Published on in Vol 2, No 2 (2017): Jul-Dec

Diabetes App-Related Text Messages From Health Care Professionals in Conjunction With a New Wireless Glucose Meter With a Color Range Indicator Improves Glycemic Control in Patients With Type 1 and Type 2 Diabetes: Randomized Controlled Trial

Diabetes App-Related Text Messages From Health Care Professionals in Conjunction With a New Wireless Glucose Meter With a Color Range Indicator Improves Glycemic Control in Patients With Type 1 and Type 2 Diabetes: Randomized Controlled Trial

Diabetes App-Related Text Messages From Health Care Professionals in Conjunction With a New Wireless Glucose Meter With a Color Range Indicator Improves Glycemic Control in Patients With Type 1 and Type 2 Diabetes: Randomized Controlled Trial

Journals

  1. Grady M, Katz L, Levy B. Use of Blood Glucose Meters Featuring Color Range Indicators Improves Glycemic Control in Patients With Diabetes in Comparison to Blood Glucose Meters Without Color (ACCENTS Study). Journal of Diabetes Science and Technology 2018;12(6):1211 View
  2. Fritzen K, Basinska K, Rubio-Almanza M, Nicolucci A, Kennon B, Vergès B, Zakrzewska K, Schnell O. Pan-European Economic Analysis to Identify Cost Savings for the Health Care Systems as a Result of Integrating Glucose Monitoring Based Telemedical Approaches Into Diabetes Management. Journal of Diabetes Science and Technology 2019;13(6):1112 View
  3. Grady M, Venugopal U, Robert K, Hurrell G, Schnell O. Health Care Professionals’ Clinical Perspectives and Acceptance of a Blood Glucose Meter and Mobile App Featuring a Dynamic Color Range Indicator and Blood Sugar Mentor: Online Evaluation in Seven Countries. JMIR Human Factors 2019;6(3):e13847 View
  4. Tavakoli R, Alipouran M, Zarei F. Health Belief Model-Based Education through Telegram Instant Messaging Services on Diabetic Self-Care. Health Education and Health Promotion 2018;6(3):91 View
  5. Fritzen K, Basinska K, Stautner C, Braun K, Rubio-Almanza M, Nicolucci A, Kennon B, Vergès B, Hosny Y, Schnell O. Budget Impact of Improved Diabetes Management by Utilization of Glucose Meters With a Color-Range Indicator—Comparison of Five European Healthcare Systems. Journal of Diabetes Science and Technology 2020;14(2):262 View
  6. Koot D, Goh P, Lim R, Tian Y, Yau T, Tan N, Finkelstein E. A Mobile Lifestyle Management Program (GlycoLeap) for People With Type 2 Diabetes: Single-Arm Feasibility Study. JMIR mHealth and uHealth 2019;7(5):e12965 View
  7. Robertson D, Chudleigh R, Gwynn S, Jairam C, Kansagra K, Kanumilli N, Lester-George A, McMurray C, Warren T. Establishing Expert, Multi-Disciplinary, Peer-Reviewed Consensus to Lead a Paradigm Shift in Optimal Blood Glucose Management. Diabetes Therapy 2019;10(3):901 View
  8. Seo D, Park Y, Lee Y, Kim J, Park J, Lee J. The Use of Mobile Personal Health Records for Hemoglobin A1c Regulation in Patients With Diabetes: Retrospective Observational Study. Journal of Medical Internet Research 2020;22(6):e15372 View
  9. Greenwood D, Grady M. Healthcare Professional Perceptions of Blood Glucose Meter Features That Support Achievement of Self-Management Goals Recommended by Clinical Practice Guidelines. Journal of Diabetes Science and Technology 2021;15(5):1142 View
  10. Zhu T, Li K, Herrero P, Georgiou P. Deep Learning for Diabetes: A Systematic Review. IEEE Journal of Biomedical and Health Informatics 2021;25(7):2744 View
  11. Cucciniello M, Petracca F, Ciani O, Tarricone R. Development features and study characteristics of mobile health apps in the management of chronic conditions: a systematic review of randomised trials. npj Digital Medicine 2021;4(1) View
  12. Ali Sherazi B, Laeer S, Krutisch S, Dabidian A, Schlottau S, Obarcanin E. Functions of mHealth Diabetes Apps That Enable the Provision of Pharmaceutical Care: Criteria Development and Evaluation of Popular Apps. International Journal of Environmental Research and Public Health 2022;20(1):64 View
  13. Katz L, Aparicio M, Cameron H, Ceppa F. Use of a Meter With Color-Range Indicators and a Mobile Diabetes Management App Improved Glycemic Control and Patient Satisfaction in an Underserved Hispanic Population: “Tu Salud”—A Randomized Controlled Partial Cross-Over Clinical Study. Diabetes Spectrum 2022;35(1):86 View
  14. Lee M, Kang D, Joi Y, Yoon J, Kim Y, Kim J, Kang M, Oh D, Shin S, Cho J, De Silva D. Graphical user interface design to improve understanding of the patient-reported outcome symptom response. PLOS ONE 2023;18(1):e0278465 View
  15. Laptev D, Eremina I, Karpushkina A, Petryaykina E, Bezlepkina O, Peterkova V. Remote monitoring of adolescents with type 1 diabetes mellitus using a mobile application. Diabetes mellitus 2022;24(5):404 View
  16. Grady M, Cameron H, Holt E. Sustained Improvements in Readings in-Range Using an Advanced Bluetooth® Connected Blood Glucose Meter and a Mobile Diabetes App: Real-World Evidence from more than 55,000 People with Diabetes. Diabetes Therapy 2023;14(6):1023 View
  17. Abdulhussein F, Pinkney S, Görges M, van Rooij T, Amed S. Designing a Collaborative Patient-Centered Digital Health Platform for Pediatric Diabetes Care in British Columbia: Formative Needs Assessment by Caregivers of Children and Youths Living With Type 1 Diabetes and Health Care Providers. JMIR Pediatrics and Parenting 2023;6:e46432 View
  18. Suplotova L, Alieva O. Glycemia control using remote technologies. Meditsinskiy sovet = Medical Council 2023;17(9):81 View
  19. Tarricone R, Petracca F, Svae L, Cucciniello M, Ciani O. Which behaviour change techniques work best for diabetes self-management mobile apps? Results from a systematic review and meta-analysis of randomised controlled trials. eBioMedicine 2024;103:105091 View