Publication: Mass drug administration for the acceleration of malaria elimination in a region of Myanmar with artemisinin-resistant falciparum malaria: a cluster-randomised trial
Issued Date
2021-11-01
Resource Type
ISSN
14744457
14733099
14733099
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2-s2.0-85116198986
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Mahidol University
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SCOPUS
Bibliographic Citation
The Lancet Infectious Diseases. Vol.21, No.11 (2021), 1579-1589
Suggested Citation
Alistair R.D. McLean, Chanida Indrasuta, Zay Soe Khant, Aung Kyaw Phyo, Sai Maung Maung, James Heaton, Hein Aung, Ye Aung, Kyaw Soe, Myo Maung Maung Swe, Lorenz von Seidlein, Ni Ni Tun, Kyaw Myo Tun, Nicholas P.J. Day, Elizabeth A. Ashley, Thaung Hlaing, Thar Tun Kyaw, Arjen M. Dondorp, Mallika Imwong, Nicholas J. White, Frank M. Smithuis Mass drug administration for the acceleration of malaria elimination in a region of Myanmar with artemisinin-resistant falciparum malaria: a cluster-randomised trial. The Lancet Infectious Diseases. Vol.21, No.11 (2021), 1579-1589. doi:10.1016/S1473-3099(20)30997-X Retrieved from: https://repository.li.mahidol.ac.th/handle/20.500.14594/77725
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Title
Mass drug administration for the acceleration of malaria elimination in a region of Myanmar with artemisinin-resistant falciparum malaria: a cluster-randomised trial
Author(s)
Alistair R.D. McLean
Chanida Indrasuta
Zay Soe Khant
Aung Kyaw Phyo
Sai Maung Maung
James Heaton
Hein Aung
Ye Aung
Kyaw Soe
Myo Maung Maung Swe
Lorenz von Seidlein
Ni Ni Tun
Kyaw Myo Tun
Nicholas P.J. Day
Elizabeth A. Ashley
Thaung Hlaing
Thar Tun Kyaw
Arjen M. Dondorp
Mallika Imwong
Nicholas J. White
Frank M. Smithuis
Chanida Indrasuta
Zay Soe Khant
Aung Kyaw Phyo
Sai Maung Maung
James Heaton
Hein Aung
Ye Aung
Kyaw Soe
Myo Maung Maung Swe
Lorenz von Seidlein
Ni Ni Tun
Kyaw Myo Tun
Nicholas P.J. Day
Elizabeth A. Ashley
Thaung Hlaing
Thar Tun Kyaw
Arjen M. Dondorp
Mallika Imwong
Nicholas J. White
Frank M. Smithuis
Abstract
Background: To contain multidrug-resistant Plasmodium falciparum, malaria elimination in the Greater Mekong subregion needs to be accelerated while current antimalarials remain effective. We evaluated the safety, effectiveness, and potential resistance selection of dihydroartemisinin–piperaquine mass drug administration (MDA) in a region with artemisinin resistance in Myanmar. Methods: We did a cluster-randomised controlled trial in rural community clusters in Kayin (Karen) state in southeast Myanmar. Malaria prevalence was assessed using ultrasensitive quantitative PCR (uPCR) in villages that were operationally suitable for MDA (villages with community willingness, no other malaria control campaigns, and a population of 50–1200). Villages were eligible to participate if the prevalence of malaria (all species) in adults was greater than 30% or P falciparum prevalence was greater than 10% (or both). Contiguous villages were combined into clusters. Eligible clusters were paired based on P falciparum prevalence (estimates within 10%) and proximity. Community health workers provided routine malaria case management and distributed long-lasting insecticidal bed-nets (LLINs) in all clusters. Randomisation of clusters (1:1) to the MDA intervention group or control group was by public coin-flip. Group allocations were not concealed. Three MDA rounds (3 days of supervised dihydroartemisinin–piperaquine [target total dose 7 mg/kg dihydroartemisinin and 55 mg/kg piperaquine] and single low-dose primaquine [target dose 0·25 mg base per kg]) were delivered to intervention clusters. Parasitaemia prevalence was assessed at 3, 5, 10, 15, 21, 27, and 33 months. The primary outcomes were P falciparum prevalence at months 3 and 10. All clusters were included in the primary analysis. Adverse events were monitored from the first MDA dose until 1 month after the final dose, or until resolution of any adverse event occurring during follow-up. This trial is registered with ClinicalTrials.gov, NCT01872702. Findings: Baseline uPCR malaria surveys were done in January, 2015, in 43 villages that were operationally suitable for MDA (2671 individuals). 18 villages met the eligibility criteria. Three villages in close proximity were combined into one cluster because a border between them could not be defined. This gave a total of 16 clusters in eight pairs. In the intervention clusters, MDA was delivered from March 4 to March 17, from March 30 to April 10, and from April 27 to May 10, 2015. The weighted mean absolute difference in P falciparum prevalence in the MDA group relative to the control group was −10·6% (95% CI −15·1 to −6·1; p=0·0008) at month 3 and −4·5% (−10·9 to 1·9; p=0·14) at month 10. At month 3, the weighted P falciparum prevalence was 1·4% (0·6 to 3·6; 12 of 747) in the MDA group and 10·6% (7·0 to 15·6; 56 of 485) in the control group. Corresponding prevalences at month 10 were 3·2% (1·5 to 6·8; 34 of 1013) and 5·8% (2·5 to 12·9; 33 of 515). Adverse events were reported for 151 (3·6%) of 4173 treated individuals. The most common adverse events were dizziness (n=109) and rash or itching (n=20). No treatment-related deaths occurred. Interpretation: In this low-transmission setting, the substantial reduction in P falciparum prevalence resulting from support of community case management was accelerated by MDA. In addition to supporting community health worker case management and LLIN distribution, malaria elimination programmes should consider using MDA to reduce P falciparum prevalence rapidly in foci of higher transmission. Funding: The Global Fund to Fight AIDS, Tuberculosis and Malaria.