Published on in Vol 6, No 2 (2017): February

Feasibility of Implementing a Patient-Centered Postoperative Wound Monitoring Program Using Smartphone Images: A Pilot Protocol

Feasibility of Implementing a Patient-Centered Postoperative Wound Monitoring Program Using Smartphone Images: A Pilot Protocol

Feasibility of Implementing a Patient-Centered Postoperative Wound Monitoring Program Using Smartphone Images: A Pilot Protocol

Journals

  1. Sieverink F, Kelders S, van Gemert-Pijnen J. Clarifying the Concept of Adherence to eHealth Technology: Systematic Review on When Usage Becomes Adherence. Journal of Medical Internet Research 2017;19(12):e402 View
  2. Totty J, Hitchman L, Cai P, Harwood A, Wallace T, Carradice D, Smith G, Chetter I. A pilot feasibility randomised clinical trial comparing dialkylcarbamoylchloride‐coated dressings versus standard care for the primary prevention of surgical site infection. International Wound Journal 2019;16(4):883 View
  3. Aasen D, Bronsert M, Rozeboom P, Colborn K, Henderson W, Lambert-Kerzner A, Hammermeister K, Meguid R. Relationships between predischarge and postdischarge infectious complications, length of stay, and unplanned readmissions in the ACS NSQIP database. Surgery 2021;169(2):325 View
  4. Kogan A, Rosen T, Navarro A, Homeier D, Chennapan K, Mosqueda L. Developing the Geriatric Injury Documentation Tool (Geri-IDT) to Improve Documentation of Physical Findings in Injured Older Adults. Journal of General Internal Medicine 2019;34(4):567 View
  5. Wu J, Tsai C, Ho T, Lai F, Tai H, Lin M. A Unified Framework for Automatic Detection of Wound Infection with Artificial Intelligence. Applied Sciences 2020;10(15):5353 View
  6. Kummerow Broman K, Gaskill C, Faqih A, Feng M, Phillips S, Lober W, Pierce R, Holzman M, Evans H, Poulose B. Evaluation of Wound Photography for Remote Postoperative Assessment of Surgical Site Infections. JAMA Surgery 2019;154(2):117 View
  7. Li H, Chan Y, Huang J, Cheng S. Pilot Study Using Telemedicine Video Consultation for Vascular Patients’ Care During the COVID-19 Period. Annals of Vascular Surgery 2020;68:76 View
  8. Dunsmuir D, Wu H, Sun T, West N, Lauder G, Görges M, Ansermino J. A Postoperative Pain Management Mobile App (Panda) for Children at Home After Discharge: Usability and Feasibility. JMIR Perioperative Medicine 2019;2(2):e12305 View
  9. Marin-Gomez F, Garcia Cuyas F, Reig-Bolano R, Mendioroz J, Roura-Poch P, Pico-Nicolau M, Vidal-Alaball J. Social Networking App Use Among Primary Health Care Professionals: Web-Based Cross-Sectional Survey. JMIR mHealth and uHealth 2018;6(12):e11147 View
  10. Symer M, Abelson J, Milsom J, McClure B, Yeo H. A Mobile Health Application to Track Patients After Gastrointestinal Surgery: Results from a Pilot Study. Journal of Gastrointestinal Surgery 2017;21(9):1500 View
  11. Gunter R, Fernandes-Taylor S, Rahman S, Awoyinka L, Bennett K, Weber S, Greenberg C, Kent K. Feasibility of an Image-Based Mobile Health Protocol for Postoperative Wound Monitoring. Journal of the American College of Surgeons 2018;226(3):277 View
  12. Wu J, Ho T, Chang Y, Hsu C, Tsai C, Lai F, Lin M. Wearable-Based Mobile Health App in Gastric Cancer Patients for Postoperative Physical Activity Monitoring: Focus Group Study. JMIR mHealth and uHealth 2019;7(4):e11989 View
  13. Liao C, Wu Y, Cheng C, Ooyang C, Kang S, Fu C, Hsu Y, Hsieh C, Chen C. An Image-Based Mobile Health App for Postdrainage Monitoring: Usability Study. Journal of Medical Internet Research 2020;22(8):e17686 View
  14. Eggbeer D, Mehrotra D, Beverley K, Hollisey-McLean S, Evans P. Identifying research and development priorities for an in-hospital 3D design engineering facility in India. Journal of Design, Business & Society 2020;6(2):189 View
  15. Bentvelsen R, van der Vaart R, Veldkamp K, Chavannes N. Systematic development of an mHealth app to prevent healthcare-associated infections by involving patients: ‘Participatient’. Clinical eHealth 2021 View