Challenges for achieving safe and effective radical cure of Plasmodium vivax: a round table discussion of the APMEN Vivax Working Group

Thriemer K; Ley B; Bobogare A; Dysoley L; Alam MS; Pasaribu AP; Sattabongkot J; Jambert E; Domingo GJ; Commons R; Auburn S; Marfurt J; Devine A; Aktaruzzaman MM; Sohel N; Namgay R; Drukpa T; Sharma SN; Sarawati E; Samad I; Theodora M; Nambanya S; Ounekham S; Mudin RN; Da Thakur G; Makita LS; Deray R; Lee SE; Boaz L; Danansuriya MN; Mudiyanselage SD; Chinanonwait N; Kitchakarn S; Nausien J; Naket E; Duc TN; Do Manh H; Hong YS; Cheng Q; Richards JS; Kusriastuti R; Satyagraha A; Noviyanti R; Ding XC; Khan WA; Swe Phru C; Guoding Z; Qi G; Kaneko A; Miotto O; Nguitragool W; Roobsoong W; Battle K; Howes RE; Roca-Feltrer A; Duparc S; Bhowmick IP; Kenangalem E; Bibit JA; Barry A; Sintasath D; Abeyasinghe R; Sibley CH; McCarthy J; von Seidlein L; Baird JK; Price RN

doi:10.1186/s12936-017-1784-1

Fulltext

Challenges for achieving safe and effective radical cure of Plasmodium vivax: a round table discussion of the APMEN Vivax Working Group

Thriemer K ¹ , Ley B ² , Bobogare A ³ , Dysoley L ⁴ , Alam MS ⁵ , Pasaribu AP ⁶ Show all authors , Sattabongkot J ⁷ , Jambert E ⁸ , Domingo GJ ⁹ , Commons R ² , Auburn S ² , Marfurt J ² , Devine A ¹⁰ , Aktaruzzaman MM ¹¹ , Sohel N ¹¹ , Namgay R ¹² , Drukpa T ¹² , Sharma SN ¹³ , Sarawati E ¹⁴ , Samad I ¹⁴ , Theodora M ¹⁴ , Nambanya S ¹⁵ , Ounekham S ¹⁶ , Mudin RN ¹⁶ , Da Thakur G ¹⁷ , Makita LS ¹⁸ , Deray R ¹⁹ , Lee SE ²⁰ , Boaz L ³ , Danansuriya MN ²¹ , Mudiyanselage SD ²¹ , Chinanonwait N ²² , Kitchakarn S ²² , Nausien J ²³ , Naket E ²³ , Duc TN ²⁴ , Do Manh H ²⁴ , Hong YS ²⁵ , Cheng Q ²⁶ , Richards JS ²⁷ , Kusriastuti R ²⁸ , Satyagraha A ²⁹ , Noviyanti R ²⁹ , Ding XC ³⁰ , Khan WA ⁵ , Swe Phru C ⁵ , Guoding Z ³¹ , Qi G ³¹ , Kaneko A ³² , Miotto O ¹⁰ , Nguitragool W ³³ , Roobsoong W ⁷ , Battle K ³⁴ , Howes RE ³⁴ , Roca-Feltrer A ³⁵ , Duparc S ⁸ , Bhowmick IP ³⁶ , Kenangalem E ³⁷ , Bibit JA ³⁸ , Barry A ³⁹ , Sintasath D ⁴⁰ , Abeyasinghe R ⁴¹ , Sibley CH ⁴² , McCarthy J ⁴³ , von Seidlein L ¹⁰ , Baird JK ⁴⁴ , Price RN ²

