Limitations of malaria reactive case detection in an area of low and unstable transmission on the Myanmar-Thailand border
© 2016 The Author(s). Background: Reactive case detection is an approach that has been proposed as a tool for malaria elimination in low-transmission settings. It is an intuitively justified approach based on the concept of space-time clustering of malaria cases. When an index malaria clinical case...
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th-mahidol.407942019-03-14T15:01:42Z Limitations of malaria reactive case detection in an area of low and unstable transmission on the Myanmar-Thailand border Daniel M. Parker Jordi Landier Lorenz Von Seidlein Arjen Dondorp Lisa White Borimas Hanboonkunupakarn Richard J. Maude François H. Nosten Mahidol University Nuffield Department of Clinical Medicine Harvard School of Public Health Immunology and Microbiology Medicine © 2016 The Author(s). Background: Reactive case detection is an approach that has been proposed as a tool for malaria elimination in low-transmission settings. It is an intuitively justified approach based on the concept of space-time clustering of malaria cases. When an index malaria clinical case is detected, it triggers reactive screening and treatment in the index house and neighbouring houses. However, the efficacy of this approach at varying screening radii and malaria prevalence remains ill defined. Methods: Data were obtained from a detailed demographic and geographic surveillance study in four villages on the Myanmar-Thailand border. Clinical cases were recorded at village malaria clinics and were linked back to patients’ residencies. These data were used to simulate the efficacy of reactive case detection for clinical cases using rapid diagnostic tests (RDT). Simulations took clinical cases in a given month and tabulated the number of cases that would have been detected in the following month at varying screening radii around the index houses. Simulations were run independently for both falciparum and vivax malaria. Each simulation of a reactive case detection effort was run in comparison with a strategy using random selection of houses for screening. Results: In approximately half of the screenings for falciparum and 10% for vivax it would have been impossible to detect any malaria cases regardless of the screening strategy because the screening would have occurred during times when there were no cases. When geographically linked cases were present in the simulation, reactive case detection would have only been successful at detecting most malaria cases using larger screening radii (150-m radius and above). At this screening radius and above, reactive case detection does not perform better than random screening of an equal number of houses in the village. Screening within very small radii detects only a very small proportion of cases, but despite this low performance is better than random screening with the same sample size. Conclusions: The results of these simulations indicate that reactive case detection for clinical cases using RDTs has limited ability in halting transmission in regions of low and unstable transmission. This is linked to high spatial heterogeneity of cases, acquisition of malaria infections outside the village, as well missing asymptomatic infections. When cases are few and sporadic, reactive case detection would result in major time and budgetary losses. 2018-12-11T02:56:20Z 2019-03-14T08:01:42Z 2018-12-11T02:56:20Z 2019-03-14T08:01:42Z 2016-11-25 Article Malaria Journal. Vol.15, No.1 (2016), 1-11 10.1186/s12936-016-1631-9 14752875 2-s2.0-84997124488 https://repository.li.mahidol.ac.th/handle/123456789/40794 Mahidol University SCOPUS https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84997124488&origin=inward |
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Immunology and Microbiology Medicine Daniel M. Parker Jordi Landier Lorenz Von Seidlein Arjen Dondorp Lisa White Borimas Hanboonkunupakarn Richard J. Maude François H. Nosten Limitations of malaria reactive case detection in an area of low and unstable transmission on the Myanmar-Thailand border |
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© 2016 The Author(s). Background: Reactive case detection is an approach that has been proposed as a tool for malaria elimination in low-transmission settings. It is an intuitively justified approach based on the concept of space-time clustering of malaria cases. When an index malaria clinical case is detected, it triggers reactive screening and treatment in the index house and neighbouring houses. However, the efficacy of this approach at varying screening radii and malaria prevalence remains ill defined. Methods: Data were obtained from a detailed demographic and geographic surveillance study in four villages on the Myanmar-Thailand border. Clinical cases were recorded at village malaria clinics and were linked back to patients’ residencies. These data were used to simulate the efficacy of reactive case detection for clinical cases using rapid diagnostic tests (RDT). Simulations took clinical cases in a given month and tabulated the number of cases that would have been detected in the following month at varying screening radii around the index houses. Simulations were run independently for both falciparum and vivax malaria. Each simulation of a reactive case detection effort was run in comparison with a strategy using random selection of houses for screening. Results: In approximately half of the screenings for falciparum and 10% for vivax it would have been impossible to detect any malaria cases regardless of the screening strategy because the screening would have occurred during times when there were no cases. When geographically linked cases were present in the simulation, reactive case detection would have only been successful at detecting most malaria cases using larger screening radii (150-m radius and above). At this screening radius and above, reactive case detection does not perform better than random screening of an equal number of houses in the village. Screening within very small radii detects only a very small proportion of cases, but despite this low performance is better than random screening with the same sample size. Conclusions: The results of these simulations indicate that reactive case detection for clinical cases using RDTs has limited ability in halting transmission in regions of low and unstable transmission. This is linked to high spatial heterogeneity of cases, acquisition of malaria infections outside the village, as well missing asymptomatic infections. When cases are few and sporadic, reactive case detection would result in major time and budgetary losses. |
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Mahidol University |
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Mahidol University Daniel M. Parker Jordi Landier Lorenz Von Seidlein Arjen Dondorp Lisa White Borimas Hanboonkunupakarn Richard J. Maude François H. Nosten |
| format |
Article |
| author |
Daniel M. Parker Jordi Landier Lorenz Von Seidlein Arjen Dondorp Lisa White Borimas Hanboonkunupakarn Richard J. Maude François H. Nosten |
| author_sort |
Daniel M. Parker |
| title |
Limitations of malaria reactive case detection in an area of low and unstable transmission on the Myanmar-Thailand border |
| title_short |
Limitations of malaria reactive case detection in an area of low and unstable transmission on the Myanmar-Thailand border |
| title_full |
Limitations of malaria reactive case detection in an area of low and unstable transmission on the Myanmar-Thailand border |
| title_fullStr |
Limitations of malaria reactive case detection in an area of low and unstable transmission on the Myanmar-Thailand border |
| title_full_unstemmed |
Limitations of malaria reactive case detection in an area of low and unstable transmission on the Myanmar-Thailand border |
| title_sort |
limitations of malaria reactive case detection in an area of low and unstable transmission on the myanmar-thailand border |
| publishDate |
2018 |
| url |
https://repository.li.mahidol.ac.th/handle/123456789/40794 |
| _version_ |
1763495906127118336 |