrang CM, Rossing NN, Diernæs RM, et al. Relative Age Effect and the Re-Selection of Danish Male Handball Players for National Teams. J Hum Kinet. 2018; 63:33–41. doi/10.2478/hukin -2018-0004.
11. de la Rubia A. El efecto de la edad relativa: la prevalencia y el impacto sobre el rendimiento en competición en jugadores de balonmano internacionales. Universidad Politécnica de Madrid; 2021. http://oa.upm.es/67999/.
12. Malina RM, Rogol AD, Cumming SP, et al. Biological maturation of youth athletes: assessment and implications. Br J Sports Med. 2015; 49:852–859. doi/10.1136/bjsports-2015-094623.
13. Soliman A, De Sanctis V, Elalaily R, et al. Advances in pubertal growth and factors influencing it: Can we increase pubertal growth? Indian J Endocrinol Metab 2014; 18:53. doi/10.4103/2230 -8210.145075.
14. Johnson A. Monitoring the immature athlete. Aspetar Sport Med J. 2015; 4:114–118.
15. Malina RM, Cumming SP, Rogol AD, et al. Bio-banding in youth sports: background, concept, and application. Sport Med. 2019; 49:1671–1685. doi.org/10.1007/s40279-019-01166-x.
16. Johnson A, Farooq A, Whiteley R. Skeletal maturation status is more strongly associated with academy selection than birth quarter. Sci Med Footb. 2017; 1:157–163. doi.org/10.10 80/24733938.2017.1283434.
17. Brown KA, Patel DR, Darmawan D. Participation in sports in relation to adolescent growth and development. Transl Pediatr. 2017; 6:150–159. doi/10.21037/tp.2017.04.03
18. Figueiredo AJ, Gonçalves CE, Coelho e Silva MJ, et al. Characteristics of youth soccer players who drop out, persist or move up. J Sport Sci. 2009; 27:883–891. doi/abs/10.1080/0264041090294 6469.
19. Malina RM, Ribeiro B, Aroso J, et al. Characteristics of youth soccer players aged 13–15 years classified by skill level. Br J Sports Med. 2007; 41:290–295. doi/10.1136/bjsm.2006.031294.
20. Cumming SP, Searle C, Hemsley JK, et al. Biological maturation, relative age and self-regulation in male professional academy soccer players: A test of the underdog hypothesis. Psychol Sport Exerc. 2018; 39:147–153. doi/10.1016/j.psychsport.2018.08.007
21. Hill M, Scott S, Malina RM, et al. Relative age and maturation selection biases in academy football. J Sport Sci. 2020; 38:1359–1367. doi/full/10.1080 /02640414.2019.1649524.
22. Massuca L, Branco B, Miarka B, et al. Physical Fitness Attributes of Team-Handball Players are Related to Playing Position and Performance Level. Asian J Sports Med. 2015; 6:2–6. doi/10.5812/asjsm.24712
23. de la Rubia A, Lorenzo-Calvo J, Lorenzo A. Does the Relative Age Effect Influence Short-Term Performance and Sport Career in Team Sports? A Qualitative Systematic Review. Front Psychol. 2020; 11:1–27. doi/10.3389 /fpsyg.2020.01947/full.
24. Smith KL, Weir PL, Till K, et al. Relative age effects across and within female sport contexts: A systematic review and meta-analysis. Sport Med. 2018; 48:1451–1478. doi.org/10.1007/s402 79-018-0890-8.
25. Massa M, Moreira A, A. Costa R, et al. Biological maturation influences selection process in youth elite soccer players. Biol Sport. 2022; 39:435–441. doi/10 .5114/biolsport.2022.106152.
26. Arede J, Cumming SP, Leite N. David Vs. Goliath Playing Against Maturity Matched or Un-Matched Opposition Results in Distinct Physical Performance and Spatial Exploration Behavior. J Sport Psychol. 2021; 30:56–62.
27. Baechle TR, Earle RW. Essentials of strength training and conditioning. Human Kinetics; 2008.
28. Epstein LH, Valoski AM, Kalarchian MA, et al. Do Children Lose and Maintain Weight Easier Than Adults: A Comparison of Child and Parent Weight Changes From Six Months to Ten Years. Obes Res. 1995; 3:411–417. doi/10.1002/j .1550-8528.1995.tb00170.x.
29. Stewart A, Marfell-Jones M, Olds T, et al. International society for the advancement of kinanthropometry: International standards for anthropometric assessment. Int. Soc. Adv. Kinanthropometry. 2011; 115.
30. Khamis HJ, Roche AF. Predicting adult stature without using skeletal age-the Khamis-Roche Method. Pediatrics. 1994; 94:504. doi.org/10.1542 /peds.94.4.504
31. Bayer LM, Bayley N. Growth diagnosis: Selected methods for interpreting and predicting physical development from one year to maturity. Oxford, England: Univer. Chicago Press; 1959.
32. Malina RM, Dompier TP, Powell JW, et al. Validation of a Noninvasive Maturity Estimate Relative to Skeletal Age in Youth Football Players. Clin J Sport Med. 2007; 17:362–368. doi/10.1097/JSM .0b013e31815400f4.
