• Ortega, F. B., Ruiz, J. R., Castillo, M. J. & Sjöström, M. Physical fitness in childhood and adolescence: A powerful marker of health. Int. J. Obes. 32, 1–11 (2008).

    Article 

    Google Scholar
     

  • Hurtig-Wennlöf, A., Ruiz, J. R., Harro, M. & Sjöström, M. Cardiorespiratory fitness relates more strongly than physical activity to cardiovascular disease risk factors in healthy children and adolescents: the European Youth Heart Study. Eur. J. Prev. Cardiol. 14, 575–581 (2007).

    Article 

    Google Scholar
     

  • García-Hermoso, A., Ramírez-Campillo, R. & Izquierdo, M. Is muscular fitness associated with future health benefits in children and adolescents? A systematic review and meta-analysis of longitudinal studies. Sports Med. 49, 1079–1094 (2019).

    Article 

    Google Scholar
     

  • Fühner, T., Kliegl, R., Arntz, F., Kriemler, S. & Granacher, U. An update on secular trends in physical fitness of children and adolescents from 1972 to 2015: A systematic review. Sports Med. 51, 303–320 (2021).

    Article 

    Google Scholar
     

  • Lubans, D. et al. Physical activity for cognitive and mental health in youth: A systematic review of mechanisms. Pediatrics 138, 3 (2016).

    Article 

    Google Scholar
     

  • Eddolls, W. T. et al. The association between physical activity, fitness and body mass index on mental well-being and quality of life in adolescents. Qual. Life Res. 27, 2313–2320 (2018).

    Article 

    Google Scholar
     

  • Wouters, M., Evenhuis, H. M. & Hilgenkamp, T. I. Physical activity levels of children and adolescents with moderate-to-severe intellectual disability. J. Appl. Res. Intellect. Disabil. 32, 131–142 (2019).

    Article 

    Google Scholar
     

  • Yang, W., Liang, X. & Sit, C.H.-P. Physical activity and mental health in children and adolescents with intellectual disabilities: A meta-analysis using the RE-AIM framework. Int. J. Behav. Nutr. Phys. Act. 19, 1–15 (2022).

    Article 

    Google Scholar
     

  • Hinckson, E. A., Dickinson, A., Water, T., Sands, M. & Penman, L. Physical activity, dietary habits and overall health in overweight and obese children and youth with intellectual disability or autism. Res. Dev. Disabil. 34, 1170–1178 (2013).

    Article 

    Google Scholar
     

  • Hartman, E., Smith, J., Westendorp, M. & Visscher, C. Development of physical fitness in children with intellectual disabilities. J. Intellect. Disabil. Res. 59, 439–449 (2015).

    Article 

    Google Scholar
     

  • Salaun, L. & Berthouze-Aranda, S. E. Physical fitness and fatness in adolescents with intellectual disabilities. J. Appl. Res. Intellect. Disabil. 25, 231–239 (2012).

    Article 

    Google Scholar
     

  • Wouters, M., Evenhuis, H. M. & Hilgenkamp, T. I. M. Physical fitness of children and adolescents with moderate to severe intellectual disabilities. Disabil. Rehabil. (2020).

    Article 

    Google Scholar
     

  • Zhu, Z., Yang, Y., Kong, Z., Zhang, Y. & Zhuang, J. Prevalence of physical fitness in Chinese school-aged children: findings from the 2016 physical activity and fitness in China—The Youth Study. J. Sport Health Sci. 6, 395–403 (2017).

    Article 

    Google Scholar
     

  • Sit, C.H.-P. et al. Results from Hong Kong’s 2019 report card on physical activity for children and youth with special educational needs. J. Exerc. Sci. Fit. 18, 177–182 (2020).

    Article 

    Google Scholar
     

  • Wang, J. et al. Children with intellectual disability are vulnerable to overweight and obesity: A cross-sectional study among Chinese children. Child. Obes. 14, 316–326 (2018).

    Article 

    Google Scholar
     

  • Kriemler, S. et al. Effect of school-based interventions on physical activity and fitness in children and adolescents: A review of reviews and systematic update. Br. J. Sports Med. 45, 923–930 (2011).

