METHODS FOR MEASURING MUSCLE STRENGTH IN THE FUNCTIONAL CLASSIFICATION OF PARALYMPIC SPORTS: A SYSTEMATIC REVIEW

Authors

DOI:

https://doi.org/10.36311/2674-8681.2021.v22n2.p355-370

Keywords:

Adapted Physical Activity, Paralympic Sports, Paralympic Classification, Assessment Muscle Strength

Abstract

The classification system in Paralympic sport aims to group athletes with similar levels of impairment into sporting classes, for this is essential to use consistent assessment methods that are valid for the characteristics of each sport. However, some methods can generate different interpretations among classifiers, for that reason it is important to develop research to implement more accurate systems. For the assessment of strength, Manual Muscle Test techniques are used, which may present divergences among the classifiers. In this sense, this study aimed to identify the muscle strength assessment tests used for the functional classification of athletes with physical disabilities through a systematic review. National and international studies published between 2010 and May 2020 were investigated, including cross-sectional, randomized and case studies (more than two people). Eight studies were identified that met the inclusion criteria, referring to athletics, wheelchair basketball, swimming and wheelchair rugby. Among the segments measured, studies related to maximum isometric strength of the upper limbs, lower limbs and trunk were verified, which used handgrip dynamometers and load cells. It was shown that the choice of isometric variables is an adequate option, as it presents greater resistance to sports training when compared to isotonic and isokinetic tests. The methods presented were also considered valid and reliable for classification. Further research is suggested in different sports and populations, with larger sample numbers and other strength assessment tools.

Received on: 2021/10/20

Reformulated on: 2021/11/02

Accepted: 2021/11/02

 

 

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References

ALTMANN, V. C. et al.et al. Classifying trunk strength impairment according to the activity limitation caused in wheelchair rugby performance. Scandinavian Journal of Medicine & Science in Sports, v. 28, n. 2, p. 649-657, feb. 2018.

BECKMAN, E. M.; CONNICK, M. J.; TWEEDY, S. M.; Assessing Muscle Strength for the purpose of Classification in Paralympic Athletics: a review and recommendations. Journal of Science and Medicine in Sport, aug. 2016.

BECKMAN, E. M.; CONNICK, M. J.; TWEEDY, S. M. How much does lower body strength impact Paralympic running performance? European Journal of Sport Science, v. 16, n. 6, p. 669-676, sep. 2016. .

BECKMAN, E. M.; CONNICK, M. J.; TWEEDY, S. M.; Assessing Muscle Strength for the purpose of Classification in Paralympic Athletics: a review and recommendations. Journal of Science and Medicine in Sport, v. 20, n. 4, p. 391–396, 2017.

BECKMAN, E. M.; NEWCOMBE, P.; VANLANDEWIJCK, Y.; CONNICK, M. J.; TWEEDY, S. M. Novel strength test battery to permit evidence-based Paralympic classification. Medicine, v. 93, n. 4, 2014.

BEZODIS, I. N.; COWBURN, J.; BRAZIL, A.; RICHARDSON, R.; WILSON, C.; EXELL, T.; IRWIN, G. A biomechanical comparison of initial sprint acceleration performance and technique in an elite athlete with cerebral palsy and able-bodied sprinters. Sports Biomechanics, p. 1-12, 2018.

BEZODIS, N. E.; SALO, A. I. T.; TREWARTHA, G. Lower limb joint kinetics during the first stance phase in athletics sprinting: Three elite athlete case studies. Journal of Sports Sciences, v. 32, p. 738–746, 2014.

BOSMA, N.; VAN YPEREN, N. W. A Quantitative Study of the Impact of Functional Classification on Competitive Anxiety and Performance Among Wheelchair Basketball Athletes. Frontiers in Psychology, v. 11, 2020.

BRÜGGEMANN, G. P.; ARAMPATZIS, A.; EMRICH, F.; POTTHAST, W. Biomechanics of double transtibial amputee sprinting using dedicated sprinting prostheses. Sports Technology, v. 1, p. 220–227, 2008.

BURKETT, B. et al.et al. Performance Characteristics of Para Swimmers: How Effective is the Swimming Classification System? Physical Medicine and Rehabilitation Clinics of North America, v. 29, n. 2, p. 333-346, may. 2018.

