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2. A Pfs48/45-based vaccine to block Plasmodium falciparum transmission:phase 1, open-label, clinical trial

Author

Alkema, M., Smit, M. J., Marin-Mogollon, C., Totté, K., Teelen, K., van Gemert, G. J., van de Vegte-Bolmer, M., Mordmüller, B. G., Reimer, J. M., Lövgren-Bengtsson, K. L., Sauerwein, R. W., Bousema, T., Plieskatt, J., Theisen, M., Jore, M. M., McCall, M. B.B., Alkema, M., Smit, M. J., Marin-Mogollon, C., Totté, K., Teelen, K., van Gemert, G. J., van de Vegte-Bolmer, M., Mordmüller, B. G., Reimer, J. M., Lövgren-Bengtsson, K. L., Sauerwein, R. W., Bousema, T., Plieskatt, J., Theisen, M., Jore, M. M., and McCall, M. B.B.

Abstract

Background: The stalling global progress in malaria control highlights the need for novel tools for malaria elimination, including transmission-blocking vaccines. Transmission-blocking vaccines aim to induce human antibodies that block parasite development in the mosquito and mosquitoes becoming infectious. The Pfs48/45 protein is a leading Plasmodium falciparum transmission-blocking vaccine candidate. The R0.6C fusion protein, consisting of Pfs48/45 domain 3 (6C) and the N-terminal region of P. falciparum glutamate-rich protein (R0), has previously been produced in Lactococcus lactis and elicited functional antibodies in rodents. Here, we assess the safety and transmission-reducing efficacy of R0.6C adsorbed to aluminium hydroxide with and without Matrix-M™ adjuvant in humans. Methods: In this first-in-human, open-label clinical trial, malaria-naïve adults, aged 18–55 years, were recruited at the Radboudumc in Nijmegen, the Netherlands. Participants received four intramuscular vaccinations on days 0, 28, 56 and 168 with either 30 µg or 100 µg of R0.6C and were randomised for the allocation of one of the two different adjuvant combinations: aluminium hydroxide alone, or aluminium hydroxide combined with Matrix-M1™ adjuvant. Adverse events were recorded from inclusion until 84 days after the fourth vaccination. Anti-R0.6C and anti-6C IgG titres were measured by enzyme-linked immunosorbent assay. Transmission-reducing activity of participants’ serum and purified vaccine-specific immunoglobulin G was assessed by standard membrane feeding assays using laboratory-reared Anopheles stephensi mosquitoes and cultured P. falciparum gametocytes. Results: Thirty-one participants completed four vaccinations and were included in the analysis. Administration of all doses was safe and well-tolerated, with one related grade 3 adverse event (transient fever) and no serious adverse events occurring. Anti-R0.6C and anti-6C IgG titres were similar between the 30 and 100 µg R0.6C arms

Published
2024

3. Does acute malnutrition in young children increase the risk of treatment failure following artemisinin-based combination therapy? A WWARN individual patient data meta-analysis

Author

Stepniewska, K., Allan, Richard, Anvikar, A.R., Anyorigiya, T.A., Ashley, E.A., Bassat, Q., Baudin, E., Bjorkman, A., Bonnet, M., Boulton, C., Bousema, T., Barnes, K.I., Guerin, P.J., Stepniewska, K., Allan, Richard, Anvikar, A.R., Anyorigiya, T.A., Ashley, E.A., Bassat, Q., Baudin, E., Bjorkman, A., Bonnet, M., Boulton, C., Bousema, T., Barnes, K.I., and Guerin, P.J.

Abstract

Contains fulltext : 305459.pdf (Publisher’s version ) (Open Access)

Published
2024

4. Understanding and maximising the community impact of seasonal malaria chemoprevention in Burkina Faso (INDIE-SMC): study protocol for a cluster randomised evaluation trial

Author

Moreno, M., Barry, A., Gmeiner, M., Yaro, J.B., Sermé, S.S., Byrne, I., Ramjith, J., Ouedraogo, A., Soulama, I., Grignard, L., Soremekun, S., Koele, S.E., Heine, R. ter, Ouedraogo, A.Z., Sawadogo, J., Sanogo, E., Ouedraogo, I.N., Hien, D., Sirima, S.B., Bradley, J., Bousema, T., Drakeley, C., Tiono, A.B., Moreno, M., Barry, A., Gmeiner, M., Yaro, J.B., Sermé, S.S., Byrne, I., Ramjith, J., Ouedraogo, A., Soulama, I., Grignard, L., Soremekun, S., Koele, S.E., Heine, R. ter, Ouedraogo, A.Z., Sawadogo, J., Sanogo, E., Ouedraogo, I.N., Hien, D., Sirima, S.B., Bradley, J., Bousema, T., Drakeley, C., and Tiono, A.B.

Abstract

Contains fulltext : 305135.pdf (Publisher’s version ) (Open Access), INTRODUCTION: Seasonal malaria chemoprevention (SMC) involves repeated administrations of sulfadoxine-pyrimethamine plus amodiaquine to children below the age of 5 years during the peak transmission season in areas of seasonal malaria transmission. While highly impactful in reducing Plasmodium falciparum malaria burden in controlled research settings, the impact of SMC on infection prevalence is moderate in real-life settings. It remains unclear what drives this efficacy decay. Recently, the WHO widened the scope for SMC to target all vulnerable populations. The Ministry of Health (MoH) in Burkina Faso is considering extending SMC to children below 10 years old. We aim to assess the impact of SMC on clinical incidence and parasite prevalence and quantify the human infectious reservoir for malaria in this population. METHODS AND ANALYSIS: We will perform a cluster randomised trial in Saponé Health District, Burkina Faso, with three study arms comprising 62 clusters of three compounds: arm 1 (control): SMC in under 5-year-old children, implemented by the MoH without directly observed treatment (DOT) for the full course of SMC; arm 2 (intervention): SMC in under 5-year-old children, with DOT for the full course of SMC; arm 3 (intervention): SMC in under 10-year-old children, with DOT for the full course of SMC. The primary endpoint is parasite prevalence at the end of the malaria transmission season. Secondary endpoints include the impact of SMC on clinical incidence. Factors affecting SMC uptake, treatment adherence, drug concentrations, parasite resistance markers and transmission of parasites will be determined. ETHICS AND DISSEMINATION: The London School of Hygiene & Tropical Medicine's Ethics Committee (29193) and the Burkina Faso National Medical Ethics Committee (Deliberation No 2023-05-104) approved this study. The findings will be presented to the community; disease occurrence data and study outcomes will also be shared with the Burkina Faso MoH. Findings will

Published
2024

6. Potent transmission-blocking monoclonal antibodies from naturally exposed individuals target a conserved epitope on Plasmodium falciparum Pfs230.

Author

Ivanochko, D., Fabra García, A., Teelen, K.A., Vegte-Bolmer, M.G. van de, Gemert, G.J. van, Newton, J., Semesi, A., Bruijni, M.A. de, Bolscher, J.M., Ramjith, J., Szabat, M., Vogt, Stefanie, Kraft, L., Duncan, S., Lee, Shwu-Maan, Kamya, M.R., Feeney, M.E., Jagannathan, P., Greenhouse, B., Sauerwein, R.W., Richter King, C., MacGill, R.S., Bousema, T., Jore, M.M., Julien, J.P., Ivanochko, D., Fabra García, A., Teelen, K.A., Vegte-Bolmer, M.G. van de, Gemert, G.J. van, Newton, J., Semesi, A., Bruijni, M.A. de, Bolscher, J.M., Ramjith, J., Szabat, M., Vogt, Stefanie, Kraft, L., Duncan, S., Lee, Shwu-Maan, Kamya, M.R., Feeney, M.E., Jagannathan, P., Greenhouse, B., Sauerwein, R.W., Richter King, C., MacGill, R.S., Bousema, T., Jore, M.M., and Julien, J.P.

