This paper is in the following e-collection/theme issue:

mHealth for Treatment Adherence (397) Innovations and Technology for Physical Activity Education (742) Telehealth and Telemonitoring (1671) mHealth for Rehabilitation (263) Innovations in Exercise Rehabilitation (213) Telerehabilitation (159)

Published on in Vol 8, No 10 (2020): October

Preprints (earlier versions) of this paper are available at https://preprints.jmir.org/preprint/18985, first published .
A Mobile App Specifically Designed to Facilitate Exercise in Parkinson Disease: Single-Cohort Pilot Study on Feasibility, Safety, and Signal of Efficacy

A Mobile App Specifically Designed to Facilitate Exercise in Parkinson Disease: Single-Cohort Pilot Study on Feasibility, Safety, and Signal of Efficacy

A Mobile App Specifically Designed to Facilitate Exercise in Parkinson Disease: Single-Cohort Pilot Study on Feasibility, Safety, and Signal of Efficacy

Authors of this article:

Merrill R Landers1 Author Orcid Image ;   Terry D Ellis2 Author Orcid Image
Article Authors Cited by (34) Tweetations (4) Metrics

Journals

  1. Rosenblum S, Richardson A, Meyer S, Nevo T, Sinai M, Hassin-Baer S. DailyCog: A Real-World Functional Cognitive Mobile Application for Evaluating Mild Cognitive Impairment (MCI) in Parkinson’s Disease. Sensors 2021;21(5):1788 View
  2. Langer A, Gassner L, Flotz A, Hasenauer S, Gruber J, Wizany L, Pokan R, Maetzler W, Zach H. How COVID-19 will boost remote exercise-based treatment in Parkinson’s disease: a narrative review. npj Parkinson's Disease 2021;7(1) View
  3. Jones J, Alexander L, Hancock E, Cooper K. A collaborative approach to exercise provision for people with Parkinson’s – a feasibility and acceptability study of the PDConnect programme. AMRC Open Research 2020;2:29 View
  4. Jones J, Alexander L, Hancock E, Cooper K. A collaborative approach to exercise provision for people with Parkinson’s – a feasibility and acceptability study of the PDConnect programme. AMRC Open Research 2021;2:29 View
  5. van den Bergh R, Bloem B, Meinders M, Evers L. The state of telemedicine for persons with Parkinson's disease. Current Opinion in Neurology 2021;34(4):589 View
  6. Torriani-Pasin C, Palma G, Makhoul M, Antonio B, Lara A, Silva T, Caldeira M, Júnior R, Domingues V, Freitas T, Mochizuki L. Adherence Rate, Barriers to Attend, Safety, and Overall Experience of a Remote Physical Exercise Program During the COVID-19 Pandemic for Individuals After Stroke. Frontiers in Psychology 2021;12 View
  7. Tang L, He Y, Pang Y, Su Z, Li J, Zhang Y, Wang X, Han X, Wang Y, Li Z, He S, Song L, Zhou Y, Wang B, Li X. Implementing Symptom Management Follow-up Using an Electronic Patient-Reported Outcome Platform in Outpatients With Advanced Cancer: Longitudinal Single-Center Prospective Study. JMIR Formative Research 2022;6(5):e21458 View
  8. Virmani T, Lotia M, Glover A, Pillai L, Kemp A, Iyer A, Farmer P, Syed S, Larson-Prior L, Prior F. Feasibility of telemedicine research visits in people with Parkinson’s disease residing in medically underserved areas. Journal of Clinical and Translational Science 2022;6(1) View
  9. Lee J, Yeom I, Chung M, Kim Y, Yoo S, Kim E. Use of Mobile Apps for Self-care in People With Parkinson Disease: Systematic Review. JMIR mHealth and uHealth 2022;10(1):e33944 View
