References
- Hart DW, Wolf SE, Chinkes DL, et al. Determinants of skeletal muscle catabolism after severe burn. Ann Surg. 2000;232:455–465.
- Jeschke MG, Chinkes DL, Finnerty CC, et al. Pathophysiologic response to severe burn injury. Ann Surg. 2008;248:387–401.
- Hart DW, Wolf SE, Mlcak R, et al. Persistence of muscle catabolism after severe burn. Surgery. 2000;128:312–319.
- Ryan CM, Parry I, Richard R. Functional outcomes following burn injury. J Burn Care Res. 2017;38:e614–e7.
- Painter P. Exercise for patients with chronic disease: physician responsibility. Curr Sports Med Rep. 2003;2:173–180.
- Hardee JP, Porter C, Sidossis LS, et al. Early rehabilitative exercise training in the recovery from pediatric burn. Med Sci Sports Exerc. 2014;46:1710–1716.
- World Health Organization. International classification of functioning, disability and health: children & youth version (ICF-CY). Geneva, Switzerland. WHO Press, World Health Organization; 2007.
- Ortega FB, Ruiz JR, Castillo MJ, et al. Physical fitness in childhood and adolescence: a powerful marker of health. Int J Obes. 2008;32:1–11.
- Ruiz JR, Castro-Pinero J, Artero EG, et al. Predictive validity of health-related fitness in youth: a systematic review. Br J Sports Med. 2009;43:909–923.
- Stone J, Gawaziuk JP, Khan S, et al. Outcomes in adult survivors of childhood burn injuries as compared with matched controls. J Burn Care Res. 2016;37:e166–73.
- Duke JM, Randall SM, Fear MW, et al. Respiratory morbidity after childhood burns: a 10-year follow-up study. Pediatrics. 2016;138:e20161658.
- Duke JM, Randall SM, Fear MW, et al. Long-term effects of pediatric burns on the circulatory system. Pediatrics. 2015;136:e1323–30.
- Duke JM, Randall SM, Fear MW, et al. Increased admissions for musculoskeletal diseases after burns sustained during childhood and adolescence. Burns. 2015;41:1674–1682.
- Suman OE, Mlcak RP, Herndon DN. Effect of exercise training on pulmonary function in children with thermal injury. J Burn Care Rehabil. 2002;23:288–293; discussion 7.
- Suman OE, Thomas SJ, Wilkins JP, et al. Effect of exogenous growth hormone and exercise on lean mass and muscle function in children with burns. J Appl Physiol. 2003;94:2273–2281.
- Przkora R, Herndon DN, Suman OE. The effects of oxandrolone and exercise on muscle mass and function in children with severe burns. Pediatrics. 2007;119:e109–16.
- Porro LJ, Al-Mousawi AM, Williams F, et al. Effects of propranolol and exercise training in children with severe burns. J Pediatr. 2013;162:799–803 e1.
- Pena R, Ramirez LL, Crandall CG, et al. Effects of community-based exercise in children with severe burns: a randomized trial. Burns. 2016;42:41–47.
- Wurzer P, Voigt CD, Clayton RP, et al. Long-term effects of physical exercise during rehabilitation in patients with severe burns. Surgery. 2016;160:781–788.
- Hundeshagen G, Herndon DN, Clayton RP, et al. Long-term effect of critical illness after severe paediatric burn injury on cardiac function in adolescent survivors: an observational study. Lancet Child Adolesc Health. 2017;1:293–301.
- Rivas E, Herndon DN, Beck KC, et al. Children with burn injury have impaired cardiac output during submaximal exercise. Med Sci Sports Exerc. 2017;49:1993–2000.
- Clayton RP, Wurzer P, Andersen CR, et al. Effects of different duration exercise programs in children with severe burns. Burns. 2017;43:796–803.
- Chao T, Porter C, Herndon DN, et al. Propranolol and oxandrolone therapy accelerated muscle recovery in burned children. Med Sci Sports Exerc. 2018;50:427–435.
- Cambiaso-Daniel J, Rivas E, Carson JS, et al. Cardiorespiratory capacity and strength remain attenuated in children with severe burn injuries at over 3 years postburn. J Pediatr. 2018;192:152–158.
- Rivas E, Herndon DN, Chapa ML, et al. Children with severe burns display no sex differences in exercise capacity at hospital discharge or adaptation after exercise rehabilitation training. Burns. 2018;44:1187–1194.
- Rivas E, Tran J, Gutierrez IL, et al. Rehabilitation exercise increases physical activity levels in severely burned children while improving aerobic exercise capacity and strength. J Burn Care Res. 2018;39:881–886.
- Rivas E, Herndon DN, Porter C, et al. Short-term metformin and exercise training effects on strength, aerobic capacity, glycemic control, and mitochondrial function in children with burn injury. Am J Physiol Endocrinol Metab. 2018;314:E232–E40.
- Disseldorp LM, Mouton LJ, Van der Woude LH, et al. Anthropometry, muscular strength and aerobic capacity up to 5 years after pediatric burns. Burns. 2015;41:1839–1846.