Abstract

Item does not contain fulltext, Pfs230 is essential for Plasmodium falciparum transmission to mosquitoes and is the protein targeted by the most advanced malaria-transmission-blocking vaccine candidate. Prior understanding of functional epitopes on Pfs230 is based on two monoclonal antibodies (mAbs) with moderate transmission-reducing activity (TRA), elicited from subunit immunization. Here, we screened the B cell repertoire of two naturally exposed individuals possessing serum TRA and identified five potent mAbs from sixteen Pfs230 domain-1-specific mAbs. Structures of three potent and three low-activity antibodies bound to Pfs230 domain 1 revealed four distinct epitopes. Highly potent mAbs from natural infection recognized a common conformational epitope that is highly conserved across P. falciparum field isolates, while antibodies with negligible TRA derived from natural infection or immunization recognized three distinct sites. Our study provides molecular blueprints describing P. falciparum TRA, informed by contrasting potent and non-functional epitopes elicited by natural exposure and vaccination.

Published
2023

7. Naturally acquired antibodies to gametocyte antigens are associated with reduced transmission of Plasmodium vivax gametocytes to Anopheles arabiensis mosquitoes

Author

Tebeje, S.K., Chali, Wakweya, Hailemeskel, E., Ramjith, J., Gashaw, Abrham, Ashine, Temesgen, Teelen, K.A.E.M., Lanke, K.H.W., Jore, M.M., Hansen, I.S., Tadesse, F.G., Bousema, T., Tebeje, S.K., Chali, Wakweya, Hailemeskel, E., Ramjith, J., Gashaw, Abrham, Ashine, Temesgen, Teelen, K.A.E.M., Lanke, K.H.W., Jore, M.M., Hansen, I.S., Tadesse, F.G., and Bousema, T.

Abstract

Contains fulltext : 290145.pdf (Publisher’s version ) (Open Access)

Published
2023

8. Comparative analysis of glass and Hemotek membrane feeding systems for malaria transmission research.

Author

Graumans, W., Schinkel, M., Gemert, G.J. van, Spitzen, J., Bousema, T., Miesen, P., Graumans, W., Schinkel, M., Gemert, G.J. van, Spitzen, J., Bousema, T., and Miesen, P.

Abstract

Item does not contain fulltext, BACKGROUND: Glass membrane feeders are used in malaria research for artificial blood feeding. This study investigates the use of Hemotek membrane feeders as a standardized alternative feeding system. METHODS: Hemotek feeders were compared with glass feeders by assessing mosquito feeding rate, imbibed blood meal volume and Plasmodium falciparum infection intensity on mosquito guts. RESULTS: While mosquito feeding rate and blood meal volume were comparable between Hemotek and glass feeders, a loss in transmission was observed using the Hemotek feeder with a conventional collagen membrane. There was no difference in transmission between both feeders when Parafilm was used as the membrane. CONCLUSIONS: Hemotek feeders with a Parafilm membrane can be used as an alternative feeding system for malaria transmission research.

Published
2023

9. [Climate change and infectious diseases].

Author

Sips, G.J., Limaheluw, J., Roda Husman, A.M. de, Bousema, T., Sips, G.J., Limaheluw, J., Roda Husman, A.M. de, and Bousema, T.

Abstract

Item does not contain fulltext, Climate change can contribute to a global increase in the burden of infectious diseases. Both the number of geographical areas as well as the number of yearly days that are suitable for transmission of certain infectious diseases can increase due to global warming. At the same time, increased 'suitability' does not always lead to a factual increase in disease burden and economic development and public health measures have resulted in marked reductions in the burden of several important infectious diseases in recent years. The net effect of global environmental change on infectious disease burden will be determined by a multitude of factors, including unpredictable outbreaks of pathogens and the extent to which public health programs can effectively function and adjust to changing health risks.

Published
2023

10. [Inequal distribution of cause and effects of climate crisis: a global matter of equity and justice].

Author

Browne, J.L., Baidjoe, A., Bousema, T., Browne, J.L., Baidjoe, A., and Bousema, T.

Abstract

Item does not contain fulltext, The impact of climate change on health in low- and middle-income countries is large and disproportionate to these countries' contribution to total greenhouse gas emissions. These health effects are both direct and indirect through climate change impact on food security, migration and political stability. In this commentary, we argue that a health equity and justice lens should be applied in climate policies.

Published
2023

11. Genome-wide genetic variation and molecular surveillance of drug resistance in Plasmodium falciparum isolates from asymptomatic individuals in Ouélessébougou, Mali.

Author

Vanheer, L.N., Mahamar, A., Manko, E., Niambele, S.M., Sanogo, K., Youssouf, A., Dembele, A., Diallo, M., Maguiraga, S.O., Phelan, J., Osborne, A., Spadar, A., Smit, M.J., Bousema, T., Drakeley, C., Clark, T.G., Stone, W., Dicko, A., Campino, S., Vanheer, L.N., Mahamar, A., Manko, E., Niambele, S.M., Sanogo, K., Youssouf, A., Dembele, A., Diallo, M., Maguiraga, S.O., Phelan, J., Osborne, A., Spadar, A., Smit, M.J., Bousema, T., Drakeley, C., Clark, T.G., Stone, W., Dicko, A., and Campino, S.

Abstract

Contains fulltext : 293758.pdf (Publisher’s version ) (Open Access), Sequence analysis of Plasmodium falciparum parasites is informative in ensuring sustained success of malaria control programmes. Whole-genome sequencing technologies provide insights into the epidemiology and genome-wide variation of P. falciparum populations and can characterise geographical as well as temporal changes. This is particularly important to monitor the emergence and spread of drug resistant P. falciparum parasites which is threatening malaria control programmes world-wide. Here, we provide a detailed characterisation of genome-wide genetic variation and drug resistance profiles in asymptomatic individuals in South-Western Mali, where malaria transmission is intense and seasonal, and case numbers have recently increased. Samples collected from Ouélessébougou, Mali (2019-2020; n = 87) were sequenced and placed in the context of older Malian (2007-2017; n = 876) and African-wide (n = 711) P. falciparum isolates. Our analysis revealed high multiclonality and low relatedness between isolates, in addition to increased frequencies of molecular markers for sulfadoxine-pyrimethamine and lumefantrine resistance, compared to older Malian isolates. Furthermore, 21 genes under selective pressure were identified, including a transmission-blocking vaccine candidate (pfCelTOS) and an erythrocyte invasion locus (pfdblmsp2). Overall, our work provides the most recent assessment of P. falciparum genetic diversity in Mali, a country with the second highest burden of malaria in West Africa, thereby informing malaria control activities.

Published
2023

12. Prevalence of Plasmodium falciparum gametocytaemia in asymptomatic school children before and after treatment with dihydroartemisinin-piperaquine (DP)

Author

Dinko, B., Awuah, D., Boampong, K., Larbi, J.A., Bousema, T., Sutherland, C.J., Dinko, B., Awuah, D., Boampong, K., Larbi, J.A., Bousema, T., and Sutherland, C.J.

