Anwary, AR, Yu, H, Vassallo, M. An automatic gait feature extraction method for identifying gait asymmetry using wearable sensors. Sensors. 2018, 18: 676.
Google Scholar | Crossref Argent, R, Daly, A, Caulfield, B (2018) Patient involvement with home-based exercise programs: can connected health interventions influence adherence? JMIR mHealth and uHealth 6: e47.
Google Scholar | Crossref | Medline Bassett, SF . The assessment of patient adherence to physiotherapy rehabilitation. NZ J Physiother. 2003, 31: 60–6.
Google Scholar Ellis, B, Bruton, A, Goddard, JR. Joint angle measurement: a comparative study of the reliability of goniometry and wire tracing for the hand. Clin Rehab. 1997, 11: 314–20.
Google Scholar | SAGE Journals | ISI Fennema, M, Bloomfield, R, Lanting, B, Birmingham, T, Teeter, M. Repeatability of measuring knee flexion angles with wearable inertial sensors. The Knee. 2019, 26: 97–105.
Google Scholar | Crossref | Medline Ge, M, Chen, J, Zhu, Z, Shi, P, Yin, L, Xia, L. Wrist rom measurements using smartphone photography: reliability and validity. Hand Surg Rehab. 2020, 39: 261–4.
Google Scholar | Crossref | Medline HAKIR – Handkirugiskt kvalitetsregister (Swedish hand surgery quality register). Manual for motion and strength. The Swedish Society for Surgery of the Hand (SHF), 2016. Available at: https://hakir.se (accessed 7 January 2021).
Google Scholar Hales, G, Keating, R, Bear, N, Warren, K, Otter, S. Reliability of a smartphone goniometer app compared with traditional goniometer for measuring passive motion at the first metatarsophalangeal joint. J Foot Ankle Res. 2015, 8: 12.
Google Scholar | Crossref | Medline Jones, A, Sealey, R, Crowe, M, Gordon, S. Concurrent validity and reliability of the simple goniometer iphone app compared with the universal goniometer. Physiother Theory Practice. 2014, 30: 512–6.
Google Scholar | Crossref | Medline Kim, TS, Park, DDH, Lee, YB, et al.A study on the measurement of wrist motion range using the iphone 4 gyroscope application. Annals Plast Surg. 2014, 73: 215–8.
Google Scholar | Crossref | Medline | ISI Norkin CC, White DJ. Measurement of joint motion: a guide to goniometry. Philadelphia: FA Davis Company, 2016.
Google Scholar Pourahmadi, MR, Ebrahimi Takamjani, I, Sarrafzadeh, J, et al.Reliability and concurrent validity of a new iphone® goniometric application for measuring active wrist range of motion: A cross-sectional study in asymptomatic subjects. J Anatomy. 2017, 230: 484–95.
Google Scholar | Crossref | Medline Rome, K, Cowieson, F. A reliability study of the universal goniometer, fluid goniometer, and electrogoniometer for the measurement of ankle dorsiflexion. Foot & Ankle Int. 1996, 17: 28–32.
Google Scholar | SAGE Journals | ISI Shin, SH, Lee, O-S, Oh, JH, Kim, SH. Within-day reliability of shoulder range of motion measurement with a smartphone. Man Ther. 2012, 17: 298–304.
Google Scholar | Crossref | Medline Talbot, LA, Gaines, JM, Huynh, TN, Metter, EJ. A home-based pedometer-driven walking program to increase physical activity in older adults with osteoarthritis of the knee: a preliminary study. J Am Geriatrics Soc. 2003, 51: 387–92.
Google Scholar | Crossref | Medline | ISI Wagner, ER, Conti Mica, M, Shin, AY. Smartphone photography utilized to measure wrist range of motion. J Hand Surg Eur. 2018, 43: 187–92.
Google Scholar | SAGE Journals | ISI Wellmon, RH, Gulick, DT, Paterson, ML, Gulick, CN. Validity and reliability of 2 goniometric mobile apps: device, application, and examiner factors. J Sport Rehab. 2016, 25: 371–9.
Google Scholar | Crossref | Medline