References
- Noonan VK, Fingas M, Farry A, et al. Incidence and prevalence of spinal cord injury in Canada: a national perspective. Neuroepidemiology. 2012;38(4):219–226.
- World Health Organization. Spinal cord injury [Internet]. 2013 [cited 2020 May 12]. Available from: https://www.who.int/news-room/fact-sheets/detail/spinal-cord-injury
- Harvey LA. Physiotherapy rehabilitation for people with spinal cord injuries. J Physiother. 2016;62(1):4–11.
- Unger J, Singh H, Mansfield A, et al. The experiences of physical rehabilitation in individuals with spinal cord injuries: a qualitative thematic synthesis. Disabil Rehabil. 2019;41(12):1367–1383.
- Behrman AL, Bowden MG, Nair PM. Neuroplasticity after spinal cord injury and training: an emerging paradigm shift in rehabilitation and walking recovery. Phys Ther. 2006;86(10):1406–1425.
- Burns AS, Marino RJ, Flanders AE, et al. Clinical diagnosis and prognosis following spinal cord injury. Handb Clin Neurol. 2012;109:47–62.
- Behrman AL, Ardolino EM, Harkema SJ. Activity-based therapy: from basic science to clinical application for recovery after spinal cord injury. J Neurol Phys Ther. 2017;41(Suppl 3):S39–S45.
- Galea MP, Dunlop SA, Geraghty T, and SCIPA Switch-On Trial Collaborators, et al. SCIPA full-on: a randomized controlled trial comparing intensive whole-body exercise and upper body exercise after spinal cord injury. Neurorehabil Neural Repair. 2018;32(6–7):557–567.
- Dolbow DR, Gorgey AS, Ketchum JM, et al. Home-based functional electrical stimulation cycling enhances quality of life in individuals with spinal cord injury. Top Spinal Cord Inj Rehabil. 2013;19(4):324–329.
- Quel de Oliveira C, Refshauge K, Middleton J, et al. Effects of activity-based therapy interventions on mobility, independence, and quality of life for people with spinal cord injuries: a systematic review and meta-analysis. J Neurotrauma. 2017;34(9):1726–1743.
- Griffin L, Decker MJ, Hwang JY, et al. Functional electrical stimulation cycling improves body composition, metabolic and neural factors in persons with spinal cord injury. J Electromyogr Kinesiol. 2009;19(4):614–622.
- de Oliveira CQ, Middleton JW, Refshauge K, et al. Activity-based therapy in a community setting for independence, mobility, and sitting balance for people with spinal cord injuries. J Cent Nerv Syst Dis. 2019;11:1179573519841623.
- Singh H, Shah M, Flett HM, et al. Perspectives of individuals with sub-acute spinal cord injury after personalized adapted locomotor training. Disabil Rehabil. 2018;40(7):820–828.
- Calder A, Nunnerley J, Mulligan H, et al. Experiences of persons with spinal cord injury undertaking a physical activity programme as part of the SCIPA ‘Full-On’ randomised controlled trial. Disabil Health J. 2018;11(2):267–273.
- Sandelowski M. Whatever happened to qualitative description? Res Nurs Health. 2000;23(4):334–340.
- Quigley A, Baxter L, Keeler L, et al. Using the Theoretical Domains Framework to identify barriers and facilitators to exercise among older adults living with HIV. AIDS Care. 2019;31(2):163–168.
- Atkins L, Francis J, Islam R, et al. A guide to using the Theoretical Domains Framework of behaviour change to investigate implementation problems. Implement Sci. 2017;112(1):77.
- Flicker S, Nixon SA. The DEPICT model for participatory qualitative health promotion research analysis piloted in Canada, Zambia and South Africa. Health Promot Int. 2015;30(3):616–624.
- Hsieh HF, Shannon SE. Three approaches to qualitative content analysis. Qual Health Res. 2005;15(9):1277–1288.
- Malterud K, Siersma VD, Guassora AD. Sample size in qualitative interview studies: guided by information power. Qual Health Res. 2016;26(13):1753–1760.
- Roberts TT, Leonard GR, Cepela DJ. Classifications in brief: American Spinal Injury Association (ASIA) Impairment Scale. Clin Orthop Relat Res. 2017;475(5):1499–1504.
- Martin R, Sadowsky C, Obst K, et al. Functional electrical stimulation in spinal cord injury: from theory to practice. Top Spinal Cord Inj Rehabil. 2012;18(1):28–33.
- Effing TW, van Meeteren NL, van Asbeck FW, et al. Body weight-supported treadmill training in chronic incomplete spinal cord injury: a pilot study evaluating functional health status and quality of life. Spinal Cord. 2006;44(5):287–296.
- Hubscher CH, Herrity AN, Williams CS, et al. Improvements in bladder, bowel and sexual outcomes following task-specific locomotor training in human spinal cord injury. PLoS One. 2018;13(1):e0190998.
- Andresen SR, Biering-Sørensen F, Hagen EM, et al. Pain, spasticity and quality of life in individuals with traumatic spinal cord injury in Denmark. Spinal Cord. 2016;54(11):973–979.
- Piatt JA, Nagata S, Zahl M, et al. Problematic secondary health conditions among adults with spinal cord injury and its impact on social participation and daily life. J Spinal Cord Med. 2016;39(6):693–698.
- Williams TL, Smith B, Papathomas A. Physical activity promotion for people with spinal cord injury: physiotherapists' beliefs and actions. Disabil Rehabil. 2018;40(1):52–61.
- Kirshblum S, Fichtenbaum J. Breaking the news in spinal cord injury. J Spinal Cord Med. 2008;31(1):7–12.
- Morrison SA, Lorenz D, Eskay CP, et al. Longitudinal recovery and reduced costs after 120 sessions of locomotor training for motor incomplete spinal cord injury. Arch Phys Med Rehabil. 2018;99(3):555–562.
- Novick G. Is there a bias against telephone interviews in qualitative research? Res Nurs Health. 2008;31(4):391–398.