  10. Jakob R, Harperink S, Rudolf A, Fleisch E, Haug S, Mair J, Salamanca-Sanabria A, Kowatsch T. Factors Influencing Adherence to mHealth Apps for Prevention or Management of Noncommunicable Diseases: Systematic Review. Journal of Medical Internet Research 2022;24(5):e35371 View
  11. Park Y, Kim S, So H, Jo S, Lee S, Hwang Y, Kim M, Chung S. Effect of mobile health intervention for self-management on self-efficacy, motor and non-motor symptoms, self-management, and quality of life in people with Parkinson's disease: Randomized controlled trial. Geriatric Nursing 2022;46:90 View
  12. Hessam M, Hosseinpour P, Vaezipour A, Mehravar M. Development of an Evidence-Based Progressive Web App to Promote Exercise Therapy and Telemonitoring for Individuals with Patello-Femoral Pain Syndrome: A Usability Study. Shiraz E-Medical Journal 2022;23(12) View
  13. Kim A, Yun S, Sung K, Kim Y, Jo J, Cho H, Park K, Oh B, Seo H. Exercise Management Using a Mobile App in Patients With Parkinsonism: Prospective, Open-Label, Single-Arm Pilot Study. JMIR mHealth and uHealth 2021;9(8):e27662 View
  14. Mainka S, Schroll A, Warmerdam E, Gandor F, Maetzler W, Ebersbach G. The Power of Musification: Sensor‐Based Music Feedback Improves Arm Swing in Parkinson's Disease. Movement Disorders Clinical Practice 2021;8(8):1240 View
  15. Merolli M, Francis J, Vallance P, Bennell K, Malliaras P, Hinman R. Patient-Facing Mobile Apps to Support Physiotherapy Care: Protocol for a Systematic Review of Apps Within App Stores. JMIR Research Protocols 2021;10(12):e29047 View
  16. Torriani‐Pasin C, Domingues V, de Freitas T, Silva T, Caldeira M, Júnior R, Lara A, Antonio B, Palma G, Makhoul M, Mochizuki L. Adherence rate, barriers to attend, safety and overall experience of a physical exercise program via telemonitoring during COVID‐19 pandemic for individuals with Parkinson's disease: A feasibility study. Physiotherapy Research International 2022;27(4) View
  17. Walton L, Domellöf M, Åström Å, Elowson Å, Neely A. Digital Dance for People With Parkinson's Disease During the COVID-19 Pandemic: A Feasibility Study. Frontiers in Neurology 2022;12 View
  18. Li X, Chen M, Liang X, Yao R, Shen B, Wu B, Li G, Sun Y, Wu J, Liu F, Yang Y, Wang J. PDQ-8: A Simplified and Effective Tool Measuring Life Quality in Progressive Supranuclear Palsy. Journal of Parkinson's Disease 2023;13(1):83 View
  19. Ma R, Hou Y, Zhang Y, He M, Gao S, Kaudimba K, Lin K, Jin L, Liu T, Wang R. The Efficacy of Tai Chi and Stretching Exercises Based on a Smartphone Application for Patients With Parkinson's Disease: A Protocol for a Randomized Controlled Trial. Frontiers in Neurology 2021;12 View
  20. Triantafyllidis A, Segkouli S, Zygouris S, Michailidou C, Avgerinakis K, Fappa E, Vassiliades S, Bougea A, Papagiannakis N, Katakis I, Mathioudis E, Sorici A, Bajenaru L, Tageo V, Camonita F, Magga-Nteve C, Vrochidis S, Pedullà L, Brichetto G, Tsakanikas P, Votis K, Tzovaras D. Mobile App Interventions for Parkinson’s Disease, Multiple Sclerosis and Stroke: A Systematic Literature Review. Sensors 2023;23(7):3396 View
  21. Colón-Semenza C, Zajac J, Schwartz A, Darbandsari P, Ellis T. Experiences from the implementation of physical therapy via telehealth for individuals with Parkinson disease during the COVID-19 pandemic. Disability and Rehabilitation 2024;46(8):1593 View
