This paper is in the following e-collection/theme issue:

Theme Issue: Apps for COVID-19 (#Apps4Covid) (136) JMIR Theme Issue: COVID-19 Special Issue (2452) Digital Contact Tracing, Digital Proximity Tracing, Precision Public Health (148) Hygiene and Infection Prevention (317) Infectious Diseases (non-STD/STI) (1575) Outbreak and Pandemic Preparedness and Management (1727)

Published on in Vol 8, No 10 (2020): October

Preprints (earlier versions) of this paper are available at https://preprints.jmir.org/preprint/23148, first published .
Performance of Digital Contact Tracing Tools for COVID-19 Response in Singapore: Cross-Sectional Study

Performance of Digital Contact Tracing Tools for COVID-19 Response in Singapore: Cross-Sectional Study

Performance of Digital Contact Tracing Tools for COVID-19 Response in Singapore: Cross-Sectional Study

Authors of this article:

Zhilian Huang1 Author Orcid Image ;   Huiling Guo1 Author Orcid Image ;   Yee-Mun Lee2, 3 Author Orcid Image ;   Eu Chin Ho4 Author Orcid Image ;   Hou Ang5 Author Orcid Image ;   Angela Chow1, 3 Author Orcid Image
Article Authors Cited by (59) Tweetations (10) Metrics