    Article 

    Google Scholar
     

  • Dobbins, M., Husson, H., DeCorby, K. & LaRocca, R. L. School‐based physical activity programs for promoting physical activity and fitness in children and adolescents aged 6 to 18. Cochrane Database System. Rev. (2013).

    Article 

    Google Scholar
     

  • Wang, A. Interventions for health-related physical fitness and overweight and obesity in children with intellectual disability: Systematic review and meta-analysis. J. Appl. Res. Intell. Disabil. (2022).

    Article 

    Google Scholar
     

  • Yu, S. et al. Effectiveness of an adapted physical activity intervention for weight management in adolescents with intellectual disability: A randomized controlled trial. Pediatric Obes. 17, e12882 (2022).

    Article 

    Google Scholar
     

  • Cole, T. J., Bellizzi, M. C., Flegal, K. M. & Dietz, W. H. Establishing a standard definition for child overweight and obesity worldwide: International survey. BMJ (2000).

    Article 

    Google Scholar
     

  • Salaun, L., Reynes, E. & Berthouze-Aranda, S. E. Adapted physical activity programme and self-perception in obese adolescents with intellectual disability: Between morphological awareness and positive illusory bias. J. Appl. Res. Intellect. Disabil. 27, 112–124 (2014).

    Article 

    Google Scholar
     

  • Fernhall, B. O. et al. Prediction of maximal heart rate in individuals with mental retardation. Med. Sci. Sports Exerc. 33, 1655–1660 (2001).

    Article 

    Google Scholar
     

  • Rikli, R. E. & Jones, C. J. Senior Fitness Test Manual (Human Kinetics, 2013).


    Google Scholar
     

  • Frey, G. C. & Chow, B. Relationship between BMI, physical fitness, and motor skills in youth with mild intellectual disabilities. Int. J. Obes. 30, 861–867 (2006).

    Article 

    Google Scholar
     

  • Lee, S. Y. Handgrip strength: An irreplaceable indicator of muscle function. Ann. Rehabil. Med. 45, 167 (2021).

    Article 

    Google Scholar
     

  • Vaidya, S. & Nariya, D. M. Handgrip strength as a predictor of muscular strength and endurance: A cross-sectional study. J. Clin. Diagn. Res. 15, 1 (2021).


    Google Scholar
     

  • Blomqvist, S., Olsson, J., Wallin, L., Wester, A. & Rehn, B. Adolescents with intellectual disability have reduced postural balance and muscle performance in trunk and lower limbs compared to peers without intellectual disability. Res. Dev. Disabil. (2013).

    Article 

    Google Scholar
     

  • Organization, W. H. & Others. Global Physical Activity Questionnaire (GPAQ) Analysis Guide. (Geneva, 2012).

  • Raghuveer, G. et al. Cardiorespiratory fitness in youth: An important marker of health: A scientific statement from the American heart association. Circulation 142, e101–e118 (2020).

    Article 

    Google Scholar
     

  • Mintjens, S. et al. Cardiorespiratory fitness in childhood and adolescence affects future cardiovascular risk factors: A systematic review of longitudinal studies. Sports Med. 48, 2577–2605 (2018).

    Article 

    Google Scholar
     

  • Pinckard, K., Baskin, K. K. & Stanford, K. I. Effects of exercise to improve cardiovascular health. Front. Cardiovasc. Med. 6, 69 (2019).

    Article 
    ADS 

    Google Scholar
     

  • Lavie, C. J. et al. Exercise and the cardiovascular system: Clinical science and cardiovascular outcomes. Circ. Res. 117, 207–219 (2015).

    Article 
    ADS 

    Google Scholar
     

  • Pozuelo-Carrascosa, D. P., García-Hermoso, A., Álvarez-Bueno, C., Sánchez-López, M. & Martinez-Vizcaino, V. Effectiveness of school-based physical activity programmes on cardiorespiratory fitness in children: A meta-analysis of randomised controlled trials. Br. J. Sports Med. 52, 1234–1240 (2018).

    Article 

    Google Scholar
     

  • Sun, C. et al. Effects of school-based interventions for direct delivery of physical activity on fitness and cardiometabolic markers in children and adolescents: A systematic review of randomized controlled trials. Obes. Rev. 14, 818–838 (2013).