Abstract

Item does not contain fulltext, BACKGROUND: Asymptomatic Plasmodium carriers form the majority of malaria-infected individuals in most endemic areas. A proportion of these asymptomatically infected individuals carry gametocytes, the transmissible stages of malaria parasites, that sustain human to mosquito transmission. Few studies examine gametocytaemia in asymptomatic school children who may form an important reservoir for transmission. We assessed the prevalence of gametocytaemia before antimalarial treatment and monitored clearance of gametocytes after treatment in asymptomatic malaria children. METHODS: A total of 274 primary school children were screened for P. falciparum parasitaemia by microscopy. One hundred and fifty-five (155) parasite positive children were treated under direct observation with dihydroartemisinin-piperaquine (DP). Gametocyte carriage was determined by microscopy seven days prior to treatment, day 0 before treatment, and on days 7, 14 and 21 post initiation of treatment. RESULTS: The prevalence of microscopically-detectable gametocytes at screening (day -7) and enrolment (day 0) were 9% (25/274) and 13.6% (21/155) respectively. Following DP treatment, gametocyte carriage dropped to 4% (6/135), 3% (5/135) and 6% (10/151) on days 7, 14 and 21 respectively. Asexual parasites persisted in a minority of treated children, resulting in microscopically detectable parasites on days 7 (9%, 12/135), 14 (4%, 5/135) and 21 (7%, 10/151). Gametocyte carriage was inversely correlated with the age of the participants (p = 0.05) and asexual parasite density (p = 0.08). In a variate analysis, persistent gametocytaemia 7 or more days after treatment was significantly associated with post-treatment asexual parasitaemia at day 7 (P = 0.027) and presence of gametocytes on the day of treatment (P < 0.001). CONCLUSIONS: Though DP provides both excellent cure rates for clinical malaria and a long prophylactic half-life, our findings suggest that after treatment of asymptomatic infections, both as

Published
2023

13. Pf7: an open dataset of Plasmodium falciparum genome variation in 20,000 worldwide samples

Author

Hamid, M.M.A., Abdelraheem, M.H., Acheampong, D.O., Ahouidi, A., Ali, M, Almagro-Garcia, J., Amambua-Ngwa, A., Amaratunga, C., Amenga-Etego, L., Andagalu, B., Anderson, T., Andrianaranjaka, V., Aniebo, I., Aninagyei, E., Ansah, F., Ansah, P.O., Apinjoh, T., Arnaldo, P., Ashley, E., Auburn, S., Awandare, G.A., Ba, H., Baraka, V., Barry, A., Bejon, P., Bertin, G.I., Boni, M.F., Borrmann, S., Bousema, T., Bouyou-Akotet, M., Branch, O., Bull, P.C., Cheah, H., Chindavongsa, K., Chookajorn, T., Chotivanich, K., Claessens, A., Conway, D.J., Corredor, V., Courtier, E., Craig, A., D'Alessandro, U., Dama, S., Day, N., Denis, B., Dhorda, M., Diakite, M., Djimde, A., Dolecek, C., Dondorp, A., Doumbia, S., Drakeley, C., Drury, E., Duffy, P., Echeverry, D.F., Egwang, T.G., Enosse, S.M.M., Erko, B., Fairhurst, R.M., Faiz, A., Fanello, C.A., Fleharty, M., Forbes, M., Fukuda, M., Gamboa, D., Ghansah, A., Golassa, L., Goncalves, S., Harrison, G.L.A., Healy, Sara A., Hendry, J.A., Hernandez-Koutoucheva, A., Hien, T.T., Hill, C.A., Hombhanje, F., Hott, A., Htut, Y., Hussein, M., Imwong, M., Ishengoma, D., Jackson, S.A., Jacob, C.G., Jeans, J., Johnson, K.J., Kamaliddin, C., Kamau, E., Keatley, J., Kochakarn, T., Konate, D.S., Konaté, A., Kone, A., Kwiatkowski, D.P., Kyaw, M.P., Kyle, D., Lawniczak, M., Lee, S.K., Lemnge, M., Lim, P., Lon, C., Yavo, W., Pluijm, R.W. van der, Hamid, M.M.A., Abdelraheem, M.H., Acheampong, D.O., Ahouidi, A., Ali, M, Almagro-Garcia, J., Amambua-Ngwa, A., Amaratunga, C., Amenga-Etego, L., Andagalu, B., Anderson, T., Andrianaranjaka, V., Aniebo, I., Aninagyei, E., Ansah, F., Ansah, P.O., Apinjoh, T., Arnaldo, P., Ashley, E., Auburn, S., Awandare, G.A., Ba, H., Baraka, V., Barry, A., Bejon, P., Bertin, G.I., Boni, M.F., Borrmann, S., Bousema, T., Bouyou-Akotet, M., Branch, O., Bull, P.C., Cheah, H., Chindavongsa, K., Chookajorn, T., Chotivanich, K., Claessens, A., Conway, D.J., Corredor, V., Courtier, E., Craig, A., D'Alessandro, U., Dama, S., Day, N., Denis, B., Dhorda, M., Diakite, M., Djimde, A., Dolecek, C., Dondorp, A., Doumbia, S., Drakeley, C., Drury, E., Duffy, P., Echeverry, D.F., Egwang, T.G., Enosse, S.M.M., Erko, B., Fairhurst, R.M., Faiz, A., Fanello, C.A., Fleharty, M., Forbes, M., Fukuda, M., Gamboa, D., Ghansah, A., Golassa, L., Goncalves, S., Harrison, G.L.A., Healy, Sara A., Hendry, J.A., Hernandez-Koutoucheva, A., Hien, T.T., Hill, C.A., Hombhanje, F., Hott, A., Htut, Y., Hussein, M., Imwong, M., Ishengoma, D., Jackson, S.A., Jacob, C.G., Jeans, J., Johnson, K.J., Kamaliddin, C., Kamau, E., Keatley, J., Kochakarn, T., Konate, D.S., Konaté, A., Kone, A., Kwiatkowski, D.P., Kyaw, M.P., Kyle, D., Lawniczak, M., Lee, S.K., Lemnge, M., Lim, P., Lon, C., Yavo, W., and Pluijm, R.W. van der

Abstract

Item does not contain fulltext, We describe the MalariaGEN Pf7 data resource, the seventh release of Plasmodium falciparum genome variation data from the MalariaGEN network. It comprises over 20,000 samples from 82 partner studies in 33 countries, including several malaria endemic regions that were previously underrepresented. For the first time we include dried blood spot samples that were sequenced after selective whole genome amplification, necessitating new methods to genotype copy number variations. We identify a large number of newly emerging crt mutations in parts of Southeast Asia, and show examples of heterogeneities in patterns of drug resistance within Africa and within the Indian subcontinent. We describe the profile of variations in the C-terminal of the csp gene and relate this to the sequence used in the RTS,S and R21 malaria vaccines. Pf7 provides high-quality data on genotype calls for 6 million SNPs and short indels, analysis of large deletions that cause failure of rapid diagnostic tests, and systematic characterisation of six major drug resistance loci, all of which can be freely downloaded from the MalariaGEN website.

Published
2023

15. Plasmodium falciparum adapts its investment into replication versus transmission according to the host environment

Author

Abdi, A.I., Achcar, F., Sollelis, L., Silva-Filho, J.L., Mwikali, K., Muthui, M., Mwangi, S., Kimingi, H.W., Orindi, B., Andisi Kivisi, C., Alkema, M., Chandrasekar, A., Bull, P.C., Bejon, P., Modrzynska, K., Bousema, T., Marti, M., Abdi, A.I., Achcar, F., Sollelis, L., Silva-Filho, J.L., Mwikali, K., Muthui, M., Mwangi, S., Kimingi, H.W., Orindi, B., Andisi Kivisi, C., Alkema, M., Chandrasekar, A., Bull, P.C., Bejon, P., Modrzynska, K., Bousema, T., and Marti, M.

Abstract

Item does not contain fulltext, The malaria parasite life cycle includes asexual replication in human blood, with a proportion of parasites differentiating to gametocytes required for transmission to mosquitoes. Commitment to differentiate into gametocytes, which is marked by activation of the parasite transcription factor ap2-g, is known to be influenced by host factors but a comprehensive model remains uncertain. Here, we analyze data from 828 children in Kilifi, Kenya with severe, uncomplicated, and asymptomatic malaria infection over 18 years of falling malaria transmission. We examine markers of host immunity and metabolism, and markers of parasite growth and transmission investment. We find that inflammatory responses associated with reduced plasma lysophosphatidylcholine levels are associated with markers of increased investment in parasite sexual reproduction (i.e. transmission investment) and reduced growth (i.e. asexual replication). This association becomes stronger with falling transmission and suggests that parasites can rapidly respond to the within-host environment, which in turn is subject to changing transmission.

Published
2023

16. Plasmodium falciparum gametocyte carriage in longitudinally monitored incident infections is associated with duration of infection and human host factors.

