Published on in Vol 8, No 11 (2022): November
Preprints (earlier versions) of this paper are
available at
https://preprints.jmir.org/preprint/41004, first published
.
Journals
- Fosch A, Aleta A, Moreno Y. Characterizing the role of human behavior in the effectiveness of contact-tracing applications. Frontiers in Public Health 2023;11 View
- Leal Neto O, Von Wyl V. Digital transformation of public health for non-communicable diseases: a narrative viewpoint of challenges and opportunities (Preprint). JMIR Public Health and Surveillance 2023 View
- Ter Haar W, Bosdriesz J, Venekamp R, Schuit E, van den Hof S, Ebbers W, Kretzschmar M, Kluijtmans J, Moons C, Schim van der Loeff M, Matser A, van de Wijgert J, Tizzoni M. The epidemiological impact of digital and manual contact tracing on the SARS-CoV-2 epidemic in the Netherlands: Empirical evidence. PLOS Digital Health 2023;2(12):e0000396 View
- Anand A, Vialard F, Esmail A, Ahmad Khan F, O’Byrne P, Routy J, Dheda K, Pant Pai N, Asweto C. Self-tests for COVID-19: What is the evidence? A living systematic review and meta-analysis (2020–2023). PLOS Global Public Health 2024;4(2):e0002336 View
- Chambers T, Anglemyer A, Chen A, Baker M. An evaluation of the COVID-19 self-service digital contact tracing system in New Zealand. Health Policy 2024;144:105073 View
- Chambers T, Anglemyer A, Chen A, Atkinson J, Baker M. Population and contact tracer uptake of New Zealand’s QR-code-based digital contact tracing app for COVID-19. Epidemiology and Infection 2024;152 View