Benefits of active videogames on health-related physical fitness parameters
Commentary in the times of quarantine
DOI:
https://doi.org/10.29193/RMU.36.4.11Keywords:
VIDEO GAMES, SEDENTARY BEHAVIOR, PHYSICAL ACTIVITY, ADOLESCENT, AGEDAbstract
We are currently living the SARS CoV2, COVID-19 pandemic, the highest recommendation being to stay at home to reduce the risk of contagion and thus disease transmission to the minimum. More than ever, technology is part of our daily life in this 21st century. Given the significant abuse of technology, in particular by adolescents, and considering our perspective that is grounded on promoting movement and reducing a sedentary lifestyle, we suggest using active videogames to substitute conventional ones. To that end, we have conducted a review of the main benefits of videogames on the younger population, as well as on older adults, who constitute one of the most affected sectors by the pandemic and were consequently strongly encouraged to stay at home. However, a recommendation is made to make a responsible use of active videogames and avoid investing excessive time, what may result in a negative impact.
References
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(25) Barnett A, Cerin E, Baranowski T. Active video games for youth: a systematic review. J Phys Act Heal 2011; 8(5):724-37.
(26) Biddiss E, Irwin J. Active video games to promote physical activity in children and youth: a systematic review. Arch Pediatr Adolesc Med 2010; 164(7):664-72.
(27) Williams WM, Ayres CG. Can active video games improve physical activity in adolescents? A review of RCT. Int J Environ Res Public Health 2020; 17(2):2-10.
(28) Lotan M, Yalon-Chamovitz S, Weiss PL. Virtual reality as means to improve physical fitness of individuals at a severe level of intellectual and developmental disability. Res Dev Disabil 2010; 31(4):869-74.
(29) Coyne C. Video games in the clinic: PTs report early results. Mag Phys Ther 2008; 16(5):22-8.
(30) Wüest S, van de Langenberg R, de Bruin ED. Design considerations for a theory-driven exergame-based rehabilitation program to improve walking of persons with stroke. Europ Rev Ag Phys Act 2014; 11(2):119-29
(31) Sparks D, Chase D, Coughlin L. Wii have a problem: a review of self-reported Wii related injuries. Inform Prim Care 2009; 17(1):55-7.
(2) World Health Organization. Global recommendations on physical activity for health. Geneva: WHO, 2010:58 p.
(3) Lee IM, Shiroma EJ, Lobelo F, Puska P, Blair SN, Katzmarzyk PT, et al. Effect of physical inactivity on major non-communicable diseases worldwide: an analysis of burden of disease and life expectancy. Lancet 2012; 380(9838):219-29.
(4) Blair SN, Gordon NF, Kohl HW, Paffenbarger RS. ¿Cuánta actividad física es buena para la salud? Annu Rev Public Health 1992; 13:99-126.
(5) Kohl HW 3rd, Craig CL, Lambert EV, Inoue S, Alkandari JR, Leetongin G, et al. The pandemic of physical inactivity: global action for public health. Lancet 2012; 380(9838):294-305.
(6) GBD 2015 Risk Factors Collaborators. Global, regional, and national comparative risk assessment of 79 behavioural, environmental and occupational, and metabolic risks or clusters of risks, 1990–2015: a systematic analysis for the Global Burden of Disease Study 2015. Lancet 2016; 388(10053):1659-724.
(7) Gentil P, Del Vecchio FB, Steele J. Exercise for health and disease: time to move ahead. Biomed Res Int 2017; 2017:18-9.
(8) Bock BC, Dunsiger SI, Ciccolo JT, Serber ER, Wu WC, Tilkemeier P, et al. Exercise videogames, physical activity, and health: wii heart fitness: a randomized clinical trial. Am J Prev Med 2019; 56(4):501-11.
(9) World Health Organization. Guidelines on physical activity, sedentary behaviour and sleep for children under 5 years of age. Geneva: WHO, 2019:33p. Disponible en: http://www.who.int/iris/handle/10665/311664 [Consulta: 16 febrero 2020].
(10) LeBlanc AG, Chaput JP, McFarlane A, Colley RC, Thivel D, Biddle SJH, et al. Active video games and health indicators in children and youth: a systematic review. PLoS One 2013; 8(6): e65351.
(11) van’t Riet J, Crutzen R, Lu AS. How effective are active videogames among the young and the old? Adding meta-analyses to two recent systematic reviews. Games Health J 2014; 3(5):311-8.