CARDOSO, V. D.; GAYA, A. C. A Classificação Funcional no Esporte Paralímpico. Conexões: Educação Física, Esporte e Saúde, Campinas, v. 12, n. 2, p. 132-146, abr/jun. 2014.

CONNICK, M. J.; BECKMAN, E., VANLANDEWIJCK, Y., MALONE, L. A., BLOMQVIST, S.; TWEEDY, S. Met al. Cluster analysis of novel isometric strength measures produces a valid and evidence-based classification structure for wheelchair track racing. British Journal of Sports Medicine, v. 56, n. 17, p. 1123-1129, sep. 2018.

COOPER, R. A.; NOWAK, C. J. Paralympics and veterans. Journal of Rehabilitation Research and Development, v. 48, n. 10. 2011.

DALY, D.; MARTINES, J. In: SEIFERT, L.; CHOLLET, D.; MUJIKA, I. World Book of Swimming: From Science to Performance. Nova Science Publishers, 2010.

FLIESS D. O.; KOSEFF, D.; TWEEDY, S.; MOLIK, B.; VANLANDEWIJCK, Y. (2021). Challenges and opportunities in wheelchair basketball classification - A Delphi study. Journal of Sports Sciences, v. 39, p. 7-18, 2021.

IPC. International Paralympic Committee. Classification. Disponível em: <https://www.paralympic.org/classification>. Acesso em: 14 mai. 2020.

INTERNATIONAL WHEELCHAIR BASKETBALL FEDERATION. Official Player Classification Manual. 2018. Disponível em https://iwbf.org/wp-content/uploads/2020/10/Official-Player-Classification-Manual-2018.pdf (acesso em 20 de setembro de 2021).

HYDE, A. et al.et al. The impact of an assistive pole, seat configuration and strength in Paralympic seated throwing. International Journal of Sports Physiology and Performance, v.12, n. 7, p.977-983, aug. 2017.

HOGARTH, L. et al.et al. A battery of strength tests for evidence-based classification in Para swimming. Journal of Sports Sciences, v. 37, n. 4, p. 404-413, feb. 2019.

HUTCHINSON, M. J.; PHILLIPS, J. L. K.; MASON, B. S.; GOOSEY-TOLFREY, V. L.; BECKMAN, E. M. Measures of impairment applicable to the classification of Paralympic athletes competing in wheelchair sports: A systematic review of validity, reliability and associations with performance. Journal of Sports Sciences, 2020.

KOIKE, S.; NAGAI, Y. Dynamic contribution analysis on the propulsion mechanism of sprinter during initial acceleration phase. In: 33rd International Conference on Biomechanics in Sports, Poitiers, France, 2015.

LIRA, C. A. B. et al.et al. Relationship between aerobic and anaerobic parameters and functional classification in wheelchair basketball players. Scandinavian Journal of Medicine & Science in Sports, v. 20, n. 4, p. 638-43, aug. 2010.

LÔBO, I. L. B.; FREITAS, P. S.; SILVA, A. Classificação Esportiva Paralímpica. In: SILVA. A.; MELLO, M. T. Esporte Paralímpico da Organização ao Alto Rendimento. São Paulo: Editora dos Editores, 2021.

MASHKOVSKIY, E.; BRITTAIN, I. The evolution of classification and technical rules in parasports: extending the frontiers. Acta Universitatis Carolinae Kinanthropologica, v. 53, n. 1, p. 5–20. 2017.

MASON, B. S. et al.et al. Validity and reliability of isometric tests for the evidence-basedassessment of arm strength impairment in wheelchair rugby classification. Journal of Science and Medicine in Sport, dec. 2019.

MELLO, M. T.; WINCKLER, C. Esporte Paralímpico. São Paulo, Atheneu, 2012.

MOLIK, B.; LASKIN, J. J.; KOSMOL, A.; SKUCAS, K.; BIDA, U. (2010). Relationship between functional classification levels and anaerobic performance of wheelchair basketball athletes. Research Quarterly for Exercise and Sport, v. 81, n. 1, p. 69–73, 2010.

NOGUEIRA, C. D.; DANTAS, T. L. F. S. Classificação Funcional. In: DANTAS, J. B. et al.et al. Bocha Paralímpica: História, iniciação e avaliação. 1. ed. Curitiba: CRV, 2019. Cap. 3, p. 39-59.

