Published on in Vol 6, No 3 (2017): March

A Personal Electronic Health Record: Study Protocol of a Feasibility Study on Implementation in a Real-World Health Care Setting

A Personal Electronic Health Record: Study Protocol of a Feasibility Study on Implementation in a Real-World Health Care Setting

A Personal Electronic Health Record: Study Protocol of a Feasibility Study on Implementation in a Real-World Health Care Setting

Journals

  1. Assadi V, Hassanein K. Consumer Adoption of Personal Health Record Systems: A Self-Determination Theory Perspective. Journal of Medical Internet Research 2017;19(7):e270 View
  2. Berndt M, Fischer M. The role of electronic health records in clinical reasoning. Annals of the New York Academy of Sciences 2018;1434(1):109 View
  3. Bruns E, Hook A, Parker E, Esposito I, Sather A, Parigoris R, Lyon A, Hyde K. Impact of a Web-Based Electronic Health Record on Behavioral Health Service Delivery for Children and Adolescents: Randomized Controlled Trial. Journal of Medical Internet Research 2018;20(6):e10197 View
  4. Poss-Doering R, Kunz A, Pohlmann S, Hofmann H, Kiel M, Winkler E, Ose D, Szecsenyi J. Utilizing a Prototype Patient-Controlled Electronic Health Record in Germany: Qualitative Analysis of User-Reported Perceptions and Perspectives. JMIR Formative Research 2018;2(2):e10411 View
  5. Abd-Alrazaq A, Bewick B, Farragher T, Gardner P. Factors Affecting Patients’ Use of Electronic Personal Health Records in England: Cross-Sectional Study. Journal of Medical Internet Research 2019;21(7):e12373 View
  6. Rasche P, Mertens A, Miron-Shatz T, Berzon C, Schlick C, Jahn M, Becker S, Fürnsinn C. Seamless recording of glucometer measurements among older experienced diabetic patients – A study of perception and usability. PLOS ONE 2018;13(5):e0197455 View
  7. Schwind F, Münch H, Schröter A, Brandner R, Kutscha U, Brandner A, Heinze O, Bergh B, Engelmann U. Long-term experience with setup and implementation of an IHE-based image management and distribution system in intersectoral clinical routine. International Journal of Computer Assisted Radiology and Surgery 2018;13(11):1727 View
  8. Abd-Alrazaq A, Alalwan A, McMillan B, Bewick B, Househ M, AL-Zyadat A. Patients’ Adoption of Electronic Personal Health Records in England: Secondary Data Analysis. Journal of Medical Internet Research 2020;22(10):e17499 View
  9. Ose D, Baudendistel I, Pohlmann S, Winkler E, Kunz A, Szecsenyi J. Persönliche Patientenakten im Internet. Ein narrativer Review zu Einstellungen, Erwartungen, Nutzung und Effekten. Zeitschrift für Evidenz, Fortbildung und Qualität im Gesundheitswesen 2017;122:9 View
  10. Priestman W, Sridharan S, Vigne H, Collins R, Seamer L, Sebire N. What to expect from electronic patient record system implementation: lessons learned from published evidence. BMJ Health & Care Informatics 2018;25(2):92 View
  11. Pohlmann S, Kunz A, Ose D, Winkler E, Brandner A, Poss-Doering R, Szecsenyi J, Wensing M. Digitalizing Health Services by Implementing a Personal Electronic Health Record in Germany: Qualitative Analysis of Fundamental Prerequisites From the Perspective of Selected Experts. Journal of Medical Internet Research 2020;22(1):e15102 View
  12. Weis A, Pohlmann S, Poss-Doering R, Strauss B, Ullrich C, Hofmann H, Ose D, Winkler E, Szecsenyi J, Wensing M. Caregivers' role in using a personal electronic health record: a qualitative study of cancer patients and caregivers in Germany. BMC Medical Informatics and Decision Making 2020;20(1) View
  13. Weinberger N, Weis A, Pohlmann S, Brändle C, Zentek T, Ose D, Szecsenyi J. A New Method for Structured Integration of User Needs in Two Health Technology Development Projects: Action Sheets. Informatics for Health and Social Care 2021;46(2):113 View