Author

Andolina, C., Ramjith, J., Rek, J., Lanke, K.H.W., Okoth, J., Grignard, L., Arinaitwe, E., Briggs, J., Bailey, J., Aydemir, O., Kamya, M.R., Greenhouse, B., Dorsey, G., Staedke, S.G., Drakeley, C., Jonker, M.A., Bousema, T., Andolina, C., Ramjith, J., Rek, J., Lanke, K.H.W., Okoth, J., Grignard, L., Arinaitwe, E., Briggs, J., Bailey, J., Aydemir, O., Kamya, M.R., Greenhouse, B., Dorsey, G., Staedke, S.G., Drakeley, C., Jonker, M.A., and Bousema, T.

Abstract

Item does not contain fulltext, Malaria transmission depends on the presence of Plasmodium gametocytes that are the only parasite life stage that can infect mosquitoes. Gametocyte production varies between infections and over the course of infections. Infection duration is highly important for gametocyte production but poorly quantified. Between 2017 and 2019 an all-age cohort of individuals from Tororo, eastern Uganda was followed by continuous passive and routine assessments. We longitudinally monitored 104 incident infections from 98 individuals who were sampled once every 28 days and on any day of symptoms. Among infections that lasted ≥ 3 months, gametocyte appearance was near-universal with 96% of infections having detectable gametocytes prior to clearance. However, most infections were of much shorter duration; 55.7% of asymptomatic infections were detected only once. When considering all asymptomatic infections, regardless of their duration, only 36.3% had detectable gametocytes on at least one time-point prior to parasite clearance. Infections in individuals with sickle-cell trait (HbAS) were more likely to have gametocytes detected (Hazard Rate (HR) = 2.68, 95% CI 1.12, 6.38; p = 0.0231) and had gametocytes detected at higher densities (Density Ratio (DR) = 9.19, 95% CI 2.79, 30.23; p = 0.0002) compared to infections in wildtype (HbAA) individuals. Our findings suggest that a large proportion of incident infections is too short in duration and of too low density to contribute to onward transmission.

Published
2023

17. Development of Plasmodium falciparum liver-stages in hepatocytes derived from human fetal liver organoid cultures.

Author

Yang, A.S., Dutta, D., Kretzschmar, K., Hendriks, D., Puschhof, J., Hu, H., Boonekamp, K.E., Waardenburg, Y.M. van, Chuva de Sousa Lopes, S.M., Gemert, G.J. van, Wilt, J.H.W. de, Bousema, T., Clevers, H., Sauerwein, R.W., Yang, A.S., Dutta, D., Kretzschmar, K., Hendriks, D., Puschhof, J., Hu, H., Boonekamp, K.E., Waardenburg, Y.M. van, Chuva de Sousa Lopes, S.M., Gemert, G.J. van, Wilt, J.H.W. de, Bousema, T., Clevers, H., and Sauerwein, R.W.

Abstract

Contains fulltext : 296014.pdf (Publisher’s version ) (Open Access), Plasmodium falciparum (Pf) parasite development in liver represents the initial step of the life-cycle in the human host after a Pf-infected mosquito bite. While an attractive stage for life-cycle interruption, understanding of parasite-hepatocyte interaction is inadequate due to limitations of existing in vitro models. We explore the suitability of hepatocyte organoids (HepOrgs) for Pf-development and show that these cells permitted parasite invasion, differentiation and maturation of different Pf strains. Single-cell messenger RNA sequencing (scRNAseq) of Pf-infected HepOrg cells has identified 80 Pf-transcripts upregulated on day 5 post-infection. Transcriptional profile changes are found involving distinct metabolic pathways in hepatocytes with Scavenger Receptor B1 (SR-B1) transcripts highly upregulated. A novel functional involvement in schizont maturation is confirmed in fresh primary hepatocytes. Thus, HepOrgs provide a strong foundation for a versatile in vitro model for Pf liver-stages accommodating basic biological studies and accelerated clinical development of novel tools for malaria control.

Published
2023

18. Modeling the Impact of a Highly Potent Plasmodium falciparum Transmission-Blocking Monoclonal Antibody in Areas of Seasonal Malaria Transmission.

Author

Challenger, J.D., Beek, S.W. van, Heine, R. ter, Boor, S.C. van der, Charles, G.D., Smit, M.J., Ockenhouse, C., Aponte, J.J., McCall, M.B.B., Jore, M.M., Churcher, T.S., Bousema, T., Challenger, J.D., Beek, S.W. van, Heine, R. ter, Boor, S.C. van der, Charles, G.D., Smit, M.J., Ockenhouse, C., Aponte, J.J., McCall, M.B.B., Jore, M.M., Churcher, T.S., and Bousema, T.

Abstract

Item does not contain fulltext, Transmission-blocking interventions can play an important role in combating malaria worldwide. Recently, a highly potent Plasmodium falciparum transmission-blocking monoclonal antibody (TB31F) was demonstrated to be safe and efficacious in malaria-naive volunteers. Here we predict the potential public health impact of large-scale implementation of TB31F alongside existing interventions. We developed a pharmaco-epidemiological model, tailored to 2 settings of differing transmission intensity with already established insecticide-treated nets and seasonal malaria chemoprevention interventions. Community-wide annual administration (at 80% coverage) of TB31F over a 3-year period was predicted to reduce clinical incidence by 54% (381 cases averted per 1000 people per year) in a high-transmission seasonal setting, and 74% (157 cases averted per 1000 people per year) in a low-transmission seasonal setting. Targeting school-aged children gave the largest reduction in terms of cases averted per dose. An annual administration of the transmission-blocking monoclonal antibody TB31F may be an effective intervention against malaria in seasonal malaria settings.

Published
2023

19. Rapid profiling of Plasmodium parasites from genome sequences to assist malaria control.

Author

Phelan, J.E., Turkiewicz, A., Manko, E., Thorpe, J., Vanheer, L.N., Vegte-Bolmer, M. van de, Ngoc, N.T.H., Binh, N.T.H., Thieu, N.Q., Gitaka, J., Nolder, D., Beshir, K.B., Dombrowski, J.G., Santi, S.M. Di, Bousema, T., Sutherland, C.J., Campino, S., Clark, T.G., Phelan, J.E., Turkiewicz, A., Manko, E., Thorpe, J., Vanheer, L.N., Vegte-Bolmer, M. van de, Ngoc, N.T.H., Binh, N.T.H., Thieu, N.Q., Gitaka, J., Nolder, D., Beshir, K.B., Dombrowski, J.G., Santi, S.M. Di, Bousema, T., Sutherland, C.J., Campino, S., and Clark, T.G.

Abstract

Item does not contain fulltext, BACKGROUND: Malaria continues to be a major threat to global public health. Whole genome sequencing (WGS) of the underlying Plasmodium parasites has provided insights into the genomic epidemiology of malaria. Genome sequencing is rapidly gaining traction as a diagnostic and surveillance tool for clinical settings, where the profiling of co-infections, identification of imported malaria parasites, and detection of drug resistance are crucial for infection control and disease elimination. To support this informatically, we have developed the Malaria-Profiler tool, which rapidly (within minutes) predicts Plasmodium species, geographical source, and resistance to antimalarial drugs directly from WGS data. RESULTS: The online and command line versions of Malaria-Profiler detect ~ 250 markers from genome sequences covering Plasmodium speciation, likely geographical source, and resistance to chloroquine, sulfadoxine-pyrimethamine (SP), and other anti-malarial drugs for P. falciparum, but also providing mutations for orthologous resistance genes in other species. The predictive performance of the mutation library was assessed using 9321 clinical isolates with WGS and geographical data, with most being single-species infections (P. falciparum 7152/7462, P. vivax 1502/1661, P. knowlesi 143/151, P. malariae 18/18, P. ovale ssp. 5/5), but co-infections were identified (456/9321; 4.8%). The accuracy of the predicted geographical profiles was high to both continental (96.1%) and regional levels (94.6%). For P. falciparum, markers were identified for resistance to chloroquine (49.2%; regional range: 24.5% to 100%), sulfadoxine (83.3%; 35.4- 90.5%), pyrimethamine (85.4%; 80.0-100%) and combined SP (77.4%). Markers associated with the partial resistance of artemisinin were found in WGS from isolates sourced from Southeast Asia (30.6%). CONCLUSIONS: Malaria-Profiler is a user-friendly tool that can rapidly and accurately predict the geographical regional source and anti-malarial drug