- Valenciano PJ, Itakussu EY, Trelha CS, et al. Anthropometric characteristics, functional capacity of exercise, and physical activity of children who suffered burns. Fisioterapia e Pesquisa 2017;24:371–377.
- Akkerman M, Mouton LJ, Disseldorp LM, et al. Physical activity and sedentary behavior following pediatric burns – a preliminary investigation using objective activity monitoring. BMC Sports Science, Medicine and Rehabilitation 2018;10:4.
- Disseldorp LM, Mouton LJ, Takken T, et al. Design of a cross-sectional study on physical fitness and physical activity in children and adolescents after burn injury. BMC Pediatr. 2012;12:195.
- Bongers BC, de Vries SI, Obeid J, et al. The Steep Ramp Test in Dutch white children and adolescents: age- and sex-related normative values. Phys Ther. 2013;93:1530–1539.
- Bongers BC, DE Vries SI, Helders PJM, et al. The steep ramp test in healthy children and adolescents: reliability and validity. Med Sci Sports Exerc. 2013;45:366–371.
- Bongers BC, Werkman MS, Arets HG, et al. A possible alternative exercise test for youths with cystic fibrosis: the steep ramp test. Med Sci Sports Exerc. 2015;47:485–492.
- Braam KI, Van Dulmen-Den Broeder E, Veening MA, et al. Application of the steep ramp test for aerobic fitness testing in children with cancer. Eur J Phys Rehabil Med. 2015;51:547–555.
- Schokker DF, Hekkert KD, Kocken PL, et al. Meten van lichamelijke activiteit van kinderen: vragenlijsten vergeleken met versnellingsmeter. Tijds Gezondheidswetenschappen. 2012;90:434–441.
- van Baar ME, Essink-Bot ML, Oen IM, et al. Reliability and validity of the Dutch version of the American Burn Association/Shriners Hospital for Children Burn Outcomes Questionnaire (5-18 years of age). J Burn Care Res. 2006;27:790–802.
- Curtis AE, Smith TA, Ziganshin BA, et al. The mystery of the Z-score. Aorta (Stamford). 2016;4:124–130.
- Varni JW, Burwinkle TM, Seid M, et al. The PedsQL 4.0 as a pediatric population health measure: feasibility, reliability, and validity. Ambul Pediatr. 2003;3:329–341.
- Akkerman M, Mouton LJ, Dijkstra F, et al. Perceived fatigue following pediatric burns. Burns. 2017;43:1792–1801.
- TNO growth calculator for professionals [Internet]. Leiden, The Netherlands: TNO innovation for life; [cited 2017 Jun 6]. Available from: https://www.tno.nl/nl/aandachtsgebieden/gezond-leven/roadmaps/prevention-work-health/gezond-en-veilig-opgroeien/groeicalculator-voor-professionals/
- de Onis M, Lobstein T. Defining obesity risk status in the general childhood population: which cut-offs should we use? Int J Pediatr Obes. 2010;5:458–460.
- Nedelec B, Parry I, Acharya H, et al. Practice guidelines for cardiovascular fitness and strengthening exercise prescription after burn injury. J Burn Care Res. 2016;37:e539–e58.
- Tyack ZF, Ziviani J. What influences the functional outcome of children at 6 months post-burn? Burns. 2003;29:433–444.
- Bowser J, Martinez-Donate AP, Carrel A, et al. Disparities in fitness and physical activity among children. WMJ. 2016;115:245–250.
- Finger JD, Mensink GB, Banzer W, et al. Physical activity, aerobic fitness and parental socio-economic position among adolescents: the German Health Interview and Examination Survey for Children and Adolescents 2003-2006 (KiGGS). Int J Behav Nutr Phys Act. 2014;11:43.
- Cook BG, Li D, Heinrich KM. Obesity, physical activity, and sedentary behavior of youth with learning disabilities and ADHD. J Learn Disabil. 2015;48:563–576.
- Khalife N, Kantomaa M, Glover V, et al. Childhood attention-deficit/hyperactivity disorder symptoms are risk factors for obesity and physical inactivity in adolescence. J Am Acad Child Adolesc Psychiatry. 2014;53:425–436.
- Armbrust W, Bos G, Wulffraat NM, et al. Internet program for physical activity and exercise capacity in children with juvenile idiopathic arthritis: a multicenter randomized controlled trial. Arthritis Care Res (Hoboken). 2017;69:1040–1049.
- dos Santos MT, Moura SC, Gomes LM, et al. Telehealth application on the rehabilitation of children and adolescents. Rev Paul Pediatr. 2014;32:136–143.
- De Bourdeaudhuij I, Maes L, De Henauw S, et al. Evaluation of a computer-tailored physical activity intervention in adolescents in six European countries: the Activ-O-Meter in the HELENA intervention study. J Adolesc Health. 2010;46:458–466.
- Woude L, Groot S, Drongelen S, et al. Evaluation of manual wheelchair performance in everyday life. Topics Spinal Cord Injury Rehabil. 2009;15:1–15.