Performance and impact of contact tracing in the Sudan virus outbreak in Uganda, September 2022-January 2023

Mercy Wendy Wanyana; Rebecca Akunzirwe; Patrick King; Immaculate Atuhaire; Robert Zavuga; Bernard Lubwama; Zainah Kabami; Sherry Rita Ahirirwe; Mackline Ninsiima; Hellen Nelly Naiga; Jane Frances Zalwango; Marie Gorreti Zalwango; Peter Chris Kawungezi; Brenda Nakafeero Simbwa; Saudah Namubiru Kizito; Thomas Kiggundu; Brian Agaba; Richard Migisha; Daniel Kadobera; Benon Kwesiga; Lilian Bulage; Alex Riolexus Ario; Julie R Harris

doi:10.1016/j.ijid.2024.02.002

Performance and impact of contact tracing in the Sudan virus outbreak in Uganda, September 2022-January 2023

Int J Infect Dis. 2024 Apr:141:106959. doi: 10.1016/j.ijid.2024.02.002. Epub 2024 Feb 8.

Authors

Mercy Wendy Wanyana¹, Rebecca Akunzirwe², Patrick King², Immaculate Atuhaire², Robert Zavuga², Bernard Lubwama³, Zainah Kabami², Sherry Rita Ahirirwe², Mackline Ninsiima², Hellen Nelly Naiga², Jane Frances Zalwango², Marie Gorreti Zalwango², Peter Chris Kawungezi², Brenda Nakafeero Simbwa², Saudah Namubiru Kizito², Thomas Kiggundu², Brian Agaba², Richard Migisha², Daniel Kadobera², Benon Kwesiga², Lilian Bulage², Alex Riolexus Ario³, Julie R Harris⁴

Affiliations

¹ Uganda Public Health Fellowship Program-Uganda National Institute of Public Health, Kampala, Uganda. Electronic address: mwanyana@uniph.go.ug.
² Uganda Public Health Fellowship Program-Uganda National Institute of Public Health, Kampala, Uganda.
³ Ministry of Health, Kampala, Uganda.
⁴ Division of Global Health Protection, US Centers for Disease Control and Prevention, Kampala, Uganda.

PMID: 38340782
DOI: 10.1016/j.ijid.2024.02.002

Abstract

Background: Contact tracing (CT) is critical for ebolavirus outbreak response. Ideally, all new cases after the index case should be previously-known contacts (PKC) before their onset, and spend minimal time ill in the community. We assessed the impact of CT during the 2022 Sudan Virus Disease (SVD) outbreak in Uganda.

Methods: We collated anonymized data from the SVD case and contacts database to obtain and analyze data on CT performance indicators, comparing confirmed cases that were PKC and were not PKC (NPKC) before onset. We assessed the effect of being PKC on the number of people infected using Poisson regression.

Results: There were 3844 contacts of 142 confirmed cases (mean: 22 contacts/case). Forty-seven (33%) confirmed cases were PKC. PKCs had fewer median days from onset to isolation (4 vs 6; P<0.007) and laboratory confirmation (4 vs 7; P<0.001) than NPKC. Being a PKC vs NPKC reduced risk of transmitting infection by 84% (IRR=0.16, 95% CI 0.08-0.32).

Conclusion: Contact identification was sub-optimal during the outbreak. However, CT reduced the time SVD cases spent in the community before isolation and the number of persons infected in Uganda. Approaches to improve contact tracing, especially contact listing, may improve control in future outbreaks.

Keywords: Contact tracing; Sudan Ebola virus disease; Uganda.

MeSH terms

Contact Tracing
Disease Outbreaks
Ebolavirus*
Hemorrhagic Fever, Ebola* / epidemiology
Hemorrhagic Fever, Ebola* / prevention & control
Humans
Uganda / epidemiology