Published
2023

21. SARS‑CoV‑2 RNA in exhaled air of hospitalized COVID‑19 patients

Author

van den Kieboom, C, primary, Kurver, L, additional, Lanke, K, additional, Diavatopoulos, D, additional, Overheul, G, additional, Netea, M, additional, Ten Oever, J, additional, Van Crevel, R, additional, Mulders-Manders, K, additional, Van De Veerdonk, F, additional, Wertheim, H, additional, Schouten, J, additional, Rahamat-Langendoen, J, additional, Van Rij, R, additional, Bousema, T, additional, Van Laarhoven, A, additional, and De Jonge, M, additional

Published
2022
Full Text
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27. Efficacy of Single-Dose Primaquine With Artemisinin Combination Therapy on Plasmodium falciparum Gametocytes and Transmission: An Individual Patient Meta-Analysis

Author

Stepniewska, K., Humphreys, Georgina S., Goncalves, B.P., Craig, Elaine, Gosling, R., Stone, W.J.R., Bastiaens, G.J.H., Guérin, P., Drakeley, C., Bousema, T., Stepniewska, K., Humphreys, Georgina S., Goncalves, B.P., Craig, Elaine, Gosling, R., Stone, W.J.R., Bastiaens, G.J.H., Guérin, P., Drakeley, C., and Bousema, T.

Abstract

Item does not contain fulltext

Published
2022

28. SARS-CoV-2 RNA in exhaled air of hospitalized COVID-19 patients

Author

Kurver, L., Kieboom, C.H. van den, Lanke, K.H., Diavatopoulos, D.A., Overheul, G.J., Netea, M.G., Oever, J. ten, Crevel, R. van, Mulders-Manders, C.M., Veerdonk, F.L. van de, Wertheim, H.F.L., Schouten, J.A., Rahamat-Langendoen, J.C., Rij, R.P. van, Bousema, T., Laarhoven, A. van, Jonge, M.I. de, Kurver, L., Kieboom, C.H. van den, Lanke, K.H., Diavatopoulos, D.A., Overheul, G.J., Netea, M.G., Oever, J. ten, Crevel, R. van, Mulders-Manders, C.M., Veerdonk, F.L. van de, Wertheim, H.F.L., Schouten, J.A., Rahamat-Langendoen, J.C., Rij, R.P. van, Bousema, T., Laarhoven, A. van, and Jonge, M.I. de

Abstract

Item does not contain fulltext

Published
2022

29. Pyronaridine-artesunate or dihydroartemisinin-piperaquine combined with single low-dose primaquine to prevent Plasmodium falciparum malaria transmission in Ouélessébougou, Mali: a four-arm, single-blind, phase 2/3, randomised trial

Author

Stone, W., Mahamar, A., Sanogo, K., Sinaba, Y., Niambele, S.M., Sacko, A., Keita, S., Youssouf, A., Diallo, M., Soumare, H.M., Kaur, H., Lanke, K.H., Heine, R. ter, Bradley, J., Issiaka, D., Diawara, H., Traore, S.F., Bousema, T., Drakeley, C., Dicko, A., Stone, W., Mahamar, A., Sanogo, K., Sinaba, Y., Niambele, S.M., Sacko, A., Keita, S., Youssouf, A., Diallo, M., Soumare, H.M., Kaur, H., Lanke, K.H., Heine, R. ter, Bradley, J., Issiaka, D., Diawara, H., Traore, S.F., Bousema, T., Drakeley, C., and Dicko, A.

Abstract

Item does not contain fulltext, BACKGROUND: Pyronaridine-artesunate is the most recently licensed artemisinin-based combination therapy. WHO has recommended that a single low dose of primaquine could be added to artemisinin-based combination therapies to reduce Plasmodium falciparum transmission in areas aiming for elimination of malaria or areas facing artemisinin resistance. We aimed to determine the efficacy of pyronaridine-artesunate and dihydroartemisinin-piperaquine with and without single low-dose primaquine for reducing gametocyte density and transmission to mosquitoes. METHODS: We conducted a four-arm, single-blind, phase 2/3, randomised trial at the Ouélessébougou Clinical Research Unit of the Malaria Research and Training Centre of the University of Bamako (Bamako, Mali). Participants were aged 5-50 years, with asymptomatic P falciparum malaria mono-infection and gametocyte carriage on microscopy, haemoglobin density of 9·5 g/dL or higher, bodyweight less than 80 kg, and no use of antimalarial drugs over the past week. Participants were randomly assigned (1:1:1:1) to one of four treatment groups: pyronaridine-artesunate, pyronaridine-artesunate plus primaquine, dihydroartemisinin-piperaquine, or dihydroartemisinin-piperaquine plus primaquine. Treatment allocation was concealed to all study staff other than the trial pharmacist and treating physician. Dihydroartemisinin-piperaquine and pyronaridine-artesunate were administered as per manufacturer guidelines over 3 days; primaquine was administered as a single dose in oral solution according to bodyweight (0·25 mg/kg; in 1 kg bands). The primary endpoint was percentage reduction in mosquito infection rate (percentage of mosquitoes surviving to dissection that were infected with P falciparum) at 48 h after treatment compared with baseline (before treatment) in all treatment groups. Data were analysed per protocol. This trial is now complete, and is registered with ClinicalTrials.gov, NCT04049916. FINDINGS: Between Sept 10 and Nov 19, 2019

Published
2022

30. Haematological consequences of acute uncomplicated falciparum malaria: a WorldWide Antimalarial Resistance Network pooled analysis of individual patient data

Author

Mansoor, Rashid, Commons, Robert J., Douglas, Nicholas M., Abuaku, Benjamin, Achan, Jane, Adam, Ishag, Adjei, George O., Bousema, T., Stepniewska, K., Price, R.N., Mansoor, Rashid, Commons, Robert J., Douglas, Nicholas M., Abuaku, Benjamin, Achan, Jane, Adam, Ishag, Adjei, George O., Bousema, T., Stepniewska, K., and Price, R.N.

Abstract

Item does not contain fulltext

Published
2022

32. Temporal distribution of Plasmodium falciparum recrudescence following artemisinin-based combination therapy: an individual participant data meta-analysis

Author

Dahal, Prabin, Simpson, Julie Anne, Abdulla, Salim, Achan, Jane, Adam, Ishag, Agarwal, Aarti, Allan, Richard, Bousema, T., Stepniewska, K., Price, R.N., Dahal, Prabin, Simpson, Julie Anne, Abdulla, Salim, Achan, Jane, Adam, Ishag, Agarwal, Aarti, Allan, Richard, Bousema, T., Stepniewska, K., and Price, R.N.

Abstract

Item does not contain fulltext

Published
2022

33. Mechanistic Modeling of Primaquine Pharmacokinetics, Gametocytocidal Activity, and Mosquito Infectivity

Author

Chotsiri, P., Mahamar, A., Hoglund, R.M., Koita, F., Sanogo, K., Diawara, H., Dicko, A., Simpson, Julie A., Bousema, T., White, N.J., Brown, J.M., Gosling, R., Chen, I., Tarning, J., Chotsiri, P., Mahamar, A., Hoglund, R.M., Koita, F., Sanogo, K., Diawara, H., Dicko, A., Simpson, Julie A., Bousema, T., White, N.J., Brown, J.M., Gosling, R., Chen, I., and Tarning, J.