    Article 

    Google Scholar
     

  • Kong, Z. et al. Tai chi as an alternative exercise to improve physical fitness for children and adolescents with intellectual disability. Int. J. Environ. Res. Public Health (2019).

    Article 

    Google Scholar
     

  • Elmahgoub, S. S. et al. The effect of combined exercise training in adolescents who are overweight or obese with intellectual disability: The role of training frequency. J. Strength Cond. Res. (2011).

    Article 

    Google Scholar
     

  • Boer, P. H. et al. The influence of sprint interval training on body composition, physical and metabolic fitness in adolescents and young adults with intellectual disability: A randomized controlled trial. Clin. Rehabil. (2014).

    Article 

    Google Scholar
     

  • He, Q. et al. Physical activity, cardiorespiratory fitness, and obesity among Chinese children. Prev. Med. 52, 109–113 (2011).

    Article 
    ADS 

    Google Scholar
     

  • Wu, W. L. et al. Effectiveness of a cross-circuit exercise training program in improving the fitness of overweight or obese adolescents with intellectual disability enrolled in special education schools. Res. Dev. Disabil. (2017).

    Article 

    Google Scholar
     

  • Xu, C., Yao, M., Kang, M. & Duan, G. Improving physical fitness of children with intellectual and developmental disabilities through an adapted rhythmic gymnastics program in China. Biomed. Res. Int. 2020, 1–10 (2020).


    Google Scholar
     

  • Elmahgoub, S. M. et al. The influence of combined exercise training on indices of obesity, physical fitness and lipid profile in overweight and obese adolescents with mental retardation. Eur. J. Pediatr. (2009).

    Article 

    Google Scholar
     

  • Messiah, S. E. et al. Changes in cardiovascular health and physical fitness in ethnic youth with intellectual disabilities participating in a park-based afterschool programme for two years. J. Appl. Res. Intellect. Disabil. 32, 1478–1489 (2019).

    Article 

    Google Scholar
     

  • Wind, A. E., Takken, T., Helders, P. J. & Engelbert, R. H. Is grip strength a predictor for total muscle strength in healthy children, adolescents, and young adults?. Eur. J. Pediatr. 169, 281–287 (2010).

    Article 

    Google Scholar
     

  • Corbin, C. B. & Noble, L. Flexibility: A major component of physical fitness. J. Phys. Educ. Recreat. 51, 23–60 (1980).

    Article 

    Google Scholar
     

  • Stanish, H. I. & Temple, V. A. Efficacy of a peer-guided exercise programme for adolescents with intellectual disability. J. Appl. Res. Intellect. Disabil. 25, 319–328 (2012).

    Article 

    Google Scholar
     

  • Haney, K. et al. Park-based afterschool program to improve cardiovascular health and physical fitness in children with disabilities. Disabil. Health J. (2014).

    Article 

    Google Scholar
     

  • Fragala-Pinkham, M. A., Haley, S. M. & Goodgold, S. Evaluation of a community-based group fitness program for children with disabilities. Pediatr. Phys. Ther. 18, 159–167 (2006).

    Article 

    Google Scholar
     

  • Improving Physical Fitness of Children with Intellectual and Developmental Disabilities through an Adapted Rhythmic Gymnastics Program in China. https://www.hindawi.com/journals/bmri/2020/2345607/

  • Mayorga-Vega, D., Merino-Marban, R., Garrido, F. J. & Viciana, J. Comparison between warm-up and cool-down stretching programs on hamstring extensibility gains in primary schoolchildren. Phys. Act. Rev. 2, 16–24 (2014).


    Google Scholar
     

  • Collins, K. & Staples, K. The role of physical activity in improving physical fitness in children with intellectual and developmental disabilities. Res. Dev. Disabil. 69, 49–60 (2017).

    Article 

    Google Scholar
     

  • Neu, C. M., Rauch, F., Rittweger, J., Manz, F. & Schoenau, E. Influence of puberty on muscle development at the forearm. Am. J. Physiol. Endocrinol. Metabol. 283, E103–E107 (2002).

    Article 

    Google Scholar
     

  • Goswami, B., Roy, A. S., Dalui, R. & Bandyopadhyay, A. Impact of pubertal growth on physical fitness. Am. J. Sports Sci. Med. 2, 34–39 (2014).

    Article 

    Google Scholar
     

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