Published on in Vol 7, No 1 (2019): January

Preprints (earlier versions) of this paper are available at https://preprints.jmir.org/preprint/11099, first published .
Assessing the Validity of the MyJump2 App for Measuring Different Jumps in Professional Cerebral Palsy Football Players: An Experimental Study

Assessing the Validity of the MyJump2 App for Measuring Different Jumps in Professional Cerebral Palsy Football Players: An Experimental Study

Assessing the Validity of the MyJump2 App for Measuring Different Jumps in Professional Cerebral Palsy Football Players: An Experimental Study

Journals

  1. Bogataj Š, Pajek M, Hadžić V, Andrašić S, Padulo J, Trajković N. Validity, Reliability, and Usefulness of My Jump 2 App for Measuring Vertical Jump in Primary School Children. International Journal of Environmental Research and Public Health 2020;17(10):3708 View
  2. Balsalobre-Fernández C, Bishop C, Beltrán-Garrido J, Cecilia-Gallego P, Cuenca-Amigó A, Romero-Rodríguez D, Madruga-Parera M. The validity and reliability of a novel app for the measurement of change of direction performance. Journal of Sports Sciences 2019;37(21):2420 View
  3. Bogataj Š, Pajek M, Andrašić S, Trajković N. Concurrent Validity and Reliability of My Jump 2 App for Measuring Vertical Jump Height in Recreationally Active Adults. Applied Sciences 2020;10(11):3805 View
  4. Barbalho M, Kleiner A, Callegari B, de Lima R, da Silva Souza G, de Athayde Costa e Silva A, Coswig V. Assessing Interlimb Jump Asymmetry in Young Soccer Players: The My Jump 2 App. International Journal of Sports Physiology and Performance 2021;16(1):19 View
  5. Yanci J, Castillo D, Iturricastillo A, Aracama A, Roldan A, Reina R. Performance Analysis in Football-Specific Tests by Para-Footballers With Cerebral Palsy: Implications for Evidence-Based Classification. International Journal of Sports Physiology and Performance 2021;16(9):1328 View
  6. Svane C, Forman C, Rasul A, Nielsen C, Nielsen J, Lorentzen J. Quantitative MRI and Clinical Assessment of Muscle Function in Adults With Cerebral Palsy. Frontiers in Neurology 2021;12 View
  7. Jimenez-Olmedo J, Pueo B, Mossi J, Villalon-Gasch L. Reliability of My Jump 2 Derived from Crouching and Standing Observation Heights. International Journal of Environmental Research and Public Health 2022;19(16):9854 View
  8. VAN TITTELBOOM V, ALEMDAROĞLU-GÜRBÜZ I, HANSSEN B, PLASSCHAERT F, HEYRMAN L, FEYS H, DESLOOVERE K, CALDERS P, VAN DEN BROECK C. Reliability of functional tests of the lower limbs and core stability in children and adolescents with cerebral palsy. European Journal of Physical and Rehabilitation Medicine 2021;57(5) View
  9. Vieira A, Ribeiro G, Macedo V, de Araújo Rocha Junior V, Baptista R, Gonçalves C, Cunha R, Tufano J. Evidence of validity and reliability of Jumpo 2 and MyJump 2 for estimating vertical jump variables. PeerJ 2023;11:e14558 View
  10. Peña-González I, Javaloyes A, Sarabia J, Moya-Ramón M. Changes in Sprint Force–Velocity Profile in International Para Footballers. International Journal of Sports Physiology and Performance 2023:1 View
  11. Keskinoğlu C, Özgünen K, Aydın A. Designing and implementation of IMU-based wearable real-time jump meter for vertical jump height measurement. Transactions of the Institute of Measurement and Control 2023;45(14):2648 View
  12. Henríquez M, Campos-Campos K, Smith R, Aliste S, Riquelme S, Reina R. Comparison of the vertical jump performance of footballers with cerebral palsy at different competitive levels. European Journal of Adapted Physical Activity 2023;16:4 View
  13. Eek M, Augustsson J, Zügner R, Tranberg R. Single-leg vertical jumping in young adults with spastic cerebral palsy. Gait & Posture 2023;103:1 View
  14. Tallis J, Morris R, Duncan M, Eyre E, Guimaraes-Ferreira L. Agreement between Force Platform and Smartphone Application-Derived Measures of Vertical Jump Height in Youth Grassroots Soccer Players. Sports 2023;11(6):117 View
  15. Hara Y, Silva A, Sá K, Carpes F, Rossato M. BIOMECÂNICA DO ESPORTE ANTES E DEPOIS DOS JOGOS PARALIMPÍCOS RIO 2016. Revista Brasileira de Medicina do Esporte 2024;30 View
  16. Hara Y, Silva A, Sá K, Carpes F, Rossato M. SPORT BIOMECHANICS BEFORE AND AFTER THE RIO 2016 PARALYMPIC GAMES. Revista Brasileira de Medicina do Esporte 2024;30 View
  17. Stojiljković N, Stanković D, Pelemiš V, Čokorilo N, Olanescu M, Peris M, Suciu A, Plesa A. Validity and reliability of the My Jump 2 app for detecting interlimb asymmetry in young female basketball players. Frontiers in Sports and Active Living 2024;6 View
  18. Medeiros A, Silva G, Neto F, Simim M, Banja T, Coswig V, Afonso J, Ramos A, Mesquita I. Validity and reliability of My Jump 2® app to measure the vertical jump on elite women beach volleyball players. PeerJ 2024;12:e17387 View
  19. Tan E, Weng Onn S, Montalvo S. Measuring Vertical Jump Height With Artificial Intelligence Through a Cell Phone: A Validity and Reliability Report. Journal of Strength & Conditioning Research 2024;38(9):e529 View
  20. Peng Y, Sun S, Wang Y, Qin Y, Qin D. Reliability and validity of “My Jump 2” application for countermovement jump free arm and interlimb jump symmetry in different sports of professional athletes. PeerJ 2024;12:e17658 View
  21. CHNINI Z, SALEM A, TRABELSI K, AMMAR A, SOUISSI N, CHTOUROU H. Light load jump squat and plyometric training enhance jumping, sprinting, change of direction, and balance performance of male soccer players (U-19): a randomized controlled trial. The Journal of Sports Medicine and Physical Fitness 2024;64(8) View
  22. Peña-González I, Henríquez M, García-Hernández J, Moya-Ramón M. Relationship between physical fitness parameters and match time motion performance in international footballers with cerebral palsy. International Journal of Performance Analysis in Sport 2024:1 View
  23. Balsalobre-Fernández C, Varela-Olalla D. The Validity and Reliability of the My Jump Lab App for the Measurement of Vertical Jump Performance Using Artificial Intelligence. Sensors 2024;24(24):7897 View