Abstract

Item does not contain fulltext, Clinical studies have shown that adding a single 0.25 mg base/kg dose of primaquine to standard antimalarial regimens rapidly sterilizes Plasmodium falciparum gametocytes. However, the mechanism of action and overall impact on malaria transmission is still unknown. Using data from 81 adult Malians with P. falciparum gametocytemia who received the standard dihydroartemisinin-piperaquine treatment course and were randomized to receive either a single dose of primaquine between 0.0625 and 0.5 mg base/kg or placebo, we characterized the pharmacokinetic-pharmacodynamic relationships for transmission blocking activity. Both gametocyte clearance and mosquito infectivity were assessed. A mechanistically linked pharmacokinetic-pharmacodynamic model adequately described primaquine and carboxy-primaquine pharmacokinetics, gametocyte dynamics, and mosquito infectivity at different clinical doses of primaquine. Primaquine showed a dose-dependent gametocytocidal effect that precedes clearance. A single low dose of primaquine (0.25 mg/kg) rapidly prevented P. falciparum transmissibility.

Published
2022

34. Environmentally sustainable practices in global health research and higher education institutions: Lessons from consultation with the TropEd Global Health institutions

Author

Whitfield, K., Cretu, Alexandru, Bousema, T., Cohen, J., Whitfield, K., Cretu, Alexandru, Bousema, T., and Cohen, J.

Abstract

Item does not contain fulltext, OBJECTIVE: To examine how global health institutions are reducing the greenhouse gas emissions from their own operations and analyse the facilitators and barriers to achieving decarbonisation goals. METHODS: We reviewed the sustainability goals and implementation plans of 10 global health universities from the 'TropEd' network. We systematically collected information from institutional websites and annual reports. Through online interviews, 11 key informants validated the information from 9 of the institutions and shared their opinions regarding what factors are helping their institutions decarbonise and what factors are hindering progress. RESULTS: 4/10 institutions sampled have a sustainability strategy and implementation plan, only 3/10 have specific decarbonisation goals, and 3/10 are reporting on progress. 5/10 institutions reported that they are in the process of determining emission reduction targets. CONCLUSION: This paper identifies common success factors that facilitate decarbonisation as well as common challenges and how they are being tackled, and makes recommendations on sustainability efforts in academic institutions.

Published
2022

35. Human antibodies against noncircumsporozoite proteins block Plasmodium falciparum parasite development in hepatocytes

Author

Fabra García, A., Yang, A.S., Behet, M.C., Yap, X.Z., Waardenburg, Y.M. van, Kaviraj, S., Lanke, K.H., Gemert, G.J.A. van, Jore, M.M., Bousema, T., Sauerwein, R.W., Fabra García, A., Yang, A.S., Behet, M.C., Yap, X.Z., Waardenburg, Y.M. van, Kaviraj, S., Lanke, K.H., Gemert, G.J.A. van, Jore, M.M., Bousema, T., and Sauerwein, R.W.

Abstract

Contains fulltext : 248611.pdf (Publisher’s version ) (Open Access), Sporozoite-based approaches currently represent the most effective vaccine strategies for induction of sterile protection against Plasmodium falciparum (Pf) malaria. Clinical development of subunit vaccines is almost exclusively centered on the circum-sporozoite protein (CSP), an abundantly expressed protein on the sporozoite membrane. Anti-CSP antibodies are able to block sporozoite invasion and development in human hepatocytes and subsequently prevent clinical malaria. Here, we have investigated whether sporozoite-induced human antibodies with specificities different from CSP can reduce Pf-liver stage development. IgG preparations were obtained from 12 volunteers inoculated with a protective immunization regime of whole sporozoites under chloroquine prophylaxis. These IgGs were depleted for CSP specificity by affinity chromatography. Recovered non-CSP antibodies were tested for sporozoite membrane binding and for functional inhibition of sporozoite invasion of a human hepatoma cell line and hepatocytes both in vitro and in vivo. Postimmunization IgGs depleted for CS specificity of 9 of 12 donors recognized sporozoite surface antigens. Samples from 5 of 12 donors functionally reduced parasite-liver cell invasion or development using the hepatoma cell line HC-04 and FRG-huHep mice containing human liver cells. The combined data provide clear evidence that non-CSP proteins, as yet undefined, do represent antibody targets for functional immunity against Pf parasites responsible for malaria.

Published
2022

37. Temporal distribution of Plasmodium falciparum recrudescence following artemisinin-based combination therapy: an individual participant data meta-analysis

Author

Dahal, P, Simpson, JA, Abdulla, S, Achan, J, Adam, I, Agarwal, A, Allan, R, Anvikar, AR, Ashley, EA, Bassat, Q, Borrmann, S, Bousema, T, Bukirwa, H, Carrara, V, Corsi, M, D'Alessandro, U, Davis, TME, Deloron, P, Desai, M, Dimbu, PR, Djalle, D, Djimde, A, Dorsey, G, Drakeley, CJ, Duparc, S, Edstein, MD, Espie, E, Abul, F, Falade, C, Fanello, C, Faucher, J-F, Faye, B, Fortes, FDJ, Gadalla, NB, Gaye, O, Gil, JP, Gilayeneh, J, Greenwood, B, Grivoyannis, A, Hien, TT, Hwang, J, Janssens, B, Juma, E, Kamugisha, E, Karema, C, Karunajeewa, HA, Kiechel, JR, Kironde, F, Kofoed, P-E, Kremsner, PG, Lee, SJ, Marsh, K, Martensson, A, Mayxay, M, Menan, H, Mens, P, Mutabingwa, TK, Ndiaye, J-L, Ngasala, BE, Noedl, H, Nosten, F, Offianan, AT, Ogutu, BR, Olliaro, PL, Ouedraogo, JB, Piola, P, Plowe, C, Plucinski, MM, Pratt, OJ, Premji, Z, Ramharter, M, Rogier, C, Vitare, P, Rombo, L, Rosenthal, PJ, Sibley, C, Sirima, S, Smithuis, F, Staedke, SG, Sutanto, I, Talisuna, AO, Tarning, J, Taylor, WRJ, Temu, E, Thriemer, K, Thuy-Nhien, N, Udhayakumar, V, Ursing, JD, van Herp, M, van Lenthe, M, van Vugt, M, William, Y, Winnips, C, Zaloumis, S, Zongo, I, White, NJ, Guerin, PJ, Stepniewska, K, Price, RN, Arinaitwe, E, Dahal, P, Simpson, JA, Abdulla, S, Achan, J, Adam, I, Agarwal, A, Allan, R, Anvikar, AR, Ashley, EA, Bassat, Q, Borrmann, S, Bousema, T, Bukirwa, H, Carrara, V, Corsi, M, D'Alessandro, U, Davis, TME, Deloron, P, Desai, M, Dimbu, PR, Djalle, D, Djimde, A, Dorsey, G, Drakeley, CJ, Duparc, S, Edstein, MD, Espie, E, Abul, F, Falade, C, Fanello, C, Faucher, J-F, Faye, B, Fortes, FDJ, Gadalla, NB, Gaye, O, Gil, JP, Gilayeneh, J, Greenwood, B, Grivoyannis, A, Hien, TT, Hwang, J, Janssens, B, Juma, E, Kamugisha, E, Karema, C, Karunajeewa, HA, Kiechel, JR, Kironde, F, Kofoed, P-E, Kremsner, PG, Lee, SJ, Marsh, K, Martensson, A, Mayxay, M, Menan, H, Mens, P, Mutabingwa, TK, Ndiaye, J-L, Ngasala, BE, Noedl, H, Nosten, F, Offianan, AT, Ogutu, BR, Olliaro, PL, Ouedraogo, JB, Piola, P, Plowe, C, Plucinski, MM, Pratt, OJ, Premji, Z, Ramharter, M, Rogier, C, Vitare, P, Rombo, L, Rosenthal, PJ, Sibley, C, Sirima, S, Smithuis, F, Staedke, SG, Sutanto, I, Talisuna, AO, Tarning, J, Taylor, WRJ, Temu, E, Thriemer, K, Thuy-Nhien, N, Udhayakumar, V, Ursing, JD, van Herp, M, van Lenthe, M, van Vugt, M, William, Y, Winnips, C, Zaloumis, S, Zongo, I, White, NJ, Guerin, PJ, Stepniewska, K, Price, RN, and Arinaitwe, E