PELAYO, P.; SIDNEY, M.; MORETTO, P.; WILLE, F.; CHOLLET, D. Stroking parameters in top level swimmers with a disability. Medicine and Science in Sports and Exercise, v. 31, n. 12, p. 1839-1843, 1999.

SANTOS, S. S. et al.et al. Trunk Function Correlates Positively with Wheelchair Basketball Player Classification. American Journal of Physical Medicine & Rehabilitation, v. 96, n. 2, p. 101-108, feb. 2017.

SAGAWA JÚNIOR, Y.; HAUPENTHAL, A.; BORGES JÚNIOR, N. G.; SANTOS, D. P.; WATELAIN, E. N. Análise da propulsão em cadeira de rodas manual: revisão de literatura. Fisioterapia e Movimento, v. 25, n. 1, p. 185-194, 2012.

SILVA, A.; VITAL, R. MELLO, M. T. Atuação da Fisioterapia no Esporte Paralímpico. Revista Brasileira de Medicina do Esporte, v. 22, n. 2, 2016.

TAYLOR, J. B.; SANTI, G.; MELLALIEU, S. D. Freestyle race pacing strategies (400 m) of elite able-bodied swimmers and swimmers with disability at major international championships. Journal of Sports Sciences, p. 1-8, 2016.

TWEEDY, S. M.; BECKMAN, E. M.; CONNICK, M. J. Paralympic Classification: Conceptual Basis, Current Methods, and Research Update. Paralympic Sports Medicine and Science, v. 6, p. 11-17, aug. 2014.

TWEEDY, S. M.; CONNICK, M. J.; BECKMAN, E. M. Applying Scientific Principles to Enhance Paralympic Classification Now and in the Future: A Research Primer for Rehabilitation Specialists. Physical Medicine and Rehabilitation Clinics of North America, v. 29, n. 2, p. 313-332, may. 2018.

TWEEDY, S. M.; MANN, D.; VANLANDEWIJCK, Y. C. Research needs for the development of evidence-based systems of classification for physical, vision, and intellectual impairments. In: TWEEDY, S. M.; THOMPSOM, W. R. Training and Coaching the Paralympic Athlete: Handbook of Sports Medicine and Science. Wiley-Blackwell. 2016.

TWEEDY, S. M.; VANLANDEWIJCK, Y. C. International Paralympic Committee position stand—background and scientific principles of classification in Paralympic sport. British Journal of Sports Medicine, v. 45, n. 4, 259-269. 2011.

TWEEDY, S. M.; WILLIAMS, G.; BOURKE, J. Selecting and Modifying Methods of Manual Muscle Testing for Classification in Paralympic Sport. European Journal of Adapted Physical Activity, v. 3, n. 2, p. 7-16. 2010.

VANLANDEWIJCK, Y. C. et al.et al. Trunk Strength Effect on Track Wheelchair Start: Implications for Classification. American College of Sports Medicine, v.43, n.12, p. 2344-2351, dez. 2011.

VIRTUS. World Intellectual Impairment Sport. A Guide to Eligibility and Classification for Athletes with an Intellectual Disability. Disponível em: <https://www.virtus.sport/wp-content/uploads/2010/11/Guide-to-Eligibility-and-Classification.pdf >. Acesso em: 16 mai. 2020.

Published

2021-11-12 — Updated on 2022-01-10

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How to Cite

PEREIRA, Alan Luiz; BASTOS LÔBO, Ingrid Ludimila; GUERREIRO , Renato Carvalho; STIELER, Eduardo; CRUZ , Aline Ângela da Silva; DE MELLO , Marco Túlio; SILVA, Andressa. METHODS FOR MEASURING MUSCLE STRENGTH IN THE FUNCTIONAL CLASSIFICATION OF PARALYMPIC SPORTS: A SYSTEMATIC REVIEW. JOURNAL OF THE BRAZILIAN SOCIETY FOR ADAPTED MOTOR ACTIVITY, Marília, SP, v. 22, n. 2, p. 355–370, 2022. DOI: 10.36311/2674-8681.2021.v22n2.p355-370. Disponível em: https://revistas.marilia.unesp.br/index.php/sobama/article/view/12627.. Acesso em: 21 nov. 2024.