Test–retest reliability of the newly developed field-based tests focuses on short time efforts with maximal intensity for wheelchair basketball players

Marszałek, Jolanta; Kosmol, Andrzej; Morgulec-Adamowicz, Natalia; Mróz, Anna; Gryko, Karol; Molik, Bartosz

doi:10.5114/areh.2019.84185

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Artykuł - szczegóły

Czasopismo

Advances in Rehabilitation

2019 | 33 | 1 | 23-27

Tytuł artykułu

Test–retest reliability of the newly developed field-based tests focuses on short time efforts with maximal intensity for wheelchair basketball players

Autorzy

Jolanta Marszałek , Andrzej Kosmol , Natalia Morgulec-Adamowicz , Anna Mróz , Karol Gryko , Bartosz Molik

Treść / Zawartość

Pełne teksty:

-125-pdf-36273-10?filename=Test-retest Marszalek.pdf.pdf

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Warianty tytułu

Języki publikacji

Abstrakty

Introduction There are some studies concern special field-based tests for wheelchair basketball players however, there were not a lot of studies confirmed reliability and/or validity of wheelchair basketball field-based tests. The aim of the present study was to assess test-retest reliability of the newly developed field-based tests focused on short time efforts with maximal intensity for wheelchair basketball players. Material and methods Nine elite male wheelchair basketball players (mean age 29.7 ± 5.9 years) performed two times 11 field-based tests focused on short time efforts with the maximal intensity: 3 m sprint, 5 m sprint, 10 m sprint, 20 m sprint, pass basketball ball by both hands from the chest, pass medicine ball (3 kg) by both hands from the chest, bilateral handgrip, 3-6-9 m drill test, 30-seconds sprint test, agility drill test, and 10x5 m sprint test. All sprint tests’ time were measured by Microgate® photocells (Bolzano, Italy). Differences between field-based tests repetitions were compared by the t-test for dependent samples, relationship between repetitions was calculated by the Pearson correlation coefficient, and the ICCs were calculated (test-retest reliability). Results The ICCs were ‘very good’, correlations were strong for each field-based test (r > 0.7). Only for the agility drill test the first repetition is statistically different compare to the second repetition (p = .015). Conclusions The main application of our research is a confirmation of reliability of 10 field-based tests related to short time efforts with maximum intensity: 3 m sprint, 5 m sprint, 10 m sprint, 20 m sprint, pass basketball ball by both hands from the chest, pass medicine ball (3 kg) by both hands from the chest, bilateral handgrip, 3-6-9 m drill test, 30-seconds sprint test, and 10x5 m sprint test.

Słowa kluczowe

anaerobic performance athlete assessment evaluation

Czasopismo

Advances in Rehabilitation

Rocznik

2019

Tom

Numer

Strony

23-27

Opis fizyczny

Daty

wydano

2019-04-11

Twórcy

autor

Jolanta Marszałek

autor

Andrzej Kosmol

autor

Natalia Morgulec-Adamowicz

autor

Anna Mróz

autor

Karol Gryko

autor

Bartosz Molik

Bibliografia

de Witte AMH, Hoozemans MJM, Berger MAM, van der Slikke RMA, van der Woude LHV and Veeger D. Development, construct validity and test-retest reliability of a field-based wheelchair mobility performance test for wheelchair basketball. J Sports Sci. 2018; 36: 23-32.
Mason BS, Porcellato L, van der Woude LH and Goosey-Tolfrey VL. A qualitative examination of wheelchair configuration for optimal mobility performance in wheelchair sports: a pilot study. J Rehabil Med. 2010; 42: 141-9.
Goosey-Tolfrey VL and Leicht CA. Field-based physiological testing of wheelchair athletes. Sports Med. 2013; 43: 77-91.
Vanlandewijck YC, Daly DJ and Theisen DM. Field test evaluation of aerobic, anaerobic, and wheelchair basketball skill performances. Int J Sports Med. 1999; 20: 548-54.
De Groot S, Balvers IJ, Kouwenhoven SM and Janssen TW. Validity and reliability of tests determining performance-related components of wheelchair basketball. J Sports Sci. 2012; 30: 879-87.
Molik B, Kosmol A, Yilla AB and Wilson JR. Przegląd stosowanych testow sprawnosci fizycznej w koszykowce na wozkach. [Review of adopted physical fitness tests for wheelchair basketball). Adv Rehab. 2008; 22: 21-31.
Yanci J, Granados C, Otero M, Badiola A, Olasagasti J, Bidaurrazaga-Letona I, et al. Sprint, agility, strength and endurance capacity in wheelchair basketball players. Biol Sport. 2015; 32: 71-8.
Coutts KD. Dynamics of wheelchair basketball. Med Sci Sports Exerc. 1992; 24: 231-4.
Goosey-Tolfrey VL. Physiological Profiles of Elite Wheelchair Basketball Players in Preparation for the 2000 Paralympic Games. Adapt Phys Activ Q. 2005; 22: 57-66.
Hutzler Y, Vanlandewijck YC and Van Vlierberghe M. Anaerobic Performance of Older Female and Male Wheelchair Basketball Players on a Mobile Wheelchair Ergometer. Adapt Phys Activ Q. 2000; 17: 450-65.
International Wheelchair Basketball Federation. Official Player Classification Manual. 2014.
Marszałek J, Kosmol A, Morgulec-Adamowicz N, Mróz A, Gryko K, Klavina A, et al. Laboratory and non-laboratory assessment of anaerobic performance of elite male wheelchair basketball athletes. Front Psychol. 2019; in press, doi: 10.3389/fpsyg.2019.00514.
Bowling A. Research methods in health. Investigating health and health services. Buckingham: Open University Press, Philadelphia, 2002.
Landis J and Koch G. The measurement of observer agreement for categorical data. Biometrics. Biometrics. 1977;33:159-74.

Typ dokumentu

Bibliografia

Identyfikatory

DOI

10.5114/areh.2019.84185

Identyfikator YADDA

bwmeta1.element.doi-10_5114_areh_2019_84185