(12) Kracht C, Joseph E, Staiano A. Video games, obesity, and children. Curr Obes Rep 2020; 9(1):1-14.
(13) Moholdt T, Weie S, Chorianopoulos K, Wang AI, Hagen K. Exergaming can be an innovative way of enjoyable high-intensity interval training. BMJ Open Sport Exerc Med 2017; 3(1):e000258.
(14) Brito-Gomes JL de, Perrier-Melo RJ, Brito ADF, Costa MDC. Videogames ativos promovem benefícios cardiovasculares em adultos jovens? Ensaio clínico randomizado. Rev Bras Cienc Esporte 2018; 40(1):62-9. doi: doi.org/10.1016/j.rbce.2018.01.002.
(15) Fitzgerald SG, Cooper RA, Thorman T, Cooper R, Guo SF, Boninger ML. The GAME (Cycle) exercise system: comparison with standard ergometry. J Spinal Cord Med 2004; 27(5):453-9.
(16) Howe CA, Barr MW, Winner BC, Kimble JR, White JB. The physical activity energy cost of the latest active video games in young adults. J Phys Act Heal 2015; 12(2):171-7.
(17) Canabrava KLR, Faria FR, Lima JRP, Guedes DP, Amorim PRS. Energy expenditure and intensity of active video games in children and adolescents. Res Q Exerc Sport 2018; 89(1):47-56.
(18) Peng W, Lin JH, Crouse J. Is playing exergames really exercising? ? A meta-analysis of energy expenditure in active video games. Cyberpsychol Behav Soc Netw 2011;14(11):681-8.
(19) Lanningham-Foster L, Foster RC, McCrady SK, Jensen TB, Mitre N, Levine JA. Activity-promoting video games and increased energy expenditure. J Pediatr 2009; 154(6):819-23.
(20) Gomes GCV, Simões MDS, Lin SM, Bacha JMR, Viveiro LAP, Varise EM, et al. Feasibility, safety, acceptability, and functional outcomes of playing Nintendo Wii Fit PlusTM for frail older adults: a randomized feasibility clinical trial. Maturitas 2018; 118:20-2.
(21) Roero C, Carreño F, Gutierrez A, Zabala M. Efectos sobre la condición física y la salud de un videojuego dinámico: Eye Toy Kinetic. En: I Congreso Internacional de las Ciencias del Deporte. Pontevedra, España, 4-6 mayo 2006.
(22) Siegel SR, L Haddock B, Dubois AM, Wilkin LD. Active video/arcade games (exergaming) and energy expenditure in college students. Int J Exerc Sci 2009; 2(3):165-74.
(23) Saremi J. Win or lose: it’s how you play the game. Am Fit 2009; 27(5):12-4.
(24) Polechoński J, Dębska M, Dębski PG. Exergaming can be a health-related aerobic physical activity. Biomed Res Int 2019; 2019:1-7.
(25) Barnett A, Cerin E, Baranowski T. Active video games for youth: a systematic review. J Phys Act Heal 2011; 8(5):724-37.
(26) Biddiss E, Irwin J. Active video games to promote physical activity in children and youth: a systematic review. Arch Pediatr Adolesc Med 2010; 164(7):664-72.
(27) Williams WM, Ayres CG. Can active video games improve physical activity in adolescents? A review of RCT. Int J Environ Res Public Health 2020; 17(2):2-10.
(28) Lotan M, Yalon-Chamovitz S, Weiss PL. Virtual reality as means to improve physical fitness of individuals at a severe level of intellectual and developmental disability. Res Dev Disabil 2010; 31(4):869-74.
(29) Coyne C. Video games in the clinic: PTs report early results. Mag Phys Ther 2008; 16(5):22-8.
(30) Wüest S, van de Langenberg R, de Bruin ED. Design considerations for a theory-driven exergame-based rehabilitation program to improve walking of persons with stroke. Europ Rev Ag Phys Act 2014; 11(2):119-29
(31) Sparks D, Chase D, Coughlin L. Wii have a problem: a review of self-reported Wii related injuries. Inform Prim Care 2009; 17(1):55-7.
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Published
2020-12-01
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Corvos CA, Bizzozero Peroni B, Pintos-Toledo E, Fernández-Gimánez S, Brazo-Sayavera J. Benefits of active videogames on health-related physical fitness parameters: Commentary in the times of quarantine. Rev. Méd. Urug. [Internet]. 2020 Dec. 1 [cited 2024 Sep. 16];36(4):431-5. Available from: https://revista.rmu.org.uy/index.php/rmu/article/view/649
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