Affiliations

¹ Global and Tropical Health Division, Menzies School of Health Research and Charles Darwin University, Darwin, Australia. kamala.ley-thriemer@menzies.edu.au
² Global and Tropical Health Division, Menzies School of Health Research and Charles Darwin University, Darwin, Australia
³ National Vector Borne Disease Control Programme, Honiara, Solomon Islands
⁴ National Center for Parasitology, Entomology and Malaria Control, Phnom Penh, Cambodia
⁵ International Centre for Diarrheal Diseases and Research, Dhaka, Bangladesh
⁶ Department of Pediatrics, Medical Faculty, University of Sumatera Utara, Medan, Indonesia
⁷ Mahidol Vivax Research Unit, Faculty of Tropical Medicine, Mahidol University, Bangok, Thailand
⁸ Medicines for Malaria Venture (MMV), Geneva, Switzerland
⁹ Diagnostics Program, PATH, Seattle, USA
¹⁰ Mahidol Oxford Tropical Medicine Research Unit (MORU), Bangok, Thailand
¹¹ Ministry of Health and Family Welfare, Malaria and Parasitic Disease Control, Director General of Health Services, Mohakhali, Dhaka, Bangladesh
¹² Vector-borne Disease Control Programme (VDCP), Department of Public Health, Ministry of Health in Bhutan, Thimphu, Bhutan
¹³ National Vector Borne Disease Control Programme Directorate General of Health Services Ministry of Health & Family Welfare, New Delhi, India
¹⁴ National Malaria Control Program, Jakarta, Indonesia
¹⁵ National Center for Entomology Parasitology and Malaria Control, Vientiane, Laos
¹⁶ Vector-borne Diseases Control Programme, Ministry of Health Malaysia, Kuala Lumpur, Malaysia
¹⁷ Malaria Control Programme, Epidemiology and Disease Control Division, Department of Health Services, Ministry of Health and Population, Kathmandu, Nepal
¹⁸ National Malaria Control Programme, Goroka, Papua New Guinea
¹⁹ Malaria Control Programme, Department of Health, Manila, Philippines
²⁰ Division of Malaria & Parasitic Diseases, Korea Centers for Disease Control and Prevention, Seoul, South Korea
²¹ Antimalaria Campaign, Ministry of Health, Colombo, Sri Lanka
²² Bureau of Vector-Borne Disease, Department of Disease Control, Ministry of Public Health, Bangkok, Thailand
²³ National Malaria Control Programme, Port Vila, Vanuatu
²⁴ National Institute of Malaria, Parasitology, and Entomology (NIMPE), Tam Kỳ, Vietnam
²⁵ Access Bio Inc, Monmouth, USA
²⁶ Australian Army Malaria Institute, Enoggera, QLD, Australia
²⁷ Centre for Biomedical Research, Burnet Institute, Melbourne, Australia
²⁸ Vector Borne Disease Control, Ministry of Health, Jakarta, Indonesia
²⁹ Eijkman Institute of Molecular Biology, Jakarta, Indonesia
³⁰ FIND, Geneva, Switzerland
³¹ Jiangsu Institute of Parasitic Diseases, Wuxi, China
³² Karolinska Institutet, Stockholm, Sweden
³³ Department of Molecular Tropical Medicine, Faculty of Tropical Medicine, Mahidol University, Salaya, Thailand
³⁴ Malaria Atlas Project, Nuffield Department of Medicine, Oxford Big Data Institute, University of Oxford, Oxford, UK
³⁵ Malaria Consortium, London, UK
³⁶ Model Rural Health Research Unit (MRHRU), Tripura State, ICMR, Agartala, India
³⁷ Yayasan Pengembangan Kesehatan dan Masyarakat Papua Timika, Timika, Indonesia
³⁸ The Research Institute for Tropical Medicine, Manila, Philippines
³⁹ The Walter + Eliza Hall Institute of Medical Research, Melbourne, Australia
⁴⁰ President's Malaria Initiative, United States Agency for International Development, Bangkok, Thailand
⁴¹ World Health Organization Western Pacific Region, Manila, Philippines
⁴² WWARN, Oxford, UK
⁴³ QIMR Berghofer Medical Research Institute, Brisbane, Australia
⁴⁴ Centre for Tropical Medicine and Global Health, Nuffield Department of Medicine, University of Oxford, Oxford, UK

Malar J, 2017 04 05;16(1):141.

PMID: 28381261 DOI: 10.1186/s12936-017-1784-1

Abstract

The delivery of safe and effective radical cure for Plasmodium vivax is one of the greatest challenges for achieving malaria elimination from the Asia-Pacific by 2030. During the annual meeting of the Asia Pacific Malaria Elimination Network Vivax Working Group in October 2016, a round table discussion was held to discuss the programmatic issues hindering the widespread use of primaquine (PQ) radical cure. Participants included 73 representatives from 16 partner countries and 33 institutional partners and other research institutes. In this meeting report, the key discussion points are presented and grouped into five themes: (i) current barriers for glucose-6-phosphate deficiency (G6PD) testing prior to PQ radical cure, (ii) necessary properties of G6PD tests for wide scale deployment, (iii) the promotion of G6PD testing, (iv) improving adherence to PQ regimens and (v) the challenges for future tafenoquine (TQ) roll out. Robust point of care (PoC) G6PD tests are needed, which are suitable and cost-effective for clinical settings with limited infrastructure. An affordable and competitive test price is needed, accompanied by sustainable funding for the product with appropriate training of healthcare staff, and robust quality control and assurance processes. In the absence of quantitative PoC G6PD tests, G6PD status can be gauged with qualitative diagnostics, however none of the available tests is currently sensitive enough to guide TQ treatment. TQ introduction will require overcoming additional challenges including the management of severely and intermediately G6PD deficient individuals. Robust strategies are needed to ensure that effective treatment practices can be deployed widely, and these should ensure that the caveats are outweighed by the benefits of radical cure for both the patients and the community. Widespread access to quality controlled G6PD testing will be critical.

* Title and MeSH Headings from MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine.

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