  22. Davergne T, Meidinger P, Dechertres A, Gossec L. The effectiveness of digital applications providing personalized exercise videos: a systematic review with meta-analysis (Preprint). Journal of Medical Internet Research 2022 View
  23. Darcy B, Rashford L, Shultz S, Tsai N, Huizenga D, Reed K, Bamberg S. Gait Device Treatment Using Telehealth for Individuals With Stroke During the COVID-19 Pandemic: Nonrandomized Pilot Feasibility Study. JMIR Formative Research 2023;7:e43008 View
  24. Putzolu M, Manzini V, Gambaro M, Cosentino C, Bonassi G, Botta A, Ravizzotti E, Avanzino L, Pelosin E, Mezzarobba S. Home-based exercise training by using a smartphone app in patients with Parkinson’s disease: a feasibility study. Frontiers in Neurology 2023;14 View
  25. Pastana Ramos L, Vilacorta-Pereira T, Duarte J, Yamada E, Santos-Lobato B. Feasibility and effectiveness of a remote individual rehabilitation program for people with Parkinson's disease living in the Brazilian Amazon: a randomized clinical trial. Frontiers in Neurology 2023;14 View
  26. Maggio M, Luca A, Calabrò R, Drago F, Nicoletti A. Can mobile health apps with smartphones and tablets be the new frontier of cognitive rehabilitation in older individuals? A narrative review of a growing field. Neurological Sciences 2024;45(1):37 View
  27. Lützow L, Teckenburg I, Koch V, Marxreiter F, Jukic J, Stallforth S, Regensburger M, Winkler J, Klucken J, Gaßner H. The effects of an individualized smartphone-based exercise program on self-defined motor tasks in Parkinson’s disease: a long-term feasibility study. Journal of Patient-Reported Outcomes 2023;7(1) View
  28. Ahn J, Shin D, Lee D, Kim H, Youn J, Cho J, Kuys S. Increasing exercise with a mobile app in people with Parkinson’s disease: a pilot study. Brain Impairment 2024;25(2) View
  29. Peixoto C, Matioli M, Takano S, Teixeira M, Passos Neto C, Brucki S. Feasibility, safety, and adherence of a remote physical and cognitive exercise protocol for older women. Arquivos de Neuro-Psiquiatria 2024;82(04):001 View
  30. Ahern L, Curtin C, Timmons S, Lamb S, McCullagh R. “Exercise… to Me, It’s Freedom”: Motivation, Support, and Self-Management to Keep Physically Active with Parkinson’s Disease: A Qualitative Study. Geriatrics 2024;9(4):92 View
  31. Alves B, Mota P, Sineiro D, Carmo R, Santos P, Macedo P, Carreira J, Madeira R, Dias S, Pereira C. MoveONParkinson: developing a personalized motivational solution for Parkinson’s disease management. Frontiers in Public Health 2024;12 View
  32. Jagota P, Phutrakool P, Kamble N, Dang T, Aldaajani Z, Hatano T, Hoskere Sreenivasa D, Tripura T, Kukkle P, Jeon B, Nishikawa N, Oji Y, Tran T, Susatia F, Fabbri M, Leung C, Alonso Canovas A, Kamel W, Pal P, Rakesh K, Abu Snineh M, Chairangsaris P, Lolekha P, Jamora R, Mohamed Ibrahim N, Desa S, Tan A, Toh T, Obaid M, Fung V, Lang A, Lin C, Regragui W, Bouslam N, Bhidayasiri R. Exercise Habits in People with Parkinson's: A Multinational Survey. Movement Disorders Clinical Practice 2024;11(11):1396 View
  33. Boege S, Milne-Ives M, Ananthakrishnan A, Carroll C, Meinert E. Self-Management Systems for Patients and Clinicians in Parkinson’s Disease Care: A Scoping Review. Journal of Parkinson's Disease 2024;14(7):1387 View

Books/Policy Documents

  1. Özden F, Uysal İ, Özkeskin M. The Palgrave Encyclopedia of Disability. View