33. Drenowatz C, Wartha O, Klenk J, et al. Differences in Health Behavior, Physical Fitness, and Cardiovascular Risk in Early, Average, and Late Mature Children. Pediatr Exerc Sci. 2013; 25:69–83. doi/10.1123/pes.25.1.69
34. Pueo B, Penichet-Tomas A, Jimenez-Olmedo J. Reliability and validity of the Chronojump open-source jump mat system. Biol Sport. 2020; 37:255–259. doi/10.5114/biolsport .2020.95636.
35. Lloyd RS, Oliver JL. The Youth Physical Development Model. Strength Cond J. 2012; 34:61–72. doi/10.1519/SSC .0b013e31825760ea.
36. Read MM, Cisar C. The Influence of Varied Rest Interval Lengths on Depth Jump Performance. J. Strength Cond. Res. 2001; 15:279–283.
37. Pauole K, Madole K, Garhammer J, et al. Reliability and Validity of the T-Test as a Measure of Agility, Leg Power, and Leg Speed in College-Aged Men and Women. J. Strength Cond Res. 2000; 14:443–450. doi/10.1519/00124278 -200011000-00012.
38. Romero-Franco N, Jiménez-Reyes P, Castaño-Zambudio A, et al. Sprint performance and mechanical outputs computed with an iPhone app: Comparison with existing reference methods. Eur J Sport Sci. 2017; 17:386–392. doi.org/10.1080/174613 91.2016.1249031.
39. de la Rubia A, Ugalde-Ramírez A, Gutiérrez-Vargas R, et al. Does the New Resin-Free Molten d60 Ball Have an Impact on the Velocity and Accuracy of Handball Throws? Appl Sci. 2022; 13:425. doi/10.3390/app13010425.
40. Cohen J. Statistical power analysis for the behavioral science. 2nd Editio. New York: Lawrence Erlbaum Associates; 1988.
41. MacMaster C, Portas M, Parkin G, et al. The effect of bio-banding on the anthropometric, physical fitness and functional movement characteristics of academy soccer players. PLoS ONE. 2021; 16:1–16. doi.org/10.1371/ journal.pone.0260136.
42. Cumming SP, Lloyd RS, Oliver JL, et al. Bio-banding in sport: Applications to competition, talent identification, and strength and conditioning of youth athletes. Strength Cond J. 2017; 39:34–47. doi.10.5152/tjsm.2019.126
43. Malina RM, Eisenmann JC, Cumming SP, et al. Maturity-associated variation in the growth and functional capacities of youth football (soccer) players 13–15 years. Eur J Appl Physiol. 2004; 91:555–562. doi/10.1007/s00421-003-0995-z.
44. Stratton G, Oliver JL. The impact of growth and maturation on physical performance. Strength and Conditioning for Young Athletes. Routledge; 2019. p. 3–20.
45. Malina RM, Reyes MEP, Eisenmann JC, et al. Height, mass and skeletal maturity of elite Portuguese soccer players aged 11–16 years. J Sport Sci. 2000; 18:685–693. doi/abs/10.1080/026404 10050120069.
46. Meylan C, Cronin J, Oliver J, et al. Talent identification in soccer: The role of maturity status on physical, physiological and technical characteristics. Int J Sports Sci Coach. 2010; 5:571–592. doi/10.1260/1747-9541.5.4.571.
47. Schwesig R, Hermassi S, Fieseler G, et al. Anthropometric and physical performance characteristics of professional handball players: Influence of playing position. J Sports Med Phys Fitness. 2017; 57:1471–1478. doi.10.23736 /S0022-4707.16.06413-6.
48. Krüger K, Pilat C, Ückert K, et al. Physical Performance Profile of Handball Players Is Related to Playing Position and Playing Class. J Strength Cond Res. 2014; 28:117–125. doi/10.1519 /JSC.0b013e318291b713.
49. Giuriato M, Carnevale Pellino V, Lovecchio N, et al. Do maturation, anthropometrics and leg muscle qualities influence repeated change of direction performance in adolescent boys and girls? Biol Sport. 2023; 1033–1038. doi/10.5114/biolsport.2023.123322.
50. Ferragut C, Vila H, Abraldes JA, et al. Influence of Physical Aspects and Throwing Velocity in Opposition Situations in Top-Elite and Elite Female Handball Players. J Hum Kinet. 2018; 63:23–32. doi/10.2478/ hukin-2018-0003.
51. de la Rubia A, Lorenzo J, Rojas-Valverde D, et al. Bio-Banding in Handball: Academy Players’ Perceptions Based on Maturity Status and Gender. Int J Sports Med. 2023; 44: 871–881. doi:10.1055/a-2145-6454
Copyright: Institute of Sport. This is an Open Access article distributed under the terms of the Creative Commons CC BY License (https://creativecommons.org/licenses/by/4.0/). This license enables reusers to distribute, remix, adapt, and build upon the material in any medium or format, so long as attribution is given to the creator. The license allows for commercial use.
  
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