Published on in Vol 9, No 8 (2021): August

Preprints (earlier versions) of this paper are available at https://preprints.jmir.org/preprint/24214, first published .
Supervised Exercise Therapy Using Mobile Health Technology in Patients With Peripheral Arterial Disease: Pilot Randomized Controlled Trial

Supervised Exercise Therapy Using Mobile Health Technology in Patients With Peripheral Arterial Disease: Pilot Randomized Controlled Trial

Supervised Exercise Therapy Using Mobile Health Technology in Patients With Peripheral Arterial Disease: Pilot Randomized Controlled Trial

Journals

  1. Sivagangan P, Harwood A, Stather P. Patient and Healthcare Professional Priorities for a Mobile Phone Application for Patients With Peripheral Arterial Disease. Cureus 2023 View
  2. Dittman J, Amendola M, Lavingia K. Medical optimization of the peripheral artery disease patient. Seminars in Vascular Surgery 2022;35(2):113 View
  3. Khoury S, Ratchford E, Stewart K. Supervised exercise therapy for patients with peripheral artery disease: Clinical update and pathways forward. Progress in Cardiovascular Diseases 2022;70:183 View
  4. Quazi S, Malik J. A Systematic Review of Personalized Health Applications through Human–Computer Interactions (HCI) on Cardiovascular Health Optimization. Journal of Cardiovascular Development and Disease 2022;9(8):273 View
  5. Fallahtafti F, Salamifar Z, Hassan M, Rahman H, Pipinos I, Myers S. Joint Angle Variability Is Altered in Patients with Peripheral Artery Disease after Six Months of Exercise Intervention. Entropy 2022;24(10):1422 View
  6. Lareyre F, Chaptoukaev H, Kiang S, Chaudhuri A, Behrendt C, Zuluaga M, Raffort J. Telemedicine and Digital Health Applications in Vascular Surgery. Journal of Clinical Medicine 2022;11(20):6047 View
  7. Veiga C, Pedras S, Oliveira R, Paredes H, Silva I. A systematic review on smartphone use for activity monitoring during exercise therapy in intermittent claudication. Journal of Vascular Surgery 2022;76(6):1734 View
  8. Rosenberg Y, Behrendt C. Best medical treatment in patients with PAD. Vasa 2023;52(5):293 View
  9. Guan V, Zhou C, Wan H, Zhou R, Zhang D, Zhang S, Yang W, Voutharoja B, Wang L, Win K, Wang P. A Novel Mobile App for Personalized Dietary Advice Leveraging Persuasive Technology, Computer Vision, and Cloud Computing: Development and Usability Study. JMIR Formative Research 2023;7:e46839 View
  10. Thaxton C, Dardik A. Computer Science meets Vascular Surgery: Keeping a pulse on artificial intelligence. Seminars in Vascular Surgery 2023;36(3):419 View
  11. Wu F, Deng Q, Wang J, Li W. The Role of Supervised Exercise Therapy in the Management of Symptomatic Peripheral Artery Disease with Intermittent Claudication. Current Treatment Options in Cardiovascular Medicine 2023;25(10):501 View
  12. Silva I, Moreira C, Pedras S, Oliveira R, Veiga C, Moreira L, Santarém D, Guedes D, Paredes H. Effect of a monitored home-based exercise program combined with a behavior change intervention and a smartphone app on walking distances and quality of life in adults with peripheral arterial disease: the WalkingPad randomized clinical trial. Frontiers in Cardiovascular Medicine 2023;10 View
  13. Aronow W, Avanesova A, Frishman W, Shamliyan T. Inconsistent Benefits From Mobile Information Communication Technology in Adults With Peripheral Arterial Disease. Cardiology in Review 2024;32(1):12 View
  14. Ingwersen M, Kunstmann I, Oswald C, Best N, Weisser B, Teichgräber U. Exercise training for patients with peripheral arterial occlusive disease. Deutsches Ärzteblatt international 2023 View
  15. Prenner A, Ziegl A, Wiesmüller F, El Moazen G, Hayn D, Prenner A, Brodmann M, Seinost G, Modre-Osprian R, Schreier G, Silbernagel G. Usability of a telehealth-nurse supported home-based walking training for peripheral arterial disease – The Keep Pace! pilot study. Vasa 2024;53(4):246 View
  16. Gohil M, Muruganantham B, Raval M, Bearne L. Translation, cross-cultural adaptation, and validation of a Gujarati version of a theory of planned behavior questionnaire that assesses walking treatment beliefs in people with intermittent claudication. Journal of Vascular Nursing 2024;42(3):182 View
  17. Cleary C, Adajian A, Gifford E, Orosco E, Li Y, Healy L, Dawiczyk S, Bozeman P, Guerin E, Farrell H, Shah P. Incentives and individualized coaching improve completion rates of supervised exercise therapy for claudication. Journal of Vascular Surgery 2024;80(3):821 View
  18. De Louche C, Shea J, Park S, Nicola M, Lawson J, Charles E, Pouncey A. e-Health education for patients and health professionals in the field of vascular disease. Seminars in Vascular Surgery 2024;37(3):350 View
  19. Abaraogu U, Dall P, Seenan C, Rhodes S, Gorely T, McParland J, Brittenden J, Anieto E, Booth L, Gormal C, Dearling J, Fenton C, Audsley S, Fairer K, Bearne L, Skelton D. Effect of Behavior-Change Interventions on Daily Physical Activity in Patients with Intermittent Claudication: The OPTIMA Systematic Review and Meta-Analysis. European Journal of Preventive Cardiology 2024 View
  20. Yu T, Parry M, Yu T, Xu L, Wu Y, Zeng T, Leng X, Tong Q, Li F. Effectiveness of mobile health-based gamification interventions for improving physical activity in individuals with cardiovascular diseases: a systematic review and meta‐analysis of randomized controlled trials (Preprint). JMIR Serious Games 2024 View
  21. Pong C, Tseng R, Tham Y, Lum E. Current Implementation of Digital Health in Chronic Disease Management: Scoping Review. Journal of Medical Internet Research 2024;26:e53576 View

Books/Policy Documents

  1. González Bermúdez A, Bernardos A. Wireless Mobile Communication and Healthcare. View