Published on in Vol 9, No 6 (2021): June

Preprints (earlier versions) of this paper are available at https://preprints.jmir.org/preprint/27102, first published .
Considerations for the Design and Implementation of COVID-19 Contact Tracing Apps: Scoping Review

Considerations for the Design and Implementation of COVID-19 Contact Tracing Apps: Scoping Review

Considerations for the Design and Implementation of COVID-19 Contact Tracing Apps: Scoping Review

Journals

  1. Jiang X, Mohamed A. The insufficiency of the Malaysian contact tracing app from the perspective of Chinese tourists: preparing for international tourism in the post-COVID-19 world. Heliyon 2022;8(12):e12154 View
  2. Jannati N. COVID-19 and contact tracing apps: The importance of theory and conceptual models. International Journal of Medical Informatics 2023;170:104957 View
  3. Osmanlliu E, Paquette J, Grenier A, Lewis P, Bouthillier M, Bédard S, Pomey M. Fantastic perspectives and where to find them: involving patients and citizens in digital health research. Research Involvement and Engagement 2022;8(1) View
  4. Huang J, Pang W, Wong Y, Mak F, Chan F, Cheung C, Wong W, Cheung N, Wong M. Factors Associated With the Acceptance of an eHealth App for Electronic Health Record Sharing System: Population-Based Study. Journal of Medical Internet Research 2022;24(12):e40370 View
  5. Folkvord F, Peschke L, Ağca Y, van Houten K, Stazi G, Lupiáñez-Villanueva F. Preferences in the Willingness to Download a COVID-19 Contact Tracing App in the Netherlands and Turkey: Experimental Study. JMIR Formative Research 2022;6(7):e37891 View
  6. Vincent W. Developing and Evaluating a Measure of the Willingness to Use Pandemic-Related mHealth Tools Using National Probability Samples in the United States: Quantitative Psychometric Analyses and Tests of Sociodemographic Group Differences. JMIR Formative Research 2023;7:e38298 View
  7. Osmanlliu E, Paquette J, Rodriguez Duarte M, Bédard S, de Marcellis-Warin N, Zhegu M, Régis C, Bouthillier M, Grenier A, Lewis P, Pomey M. Public Perspectives on Exposure Notification Apps: A Patient and Citizen Co-Designed Study. Journal of Personalized Medicine 2022;12(5):729 View
  8. Shaw Jr G, Nadkarni D, Phann E, Sielaty R, Ledenyi M, Abnowf R, Xu Q, Arredondo P, Chen S. Separating Features From Functionality in Vaccination Apps: Computational Analysis. JMIR Formative Research 2022;6(10):e36818 View
  9. Halimi S. Deux années de Covid-19 : premières leçons de cette pandémie. Médecine des Maladies Métaboliques 2022;16(2):107 View
  10. Huang Y, Obada-Obieh B, Lokam S, Beznosov K. Users' Expectations, Experiences, and Concerns With COVID Alert, an Exposure-Notification App. Proceedings of the ACM on Human-Computer Interaction 2022;6(CSCW2):1 View
  11. Kim Y, Choi J, Ji Y, Woo H. Insights from Review and Content Analysis of Current COVID-19 Mobile Apps and Recommendations for Future Pandemics. International Journal of Environmental Research and Public Health 2022;19(22):14652 View
  12. Alo U, Nkwo F, Nweke H, Achi I, Okemiri H. Non-Pharmaceutical Interventions against COVID-19 Pandemic: Review of Contact Tracing and Social Distancing Technologies, Protocols, Apps, Security and Open Research Directions. Sensors 2021;22(1):280 View
  13. Oyibo K, Morita P. The Effect of Persuasive Design on the Adoption of Exposure Notification Apps: Quantitative Study Based on COVID Alert. JMIR Formative Research 2022;6(9):e34212 View
  14. Smits M, Back N, Ebbers W. Responsible design and implementation of technologies for the prevention of infectious diseases: towards a values-based assessment framework for the Dutch government. Public Health 2023;222:29 View
  15. Dolezel M, Smutny Z. Adoption of a COVID-19 Contact Tracing App by Czech Youth: Cross-Cultural Replication Study. JMIR Human Factors 2023;10:e45481 View
  16. Alterkait M, Almutarie A, Alduaij M. Thematic Analysis of User Experience of Contact Tracing Applications for COVID-19 Using Twitter Data. Journal of Cases on Information Technology 2024;26(1):1 View