Journals

  1. Basit M, Lehmann C, Medford R. Managing Pandemics with Health Informatics: Successes and Challenges. Yearbook of Medical Informatics 2021;30(01):017 View
  2. Mao Z, Yao H, Zou Q, Zhang W, Dong Y. Digital Contact Tracing Based on a Graph Database Algorithm for Emergency Management During the COVID-19 Epidemic: Case Study. JMIR mHealth and uHealth 2021;9(1):e26836 View
  3. von Wyl V. Challenges for Nontechnical Implementation of Digital Proximity Tracing During the COVID-19 Pandemic: Media Analysis of the SwissCovid App. JMIR mHealth and uHealth 2021;9(2):e25345 View
  4. Idrees S, Nowostawski M, Jameel R. Blockchain-Based Digital Contact Tracing Apps for COVID-19 Pandemic Management: Issues, Challenges, Solutions, and Future Directions. JMIR Medical Informatics 2021;9(2):e25245 View
  5. Huang Z, Guo H, Lim H, Chow A. Awareness, acceptance, and adoption of the national digital contact tracing tool post COVID-19 lockdown among visitors to a public hospital in Singapore. Clinical Microbiology and Infection 2021;27(7):1046 View
  6. Shahroz M, Ahmad F, Younis M, Ahmad N, Kamel Boulos M, Vinuesa R, Qadir J. COVID-19 digital contact tracing applications and techniques: A review post initial deployments. Transportation Engineering 2021;5:100072 View
  7. O'Connell J, Abbas M, Beecham S, Buckley J, Chochlov M, Fitzgerald B, Glynn L, Johnson K, Laffey J, McNicholas B, Nuseibeh B, O'Callaghan M, O'Keeffe I, Razzaq A, Rekanar K, Richardson I, Simpkin A, Storni C, Tsvyatkova D, Walsh J, Welsh T, O'Keeffe D. Best Practice Guidance for Digital Contact Tracing Apps: A Cross-disciplinary Review of the Literature. JMIR mHealth and uHealth 2021;9(6):e27753 View
  8. Chung S, Marlow S, Tobias N, Alogna A, Alogna I, You S, Khunti K, McKee M, Michie S, Pillay D. Lessons from countries implementing find, test, trace, isolation and support policies in the rapid response of the COVID-19 pandemic: a systematic review. BMJ Open 2021;11(7):e047832 View
  9. Lueks W, Benzler J, Bogdanov D, Kirchner G, Lucas R, Oliveira R, Preneel B, Salathé M, Troncoso C, von Wyl V. Toward a Common Performance and Effectiveness Terminology for Digital Proximity Tracing Applications. Frontiers in Digital Health 2021;3 View
  10. Villius Zetterholm M, Jokela P. Addressing Complexity in the Pandemic Context: How Systems Thinking Can Facilitate Understanding of Design Aspects for Preventive Technologies. Informatics 2023;10(1):7 View
  11. Baha Raja D, Abdul Taib N, Teo A, Jayaraj V, Ting C. Vaccines alone are no silver bullets: a modeling study on the impact of efficient contact tracing on COVID-19 infection and transmission in Malaysia. International Health 2023;15(1):37 View
  12. Gulbransen-Diaz N, Yoo S, Wang A. Nurse, Give Me the News! Understanding Support for and Opposition to a COVID-19 Health Screening System. International Journal of Environmental Research and Public Health 2023;20(2):1164 View
  13. Ng G, Ong B. Contact tracing using real-time location system (RTLS): a simulation exercise in a tertiary hospital in Singapore. BMJ Open 2022;12(10):e057522 View
  14. O’Callaghan M, Abbas M, Buckley J, Fitzgerald B, Johnson K, Laffey J, McNicholas B, Nuseibeh B, O’Keeffe D, Beecham S, Razzaq A, Rekanar K, Richardson I, Simpkin A, O’Connell J, Storni C, Tsvyatkova D, Walsh J, Welsh T, Glynn L. Public opinion of the Irish “COVID Tracker” digital contact tracing App: A national survey. DIGITAL HEALTH 2022;8:205520762210850 View
  15. Vogt F, Haire B, Selvey L, Katelaris A, Kaldor J. Effectiveness evaluation of digital contact tracing for COVID-19 in New South Wales, Australia. The Lancet Public Health 2022;7(3):e250 View
  16. Huang Z, Guo H, Lim H, Ho K, Tay E, Chow A. The value of social interactions and incentives on the use of a digital contact tracing tool post COVID-19 lockdown in Singapore. Scientific Reports 2022;12(1) View
  17. Sanz N, Urías M, Salgado L, Benítez N, Martínez M. Educate to transform: An innovative experience for faculty training. Education and Information Technologies 2023;28(2):1613 View
