ارتقای ایمنی و پیشگیری از مصدومیت ها

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Hiller CE, Nightingale EJ, Lin C-WC, Coughlan GF, Caulfield B, Delahunt E. Characteristics of people with recurrent ankle sprains: a systematic review with meta-analysis. British Journal of Sports Medicine. 2011;45(8):660-72.

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Palmieri-Smith RM, Ty Hopkins J, Brown TN. Peroneal activation deficits in persons with functional ankle instability. The American Journal of Sports Medicine. 2009;37(5):982-8.

Wang J, Zhang D, Zhao T, Ma J, Jin S. Effectiveness of balance training in patients with chronic ankle instability: protocol for a systematic review and meta-analysis. BMJ Open. 2021;11(9):e053755.

Kosik KB, McCann RS, Terada M, Gribble PA. Therapeutic interventions for improving self-reported function in patients with chronic ankle instability: a systematic review. British Journal of Sports Medicine. 2017;51(2):105-12.

Holt CJ, McKay CD, Truong LK, Le CY, Gross DP, Whittaker JL. Sticking to it: a scoping review of adherence to exercise therapy interventions in children and adolescents with musculoskeletal conditions. Journal of Orthopaedic & Sports Physical Therapy. 2020;50(9):503-15.

Ambrosino P, Iannuzzi GL, Formisano R, Spedicato GA, D'Abrosca V, Di Gioia L, et al. Exergaming as an additional tool in rehabilitation of young patients with rheumatoid arthritis: a pilot randomized controlled trial. Games for Health Journal. 2020;9(5):368-75.

Andrade A, Correia CK, Coimbra DR. The psychological effects of exergames for children and adolescents with obesity: a systematic review and meta-analysis. Cyberpsychology, Behavior, and Social Networking. 2019;22(11):724-35.

Fang Q, Ghanouni P, Anderson SE, Touchett H, Shirley R, Fang F, et al. Effects of exergaming on balance of healthy older adults: a systematic review and meta-analysis of randomized controlled trials. Games for Health Journal. 2020;9(1):11-23.

Rovini E, Maremmani C, Cavallo F. Automated systems based on wearable sensors for the management of Parkinson's disease at home: A systematic review. Telemedicine and e-Health. 2019;25(3):167-83.

Deutsch JE, Guarrera-Bowlby P, Myslinski MJ, Kafri M. Is there evidence that active videogames increase energy expenditure and exercise intensity for people poststroke and with cerebral palsy?. Games for Health Journal. 2015;4(1):31-7.

Staiano AE, Flynn R. Therapeutic uses of active videogames: a systematic review. Games for Health Journal. 2014;3(6):351-65.

Garcia-Munoz C, Casuso-Holgado M. Effectiveness of Wii Fit Balance board in comparison with other interventions for post-stroke balance rehabilitation. Systematic review and meta-analysis. Revista de Neurologia. 2019;69(7):271-9.

Cooper T, Williams JM. Does an exercise programme integrating the Nintendo Wii-Fit Balance Board improve balance in ambulatory children with cerebral palsy?. Physical Therapy Reviews. 2017;22(5-6):229-37.

Elkins MR, Moseley AM, Sherrington C, Herbert RD, Maher CG. Growth in the Physiotherapy Evidence Database (PEDro) and use of the PEDro scale. British Journal of Sports Medicine; 2013;47(4):188-9.

Ranjbarzadeh Yamchi F, Letafatkar A, Esmaeilpour S. The Effect of 8 Weeks Virtual Reality Training on Static and Dynamic Balance and Performance in Male Athletes With Functional Ankle Instabilit. Physical Treatments-Specific Physical Therapy Journal. 2021;11(1):45-54.

Kim K, Choi B, Lim W. The efficacy of virtual reality assisted versus traditional rehabilitation intervention on individuals with functional ankle instability: a pilot randomized controlled trial. Disability and Rehabilitation: Assistive Technology. 2019;14(3):276-80.

Kim KJ. Effects of virtual reality programs on proprioception and instability of functional ankle instability. Journal of International Academy of Physical Therapy Research. 2015;6(2):891-5.

Kim K-J, Heo M. Comparison of virtual reality exercise versus conventional exercise on balance in patients with functional ankle instability: a randomized controlled trial. Journal of Back and Musculoskeletal Rehabilitation. 2019;32(6):905-11.

Punt I, Ziltener JL, Monnin D, Allet L. W ii F it™ exercise therapy for the rehabilitation of ankle sprains: Its effect compared with physical therapy or no functional exercises at all. Scandinavian Journal of Medicine & Science in Sports. 2016;26(7):816-23.

Punt IM, Armand S, Ziltener J-L, Allet L. Effect of Wii Fit™ exercise therapy on gait parameters in ankle sprain patients: A randomized controlled trial. Gait & Posture. 2017;58:52-8.

Shousha TM, Abo-zaid NA, Hamada HA, Abdelsamee MYA, Behiry MA. Virtual reality versus Biodex training in adolescents with chronic ankle instability: a randomized controlled trial. Archives of Medical Science. 2021;1(2):1-10.

Mohammadi N, Hadian M-R, Olyaei G-R. Comparison of the effects of Wii and conventional training on functional abilities and neurocognitive function in basketball-players with functional ankle instability: Matched randomized clinical trial. Clinical Rehabilitation. 2021;35(10):1454-64.

Mohammadi N, Hadian M-R, Olyaei G. The Effects of Wii Fit Plus Training on Functional Ability in Athletes with Functional Ankle Instability. Sports Orthopaedics and Traumatology. 2020;36(1):52-9.

Vernadakis N, Derri V, Tsitskari E, Antoniou P. The effect of Xbox Kinect intervention on balance ability for previously injured young competitive male athletes: a preliminary study. Physical Therapy in Sport. 2014;15(3):148-55.

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Wikstrom EA, Tillman MD, Chmielewski TL, Cauraugh JH, Naugle KE, Borsa PA. Self-assessed disability and functional performance in individuals with and without ankle instability: a case control study. Journal of Orthopaedic & Sports Physical Therapy. 2009;39(6):458-67.

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