Published on in Vol 7, No 10 (2021): October

Preprints (earlier versions) of this paper are available at https://preprints.jmir.org/preprint/32468, first published .
Effectiveness of Contact Tracing for Viral Disease Mitigation and Suppression: Evidence-Based Review

Effectiveness of Contact Tracing for Viral Disease Mitigation and Suppression: Evidence-Based Review

Effectiveness of Contact Tracing for Viral Disease Mitigation and Suppression: Evidence-Based Review

Journals

  1. Barnes-Josiah D, Kundeti H, Cramer D. Factors Influencing the Results of COVID-19 Case Outreach—Results From a California Case Investigation/Contact Tracing Program. Journal of Public Health Management and Practice 2022 View
  2. Kuroki M, Yamamoto K, Goldfinch S. Factors Influencing the Adoption of Voluntary Nonpharmaceutical Interventions to Control COVID-19 in Japan: Cross-sectional Study. JMIR Formative Research 2022;6(8):e34268 View
  3. Kearney P, Stamenic D, Gajewska K, O'Sullivan M, Doyle S, O'Reilly O, Buckley C. Cross-sectional survey of compliance behaviour, knowledge and attitudes among cases and close contacts during COVID-19 pandemic. Public Health in Practice 2023;5:100370 View
  4. Marques-Cruz M, Nogueira-Leite D, Alves J, Fernandes F, Fernandes J, Almeida M, Cunha Correia P, Perestrelo P, Cruz-Correia R, Pita Barros P. COVID-19 Contact Tracing as an Indicator for Evaluating a Pandemic Situation: Simulation Study. JMIR Public Health and Surveillance 2023;9:e43836 View
  5. Paulo M, Peyroteo M, Maia M, Pries C, Habl C, Lapão L. Impacts of public health and social measures on COVID-19 in Europe: a review and modified Delphi technique. Frontiers in Public Health 2023;11 View
  6. Amicosante A, Rosso A, Bernardini F, Guglielmi E, Eugeni E, Da Re F, Baglio G. COVID-19 Contact Tracing Strategies During the First Wave of the Pandemic: Systematic Review of Published Studies. JMIR Public Health and Surveillance 2023;9:e42678 View
  7. Haltaufderheide J, Viero D, Krämer D. Cultural Implications Regarding Privacy in Digital Contact Tracing Algorithms: Method Development and Empirical Ethics Analysis of a German and a Japanese Approach to Contact Tracing. Journal of Medical Internet Research 2023;25:e45112 View
  8. Udeagu C, Gbedemah M, Pitiranggon M, Feldman S, Cordoba E, Goldenberg S, Keeley C, Blaney K, Vora N, Long T. Integrating Contact Tracers Into Point-of-Care Testing Workflow to Accelerate the Tracing of People With Exposure to COVID-19, August-December 2020, New York City. Journal of Public Health Management and Practice 2023;29(5):708 View
  9. Talli I, Padoan A, Moz S, Navaglia F, Plebani M, Basso D. Evaluation of a new molecular test for the detection of SARS-CoV-2 nucleic acid in salivary samples. Journal of Medical Biochemistry 2023;42(4):658 View
  10. Chow B, Lim Y, Poh R, Ko A, Hong G, Zou S, Cheah J, Ho S, Lee V, Ho M. Use of a digital contact tracing system in Singapore to mitigate COVID-19 spread. BMC Public Health 2023;23(1) View
  11. Huguet-Torres A, Castro-Sánchez E, Capitán-Moyano L, Sánchez-Rodríguez C, Bennasar-Veny M, Yáñez A. Personal protective measures and settings on the risk of SARS-COV-2 community transmission: a case–control study. Frontiers in Public Health 2024;11 View
  12. Prins H, Coyer L, De Angelis S, Bluemel B, Cauchi D, Baka A. Evaluation of mpox contact tracing activities and data collection in EU/EEA countries during the 2022 multicountry outbreak in nonendemic countries. Journal of Medical Virology 2024;96(1) View
  13. Padoan A, Cosma C, Di Chiara C, Furlan G, Gastaldo S, Talli I, Donà D, Basso D, Giaquinto C, Plebani M. Clinical and Analytical Performance of ELISA Salivary Serologic Assay to Detect SARS-CoV-2 IgG in Children and Adults. Antibodies 2024;13(1):6 View
  14. Packer S, Patrzylas P, Smith I, Chen C, Wensley A, Nsonwu O, Dack K, Turner C, Anderson C, Kwiatkowska R, Oliver I, Edeghere O, Fraser G, Hughes G, Buchan I. COVID-19 cluster surveillance using exposure data collected from routine contact tracing: The genomic validation of a novel informatics-based approach to outbreak detection in England. PLOS Digital Health 2024;3(4):e0000485 View
  15. Andrade J, Beishuizen B, Stein M, Connolly M, Duggan J. Preparing for pandemic response in the context of limited resources. System Dynamics Review 2024;40(3) View
  16. Ben Said S, Jaballah R, Yaakoubi H, Ben Salah H, Youssef R, Mzid N, Kacemi M, Trabelsi I, Ben Ayed A, Ben Ayed S, Boukadida L, Zorgati A, Boukef R. Canine olfactory detection and its relevance for the medical identification of patients with COVID-19. Infectious Diseases 2024;56(10):880 View
  17. Paul M, Kwok L, Massar R, Chau M, Larson R, Bendik S, Thorpe L, Bershteyn A, Islam N, Berry C. Lessons Learned from the Launch and Implementation of the COVID-19 Contact Tracing Program in New York City: a Qualitative Study. Journal of Urban Health 2024;101(5):888 View
  18. Aschmann H, Domenghino A, Jung R, Ballouz T, Menges D, Fehr J, Puhan M. SARS-CoV-2 Quarantine Mandated by Contact Tracing: Burden and Infection Rate Among Close Contacts in Zurich, Switzerland, 2020–2021. International Journal of Public Health 2024;69 View
  19. Xia F, Xiao Y, Ma J, Fu F. The optimal spatially-dependent control measures to effectively and economically eliminate emerging infectious diseases. PLOS Computational Biology 2024;20(10):e1012498 View