Published on in Vol 3, No 1 (2020): Jan-Jun

Preprints (earlier versions) of this paper are available at https://preprints.jmir.org/preprint/17292, first published .
A Real-Time Mobile Intervention to Reduce Sedentary Behavior Before and After Cancer Surgery: Usability and Feasibility Study

A Real-Time Mobile Intervention to Reduce Sedentary Behavior Before and After Cancer Surgery: Usability and Feasibility Study

A Real-Time Mobile Intervention to Reduce Sedentary Behavior Before and After Cancer Surgery: Usability and Feasibility Study

Journals

  1. Low C. Harnessing consumer smartphone and wearable sensors for clinical cancer research. npj Digital Medicine 2020;3(1) View
  2. Mungovan S, Carlsson S, Gass G, Graham P, Sandhu J, Akin O, Scardino P, Eastham J, Patel M. Preoperative exercise interventions to optimize continence outcomes following radical prostatectomy. Nature Reviews Urology 2021;18(5):259 View
  3. Villegas F, Martínez-Borba V, Suso-Ribera C, Castilla D, Zaragoza I, García-Palacios A, Ferrer C. Characterizing Breakthrough Cancer Pain Using Ecological Momentary Assessment with a Smartphone App: Feasibility and Clinical Findings. International Journal of Environmental Research and Public Health 2021;18(11):5991 View
  4. Åsberg K, Bendtsen M. Perioperative digital behaviour change interventions for reducing alcohol consumption, improving dietary intake, increasing physical activity and smoking cessation: a scoping review. Perioperative Medicine 2021;10(1) View
  5. Wells C, Xu W, Penfold J, Keane C, Gharibans A, Bissett I, O’Grady G. Wearable devices to monitor recovery after abdominal surgery: scoping review. BJS Open 2022;6(2) View
  6. de Leeuwerk M, Botjes M, van Vliet V, Geleijn E, de Groot V, van Wegen E, van der Schaaf M, Tuynman J, Dickhoff C, van der Leeden M. Self-monitoring of Physical Activity After Hospital Discharge in Patients Who Have Undergone Gastrointestinal or Lung Cancer Surgery: Mixed Methods Feasibility Study. JMIR Cancer 2022;8(2):e35694 View
  7. Chaudhari S, Ghanvatkar S, Kankanhalli A. Personalization of Intervention Timing for Physical Activity: Scoping Review. JMIR mHealth and uHealth 2022;10(2):e31327 View
  8. Low C, Danko M, Durica K, Vega J, Li M, Kunta A, Mulukutla R, Ren Y, Sereika S, Bartlett D, Bovbjerg D, Dey A, Jakicic J. A Real-Time Mobile Intervention to Reduce Sedentary Behavior Before and After Cancer Surgery: Pilot Randomized Controlled Trial. JMIR Perioperative Medicine 2023;6:e41425 View
  9. Rezaee R, Asadi S, Yazdani A, Rezvani A, Kazeroon A. Development, usability and quality evaluation of the resilient mobile application for women with breast cancer. Health Science Reports 2022;5(4) View
  10. Belcher B, Kang D, Yunker A, Dieli-Conwright C. Interventions to Reduce Sedentary Behavior in Cancer Patients and Survivors: a Systematic Review. Current Oncology Reports 2022;24(11):1593 View
  11. Gudmundsson G, Mészáros J, Björnsdóttir Á, Ámundadóttir M, Thorvardardottir G, Magnusdottir E, Helgadottir H, Oddsson S. Evaluating the Feasibility of a Digital Therapeutic Program for Patients With Cancer During Active Treatment: Pre-Post Interventional Study. JMIR Formative Research 2022;6(10):e39764 View
  12. Keats M, Yu X, Sweeney Magee M, Forbes C, Grandy S, Sweeney E, Dummer T. Use of Wearable Activity-Monitoring Technologies to Promote Physical Activity in Cancer Survivors: Challenges and Opportunities for Improved Cancer Care. International Journal of Environmental Research and Public Health 2023;20(6):4784 View
  13. McLean K, Knight S, Diehl T, Varghese C, Ng N, Potter M, Zafar S, Bouamrane M, Harrison E. Readiness for implementation of novel digital health interventions for postoperative monitoring: a systematic review and clinical innovation network analysis. The Lancet Digital Health 2023;5(5):e295 View
  14. Butler M, D’Angelo S, Ahn H, Chandereng T, Miller D, Perrin A, Romain A, Scatoni A, Friel C, Cheung Y, Davidson K. A Series of Personalized Virtual Light Therapy Interventions for Fatigue: Feasibility Randomized Crossover Trial for N-of-1 Treatment. JMIR Formative Research 2023;7:e45510 View
  15. Kerimaa H, Hakala M, Haapea M, Vähänikkilä H, Serlo W, He H, Pölkki T. Effectiveness of a Mobile App Intervention for Preparing Preschool Children and Parents for Day Surgery: Randomized Controlled Trial. Journal of Medical Internet Research 2023;25:e46989 View
  16. Tønnesen H, Raffing R, Lauridsen S, Lauritzen J, Elholm A, Jensen H, Espinosa P, Jansson K, Berman A, Fernández-Valencia J, Muñoz-Mahamud E, Santiñà M, Combalia A. Two novel prehabilitation apps to help patients stop smoking and risky drinking prior to hip and knee arthroplasty. International Orthopaedics 2023;47(11):2645 View
  17. Esper S, Holder-Murray J, Meister K, Lin H, Hamilton D, Groff Y, Zuckerbraun B, Mahajan A. A Novel Digital Health Platform With Health Coaches to Optimize Surgical Patients: Feasibility Study at a Large Academic Health System. JMIR Perioperative Medicine 2024;7:e52125 View
  18. Tandon A, Dhir A, Islam N. Mobile Health Interventions for Cancer Care and Support: The Next Level of Digitalization in Healthcare?. IEEE Transactions on Engineering Management 2024;71:6173 View
  19. Watts T, Courtier N, Fry S, Gale N, Gillen E, McCutchan G, Patil M, Rees T, Roche D, Wheelwright S, Hopkinson J. Access, acceptance and adherence to cancer prehabilitation: a mixed-methods systematic review. Journal of Cancer Survivorship 2024 View