Published on in Vol 21, No 4 (2019): April

Preprints (earlier versions) of this paper are available at https://preprints.jmir.org/preprint/12541, first published .
Addressing Diabetes and Poorly Controlled Hypertension: Pragmatic mHealth Self-Management Intervention

Addressing Diabetes and Poorly Controlled Hypertension: Pragmatic mHealth Self-Management Intervention

Addressing Diabetes and Poorly Controlled Hypertension: Pragmatic mHealth Self-Management Intervention

Journals

  1. Kim H, Lee S, Cho N, You H, Choi T, Kim J. User-Dependent Usability and Feasibility of a Swallowing Training mHealth App for Older Adults: Mixed Methods Pilot Study. JMIR mHealth and uHealth 2020;8(7):e19585 View
  2. Wechkunanukul K, Parajuli D, Hamiduzzaman M. Utilising digital health to improve medication-related quality of care for hypertensive patients: An integrative literature review. World Journal of Clinical Cases 2020;8(11):2266 View
  3. Zhang W, Cheng B, Zhu W, Huang X, Shen C. Effect of Telemedicine on Quality of Care in Patients with Coexisting Hypertension and Diabetes: A Systematic Review and Meta-Analysis. Telemedicine and e-Health 2021;27(6):603 View
  4. Thomas Craig K, Fusco N, Lindsley K, Snowdon J, Willis V, Arriaga Y, Dankwa-Mullan I. Rapid review: Identification of digital health interventions in atherosclerotic-related cardiovascular disease populations to address racial, ethnic, and socioeconomic health disparities. Cardiovascular Digital Health Journal 2020;1(3):139 View
  5. Lewinski A, Bosworth H, Goldstein K, Gierisch J, Jazowski S, McCant F, White-Clark C, Smith V, Zullig L. Improving cardiovascular outcomes by using team-supported, EHR-leveraged, active management: Disseminating a successful quality improvement project. Contemporary Clinical Trials Communications 2021;21:100705 View
  6. Davoudi A, Lee N, Chivers C, Delaney T, Asch E, Reitz C, Mehta S, Chaiyachati K, Mowery D. Patient Interaction Phenotypes With an Automated Remote Hypertension Monitoring Program and Their Association With Blood Pressure Control: Observational Study. Journal of Medical Internet Research 2020;22(12):e22493 View
  7. Machen L, Handley M, Powe N, Tuot D. Engagement With a Health Information Technology–Augmented Self-Management Support Program in a Population With Limited English Proficiency: Observational Study. JMIR mHealth and uHealth 2021;9(5):e24520 View
  8. Khoong E, Olazo K, Rivadeneira N, Thatipelli S, Barr-Walker J, Fontil V, Lyles C, Sarkar U. Mobile health strategies for blood pressure self-management in urban populations with digital barriers: systematic review and meta-analyses. npj Digital Medicine 2021;4(1) View
  9. Shen F, Chen J, Yang R, Yang J, Li H. Association between control status of blood pressure and frailty among middle-aged and older adults with hypertension in China: a longitudinal study. BMJ Open 2022;12(3):e056395 View
  10. Heisler M, Simmons D, Piatt G. Update on Approaches to Improve Delivery and Quality of Care for People with Diabetes. Endocrinology and Metabolism Clinics of North America 2021;50(3):e1 View
  11. Roddy M, Mayberry L, Nair D, Cavanaugh K. Exploring mHealth potential to improve kidney function: secondary analysis of a randomized trial of diabetes self-care in diverse adults. BMC Nephrology 2022;23(1) View
  12. Killion K, Sasangohar F. mHealth for Diabetes Self-Management in Underserved Populations: A Scoping Review. Proceedings of the Human Factors and Ergonomics Society Annual Meeting 2022;66(1):1418 View
  13. Rajan R, Kshatriya M, Banfield L, Athale U, Thabane L, Samaan M. Impact of virtual care on health-related quality of life in children with diabetes mellitus: a systematic review protocol. BMJ Open 2022;12(2):e053642 View
  14. Gosak L, Pajnkihar M, Stiglic G. The Impact of Mobile Health Use on the Self-care of Patients With Type 2 Diabetes: Protocol for a Randomized Controlled Trial. JMIR Research Protocols 2022;11(6):e31652 View
  15. Ma Y, Cheng H, Sit J, Chien W. The effects of a smartphone-enhanced nurse-facilitated self-care intervention for Chinese hypertensive patients: A randomised controlled trial. International Journal of Nursing Studies 2022;134:104313 View
  16. Silva T, Souza S, Rocha P, Tourinho F, Manzo B, Rocha P. APLICATIVOS SOBRE TERAPIA INTRAVENOSA E PREVENÇÃO DE INFECÇÃO DE CORRENTE SANGUÍNEA ASSOCIADA AO CATETER: PROSPECÇÃO TECNOLÓGICA. Cogitare Enfermagem 2023;28 View
  17. Silva T, Souza S, Rocha P, Tourinho F, Manzo B, Rocha P. APLICACIONES EN TERAPIA INTRAVENOSA Y PREVENCIÓN DE INFECCIONES DEL TORRENTE SANGUÍNEO ASOCIADAS A CATÉTERES: PROSPECCIÓN TECNOLÓGICA. Cogitare Enfermagem 2023;28 View
  18. Silva T, Souza S, Rocha P, Tourinho F, Manzo B, Rocha P. APPLICATIONS ON INTRAVENOUS THERAPY AND CATHETER-ASSOCIATED BLOODSTREAM INFECTION PREVENTION: TECHNOLOGY PROSPECTION. Cogitare Enfermagem 2023;28 View
  19. Ose D, Adediran E, Owens R, Gardner E, Mervis M, Turner C, Carlson E, Forbes D, Jasumback C, Stuligross J, Pohl S, Kiraly B. Electronic Health Record–Driven Approaches in Primary Care to Strengthen Hypertension Management Among Racial and Ethnic Minoritized Groups in the United States: Systematic Review. Journal of Medical Internet Research 2023;25:e42409 View
  20. Li K, Liu J, Zhu Y. Knowledge, attitude, and practice of atrial fibrillation in high altitude areas. Frontiers in Public Health 2024;12 View
  21. Oliveira G, Schimith M, Primo C, Wickert D, Jerke L, Brondani V. TECNOLOGIAS UTILIZADAS PARA ASSISTÊNCIA DE ENFERMAGEM ÀS PESSOAS COM HIPERTENSÃO ARTERIAL SISTÊMICA. Enfermagem em Foco 2024;15 View

Books/Policy Documents

  1. Iyawa G, Ondiek C, Osakwe J. Smart Medical Data Sensing and IoT Systems Design in Healthcare. View
  2. Wang X, Gao Q. Human Aspects of IT for the Aged Population. Supporting Everyday Life Activities. View