  18. Huang Z, Tay E, Wee D, Guo H, Lim H, Chow A. Public Perception of the Use of Digital Contact-Tracing Tools After the COVID-19 Lockdown: Sentiment Analysis and Opinion Mining. JMIR Formative Research 2022;6(3):e33314 View
  19. Koh K, Lim H, Lim J, Wei Y, Minn P, Wong J. Development and implementation of a national mobile health application: A case study from Brunei. Journal of Global Health 2022;12 View
  20. Hong P, Herigon J, Uptegraft C, Samuel B, Brown D, Bickel J, Hron J. Use of clinical data to augment healthcare worker contact tracing during the COVID-19 pandemic. Journal of the American Medical Informatics Association 2021;29(1):142 View
  21. Linares A, Bramstedt K, Chilukuri M, Doraiswamy M. Physician perceptions of surveillance: Wearables, Apps, and Chatbots for COVID-19. Digital Medicine 2022;8:10 View
  22. Reeves J, Pageler N, Wick E, Melton G, Tan Y, Clay B, Longhurst C. The Clinical Information Systems Response to the COVID-19 Pandemic. Yearbook of Medical Informatics 2021;30(01):105 View
  23. Joshi R, Ng E, Singh R, Kuan W, Daruwalla Z. The Use of a Real-Time COVID-19 Standalone Device in an Emergency Department of a Tertiary Hospital in Singapore: A Pilot Observational Study. COVID 2022;2(3):419 View
  24. Anand S, Shuy Y, Lee P, Lee E. One Year on: An Overview of Singapore’s Response to COVID-19—What We Did, How We Fared, How We Can Move Forward. International Journal of Environmental Research and Public Health 2021;18(17):9125 View
  25. Kim M, Ryu U, Heo S, Kim Y, Park Y. The Potential Role of an Adjunctive Real-Time Locating System in Preventing Secondary Transmission of SARS-CoV-2 in a Hospital Environment: Retrospective Case-Control Study. Journal of Medical Internet Research 2022;24(10):e41395 View
  26. Sujarwoto S, Holipah H, Maharani A. A Cross-Sectional Study of Knowledge, Attitudes, and Practices concerning COVID-19 Outbreaks in the General Population in Malang District, Indonesia. International Journal of Environmental Research and Public Health 2022;19(7):4287 View
  27. Chemweno P, Sullivan B, Bermperidis G, Thiede S. Exploring the Added-Value of Integrating Real-Time Location Systems for Tracking Critical Maintenance Tools. Procedia CIRP 2022;107:902 View
  28. Kim S, Goh Y, Kang J. Moving toward a common goal via cross-sector collaboration: lessons learned from SARS to COVID-19 in Singapore. Globalization and Health 2022;18(1) View
  29. Ojokoh B, Aribisala B, Sarumi O, Gabriel A, Omisore O, Taiwo A, Igbe T, Chukwuocha U, Yusuf T, Afolayan A, Babalola O, Adebayo T, Afolabi O. Contact Tracing Strategies for COVID-19 Prevention and Containment: A Scoping Review. Big Data and Cognitive Computing 2022;6(4):111 View
  30. Bannister-Tyrrell M, Chen M, Choi V, Miglietta A, Galea G. Systematic scoping review of the implementation, adoption, use, and effectiveness of digital contact tracing interventions for COVID-19 in the Western Pacific Region. The Lancet Regional Health - Western Pacific 2023;34:100647 View
  31. Peca J, Grimes G, Nasereddin M, Glantz E. A Review of COVID-19 Mobile Contact Tracing Applications and Their Impact on Privacy. International Journal of Interdisciplinary Telecommunications and Networking 2022;14(1):1 View
  32. Aronoff-Spencer E, Nebeker C, Wenzel A, Nguyen K, Kunowski R, Zhu M, Adamos G, Goyal R, Mazrouee S, Reyes A, May N, Howard H, Longhurst C, Malekinejad M. Defining Key Performance Indicators for the California COVID-19 Exposure Notification System (CA Notify). Public Health Reports® 2022;137(2_suppl):67S View
  33. Shelby T, Caruthers T, Kanner O, Schneider R, Lipnickas D, Grau L, Manohar R, Niccolai L. Pilot Evaluations of Two Bluetooth Contact Tracing Approaches on a University Campus: Mixed Methods Study. JMIR Formative Research 2021;5(10):e31086 View
  34. Zhu X, Tao Y, Zhu R, Wu D, Ming W. Impact of Hospital Characteristics and Governance Structure on the Adoption of Tracking Technologies for Clinical and Supply Chain Use: Longitudinal Study of US Hospitals. Journal of Medical Internet Research 2022;24(5):e33742 View
  35. Zobel M, Knapp B, Nateqi J, Martin A, V. E. S. Correlating global trends in COVID-19 cases with online symptom checker self-assessments. PLOS ONE 2023;18(2):e0281709 View