Abstract

BACKGROUND: The duration of trial follow-up affects the ability to detect recrudescent infections following anti-malarial treatment. The aim of this study was to explore the proportions of recrudescent parasitaemia as ascribed by genotyping captured at various follow-up time-points in treatment efficacy trials for uncomplicated Plasmodium falciparum malaria. METHODS: Individual patient data from 83 anti-malarial efficacy studies collated in the WorldWide Antimalarial Resistance Network (WWARN) repository with at least 28 days follow-up were available. The temporal and cumulative distributions of recrudescence were characterized using a Cox regression model with shared frailty on study-sites. Fractional polynomials were used to capture non-linear instantaneous hazard. The area under the density curve (AUC) of the constructed distribution was used to estimate the optimal follow-up period for capturing a P. falciparum malaria recrudescence. Simulation studies were conducted based on the constructed distributions to quantify the absolute overestimation in efficacy due to sub-optimal follow-up. RESULTS: Overall, 3703 recurrent infections were detected in 60 studies conducted in Africa (15,512 children aged < 5 years) and 23 studies conducted in Asia and South America (5272 patients of all ages). Using molecular genotyping, 519 (14.0%) recurrences were ascribed as recrudescent infections. A 28 day artemether-lumefantrine (AL) efficacy trial would not have detected 58% [95% confidence interval (CI) 47-74%] of recrudescences in African children and 32% [95% CI 15-45%] in patients of all ages in Asia/South America. The corresponding estimate following a 42 day dihydroartemisinin-piperaquine (DP) efficacy trial in Africa was 47% [95% CI 19-90%] in children under 5 years old treated with > 48 mg/kg total piperaquine (PIP) dose and 9% [95% CI 0-22%] in those treated with ≤ 48 mg/kg PIP dose. In absolute terms, the simulation study found that trials limited to 28 days follow-up

Published
2022

38. Haematological consequences of acute uncomplicated falciparum malaria: a WorldWide Antimalarial Resistance Network pooled analysis of individual patient data

Author

Mansoor, R, Commons, RJ, Douglas, NM, Abuaku, B, Achan, J, Adam, I, Adjei, GO, Adjuik, M, Alemayehu, BH, Allan, R, Allen, EN, Anvikar, AR, Arinaitwe, E, Ashley, EA, Ashurst, H, Asih, PBS, Bakyaita, N, Barennes, H, Barnes, K, Basco, L, Bassat, Q, Baudin, E, Bell, DJ, Bethell, D, Bjorkman, A, Boulton, C, Bousema, T, Brasseur, P, Bukirwa, H, Burrow, R, Carrara, V, Cot, M, D'Alessandro, U, Das, D, Das, S, Davis, TME, Desai, M, Djimde, AA, Dondorp, AM, Dorsey, G, Drakeley, CJ, Duparc, S, Espie, E, Etard, J-F, Falade, C, Faucher, JF, Filler, S, Fogg, C, Fukuda, M, Gaye, O, Genton, B, Rahim, AG, Gilayeneh, J, Gonzalez, R, Grais, RF, Grandesso, F, Greenwood, B, Grivoyannis, A, Hatz, C, Hodel, EM, Humphreys, GS, Hwang, J, Ishengoma, D, Juma, E, Kachur, SP, Kager, PA, Kamugisha, E, Kamya, MR, Karema, C, Kayentao, K, Kazienga, A, Kiechel, J-R, Kofoed, P-E, Koram, K, Kremsner, PG, Lalloo, DG, Laman, M, Lee, SJ, Lell, B, Maiga, AW, Martensson, A, Mayxay, M, Mbacham, W, McGready, R, Menan, H, Menard, D, Mockenhaupt, F, Moore, BR, Muller, O, Nahum, A, Ndiaye, J-L, Newton, PN, Ngasala, BE, Nikiema, F, Nji, AM, Noedl, H, Nosten, F, Ogutu, BR, Ojurongbe, O, Osorio, L, Ouedraogo, J-B, Owusu-Agyei, S, Pareek, A, Penali, LK, Piola, P, Plucinski, M, Premji, Z, Ramharter, M, Richmond, CL, Rombo, L, Rosenthal, PJ, Salman, S, Same-Ekobo, A, Sibley, C, Sirima, SB, Smithuis, FM, Some, FA, Staedke, SG, Starzengruber, P, Strub-Wourgaft, N, Sutanto, I, Swarthout, TD, Syafruddin, D, Talisuna, AO, Taylor, WR, Temu, EA, Thwing, J, Tinto, H, Tjitra, E, Toure, OA, Tran, TH, Ursing, J, Valea, I, Valentini, G, van Vugt, M, von Seidlein, L, Ward, SA, Were, V, White, NJ, Woodrow, CJ, Yavo, W, Yeka, A, Zongo, I, Simpson, JA, Guerin, PJ, Stepniewska, K, Price, RN, Roper, C, Mansoor, R, Commons, RJ, Douglas, NM, Abuaku, B, Achan, J, Adam, I, Adjei, GO, Adjuik, M, Alemayehu, BH, Allan, R, Allen, EN, Anvikar, AR, Arinaitwe, E, Ashley, EA, Ashurst, H, Asih, PBS, Bakyaita, N, Barennes, H, Barnes, K, Basco, L, Bassat, Q, Baudin, E, Bell, DJ, Bethell, D, Bjorkman, A, Boulton, C, Bousema, T, Brasseur, P, Bukirwa, H, Burrow, R, Carrara, V, Cot, M, D'Alessandro, U, Das, D, Das, S, Davis, TME, Desai, M, Djimde, AA, Dondorp, AM, Dorsey, G, Drakeley, CJ, Duparc, S, Espie, E, Etard, J-F, Falade, C, Faucher, JF, Filler, S, Fogg, C, Fukuda, M, Gaye, O, Genton, B, Rahim, AG, Gilayeneh, J, Gonzalez, R, Grais, RF, Grandesso, F, Greenwood, B, Grivoyannis, A, Hatz, C, Hodel, EM, Humphreys, GS, Hwang, J, Ishengoma, D, Juma, E, Kachur, SP, Kager, PA, Kamugisha, E, Kamya, MR, Karema, C, Kayentao, K, Kazienga, A, Kiechel, J-R, Kofoed, P-E, Koram, K, Kremsner, PG, Lalloo, DG, Laman, M, Lee, SJ, Lell, B, Maiga, AW, Martensson, A, Mayxay, M, Mbacham, W, McGready, R, Menan, H, Menard, D, Mockenhaupt, F, Moore, BR, Muller, O, Nahum, A, Ndiaye, J-L, Newton, PN, Ngasala, BE, Nikiema, F, Nji, AM, Noedl, H, Nosten, F, Ogutu, BR, Ojurongbe, O, Osorio, L, Ouedraogo, J-B, Owusu-Agyei, S, Pareek, A, Penali, LK, Piola, P, Plucinski, M, Premji, Z, Ramharter, M, Richmond, CL, Rombo, L, Rosenthal, PJ, Salman, S, Same-Ekobo, A, Sibley, C, Sirima, SB, Smithuis, FM, Some, FA, Staedke, SG, Starzengruber, P, Strub-Wourgaft, N, Sutanto, I, Swarthout, TD, Syafruddin, D, Talisuna, AO, Taylor, WR, Temu, EA, Thwing, J, Tinto, H, Tjitra, E, Toure, OA, Tran, TH, Ursing, J, Valea, I, Valentini, G, van Vugt, M, von Seidlein, L, Ward, SA, Were, V, White, NJ, Woodrow, CJ, Yavo, W, Yeka, A, Zongo, I, Simpson, JA, Guerin, PJ, Stepniewska, K, Price, RN, and Roper, C