  36. Geenen C, Raymenants J, Gorissen S, Thibaut J, McVernon J, Lorent N, André E. Individual level analysis of digital proximity tracing for COVID-19 in Belgium highlights major bottlenecks. Nature Communications 2023;14(1) View
  37. Guo W, Lv C, Guo M, Zhao Q, Yin X, Zhang L. Innovative applications of artificial intelligence in zoonotic disease management. Science in One Health 2023;2:100045 View
  38. Wong A, Zoller C, Fouda A, Paolucci F. Are we past the COVID-19 Pandemic? Insights from Singapore. Health Policy and Technology 2024;13(1):100779 View
  39. Yeung A, Torkamani A, Butte A, Glicksberg B, Schuller B, Rodriguez B, Ting D, Bates D, Schaden E, Peng H, Willschke H, van der Laak J, Car J, Rahimi K, Celi L, Banach M, Kletecka-Pulker M, Kimberger O, Eils R, Islam S, Wong S, Wong T, Gao W, Brunak S, Atanasov A. The promise of digital healthcare technologies. Frontiers in Public Health 2023;11 View
  40. LIU J, WU J, GONG S, HU W, ZHOU Y, HU S. RESEARCH AND APPLICATION ADVANCES OF ARTIFICIAL INTELLIGENCE IN DIAGNOSIS AND EPIDEMIC PREDICTION OF COVID-19. Fractals 2023;31(06) View
  41. Wang H, Lin T, Yao Y, Hsu C, Yang C, Chen T, Yeh Y. Community-Based Digital Contact Tracing of Emerging Infectious Diseases: Design and Implementation Study With Empirical COVID-19 Cases. Journal of Medical Internet Research 2023;25:e47219 View
  42. Aung A, Li A, Kyaw W, Khanna R, Lim W, Ang H, Chow A. Harnessing a real-time location system for contact tracing in a busy emergency department. Journal of Hospital Infection 2023;141:63 View
  43. Prabhune A, Bhat S, Mallavaram A, Mehar Shagufta A, Srinivasan S. A Situational Analysis of the Impact of the COVID-19 Pandemic on Digital Health Research Initiatives in South Asia. Cureus 2023 View
  44. 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
  45. Vazquez Guillamet M, Rjob A, Zhang J, Dai R, Wang R, Damulira C, Hamauon R, Candell J, Kwon J, Babcock H, Bailey T, Lu C, Fraser V. Leveraging Bluetooth low-energy technology to improve contact tracing among healthcare personnel in hospital setting during the coronavirus disease 2019 (COVID-19) pandemic. Infection Control & Hospital Epidemiology 2024;45(4):546 View
  46. Comer L, Donelle L, Hiebert B, Smith M, Kothari A, Stranges S, Gilliland J, Long J, Burkell J, Shelley J, Hall J, Shelley J, Cooke T, Ngole Dione M, Facca D. Short- and Long-Term Predicted and Witnessed Consequences of Digital Surveillance During the COVID-19 Pandemic: Scoping Review. JMIR Public Health and Surveillance 2024;10:e47154 View
  47. Shearer F, McCaw J, Ryan G, Hao T, Tierney N, Lydeamore M, Wu L, Ward K, Ellis S, Wood J, McVernon J, Golding N. Estimating the impact of test–trace–isolate–quarantine systems on SARS-CoV-2 transmission in Australia. Epidemics 2024;47:100764 View
  48. Kim M, Kim J, Ra H, Jeong S, Park Y, Won D, Lee H, Kim H. Identifying Contact Time Required for Secondary Transmission ofClostridioides difficileInfections by Using Real-Time Locating System. Emerging Infectious Diseases 2024;30(5) View
  49. Irwin N, Aisyah D, Rahman F, Manikam L. Digital contact tracing technology in the COVID-19 pandemic: a systematic review. Health and Technology 2024;14(6):1229 View
  50. Václavíková K, Šoukalová K, Kožená M, Brodský Z, Mandysová M, Ochtinská H, Šatera K, Horáčková K. PREVENTIVE MEASURES OF RESPIRATORY DISEASES AND IMPACT ON EMPLOYEE MORBIDITY - POSSIBILITIES OF USING ELECTRONIC PLATFORMS. Military Medical Science Letters 2024;93(2):206 View
  51. Muntoni A, Mazza F, Braunstein A, Catania G, Dall’Asta L, Galea S. Effectiveness of probabilistic contact tracing in epidemic containment: The role of superspreaders and transmission path reconstruction. PNAS Nexus 2024;3(9) View
  52. Leng J, Lin Z, Yoo S, Scandurra G, Dickinson M, Vucetic B, Wang A. Healthcare Internet of Things system implementations for COVID-19 prevention. Frontiers in Communications and Networks 2024;5 View

Books/Policy Documents

  1. Basir M, Abbas S. Biotechnology in Healthcare. View
  2. Chen J, Tan S, Chua P, Lim J, Yap J. Impacts of the Covid‐19 Pandemic. View