Abstract

BACKGROUND: Plasmodium falciparum malaria is associated with anaemia-related morbidity, attributable to host, parasite and drug factors. We quantified the haematological response following treatment of uncomplicated P. falciparum malaria to identify the factors associated with malarial anaemia. METHODS: Individual patient data from eligible antimalarial efficacy studies of uncomplicated P. falciparum malaria, available through the WorldWide Antimalarial Resistance Network data repository prior to August 2015, were pooled using standardised methodology. The haematological response over time was quantified using a multivariable linear mixed effects model with nonlinear terms for time, and the model was then used to estimate the mean haemoglobin at day of nadir and day 7. Multivariable logistic regression quantified risk factors for moderately severe anaemia (haemoglobin < 7 g/dL) at day 0, day 3 and day 7 as well as a fractional fall ≥ 25% at day 3 and day 7. RESULTS: A total of 70,226 patients, recruited into 200 studies between 1991 and 2013, were included in the analysis: 50,859 (72.4%) enrolled in Africa, 18,451 (26.3%) in Asia and 916 (1.3%) in South America. The median haemoglobin concentration at presentation was 9.9 g/dL (range 5.0-19.7 g/dL) in Africa, 11.6 g/dL (range 5.0-20.0 g/dL) in Asia and 12.3 g/dL (range 6.9-17.9 g/dL) in South America. Moderately severe anaemia (Hb < 7g/dl) was present in 8.4% (4284/50,859) of patients from Africa, 3.3% (606/18,451) from Asia and 0.1% (1/916) from South America. The nadir haemoglobin occurred on day 2 post treatment with a mean fall from baseline of 0.57 g/dL in Africa and 1.13 g/dL in Asia. Independent risk factors for moderately severe anaemia on day 7, in both Africa and Asia, included moderately severe anaemia at baseline (adjusted odds ratio (AOR) = 16.10 and AOR = 23.00, respectively), young age (age < 1 compared to ≥ 12 years AOR = 12.81 and AOR = 6.79, respectively), high parasitaemia (AOR = 1.78 and AOR = 1.

Published
2022

39. Mechanistic Modeling of Primaquine Pharmacokinetics, Gametocytocidal Activity, and Mosquito Infectivity

Author

Chotsiri, P, Mahamar, A, Hoglund, RM, Koita, F, Sanogo, K, Diawara, H, Dicko, A, Simpson, JA, Bousema, T, White, NJ, Brown, JM, Gosling, R, Chen, I, Tarning, J, Chotsiri, P, Mahamar, A, Hoglund, RM, Koita, F, Sanogo, K, Diawara, H, Dicko, A, Simpson, JA, Bousema, T, White, NJ, Brown, JM, Gosling, R, Chen, I, and Tarning, J

Abstract

Clinical studies have shown that adding a single 0.25 mg base/kg dose of primaquine to standard antimalarial regimens rapidly sterilizes Plasmodium falciparum gametocytes. However, the mechanism of action and overall impact on malaria transmission is still unknown. Using data from 81 adult Malians with P. falciparum gametocytemia who received the standard dihydroartemisinin-piperaquine treatment course and were randomized to receive either a single dose of primaquine between 0.0625 and 0.5 mg base/kg or placebo, we characterized the pharmacokinetic-pharmacodynamic relationships for transmission blocking activity. Both gametocyte clearance and mosquito infectivity were assessed. A mechanistically linked pharmacokinetic-pharmacodynamic model adequately described primaquine and carboxy-primaquine pharmacokinetics, gametocyte dynamics, and mosquito infectivity at different clinical doses of primaquine. Primaquine showed a dose-dependent gametocytocidal effect that precedes clearance. A single low dose of primaquine (0.25 mg/kg) rapidly prevented P. falciparum transmissibility.

Published
2022

41. East Africa International Center of Excellence for Malaria Research: Summary of Key Research Findings

Author

Nankabirwa, J.I., Rek, John, Arinaitwe, E., Namuganga, Jane Frances, Nsobya, S., Asua, Victor, Bousema, T., Andolina, C., Kamya, M.R., Dorsey, G., Nankabirwa, J.I., Rek, John, Arinaitwe, E., Namuganga, Jane Frances, Nsobya, S., Asua, Victor, Bousema, T., Andolina, C., Kamya, M.R., and Dorsey, G.

Abstract

Contains fulltext : 286073.pdf (Publisher’s version ) (Open Access)

Published
2022

42. A Cohort Study on the Duration of Plasmodium falciparum Infections During the Dry Season in The Gambia

Author

Collins, K.A., Ceesay, S., Drammeh, S., Jaiteh, F.K., Guery, M.A., Lanke, K.H.W., Grignard, L., Stone, W., Conway, D.J., D'Alessandro, U., Bousema, T., Claessens, A., Collins, K.A., Ceesay, S., Drammeh, S., Jaiteh, F.K., Guery, M.A., Lanke, K.H.W., Grignard, L., Stone, W., Conway, D.J., D'Alessandro, U., Bousema, T., and Claessens, A.

Abstract

Contains fulltext : 282500.pdf (Publisher’s version ) (Open Access), BACKGROUND: In areas where Plasmodium falciparum malaria is seasonal, a dry season reservoir of blood-stage infection is essential for initiating transmission during the following wet season. METHODS: In The Gambia, a cohort of 42 individuals with quantitative polymerase chain reaction-positive P falciparum infections at the end of the transmission season (December) were followed monthly until the end of the dry season (May) to evaluate infection persistence. The influence of human host and parasitological factors was investigated. RESULTS: A large proportion of individuals infected at the end of the wet season had detectable infections until the end of the dry season (40.0%; 16 of 40). At the start of the dry season, the majority of these persistent infections (82%) had parasite densities >10 p/µL compared to only 5.9% of short-lived infections. Persistent infections (59%) were also more likely to be multiclonal than short-lived infections (5.9%) and were associated with individuals having higher levels of P falciparum-specific antibodies (P = .02). CONCLUSIONS: Asymptomatic persistent infections were multiclonal with higher parasite densities at the beginning of the dry season. Screening and treating asymptomatic infections during the dry season may reduce the human reservoir of malaria responsible for initiating transmission in the wet season.

Published
2022

43. Functional changes in hemostasis during asexual and sexual parasitemia in a controlled human malaria infection

Author

Huang, S., Heijden, W.A. van der, Reuling, I.J., Wan, J., Yan, Q., Laat-Kremers, R.M.W. de, Ven, A. van der, Groot, P.G. de, McCall, M.B.B., Sauerwein, R.W., Bousema, T., Roest, M., Ninivaggi, M., Mast, Q. de, Laat, B. de, Huang, S., Heijden, W.A. van der, Reuling, I.J., Wan, J., Yan, Q., Laat-Kremers, R.M.W. de, Ven, A. van der, Groot, P.G. de, McCall, M.B.B., Sauerwein, R.W., Bousema, T., Roest, M., Ninivaggi, M., Mast, Q. de, and Laat, B. de

Abstract

Contains fulltext : 282362.pdf (Publisher’s version ) (Open Access), Decreased platelet count is an early phenomenon in asexual Plasmodium falciparum parasitemia, but its association with acute or long-term functional changes in platelets and coagulation is unknown. Moreover, the impact of gametocytemia on platelets and coagulation remains unclear. We investigated the changes in platelet number and function during early asexual parasitemia, gametocytemia and convalescence in 16 individuals participating in a controlled human malaria infection study, and studied its relationship with changes in total and active von Willebrand factor levels (VWF) and the coagulation system. Platelet activation and reactivity were determined by flow cytometry, and the coagulation system was assessed using different representative assays including antigen assays, activity assays and global functional assays. Platelet count was decreased during asexual blood stage infection but normalized during gametocytemia. Platelet P-selectin expression was slightly increased during asexual parasitemia, gametocytemia and at day 64. In contrast, platelet reactivity to different agonists remained unchanged, except a marked decrease in reactivity to low dose collagen-related peptide-XL. Thrombin generation and antigen assays did not show a clear activation of the coagulation during asexual parasitemia, whereas total and active VWF levels were markedly increased. During gametocytemia and on day 64, the endogenous thrombin potential, thrombin peak and velocity index were increased and prothrombin conversion and plasma prothrombin levels were decreased. We conclude that the decreased platelet count during asexual parasitemia is associated with increased active VWF levels (i.e. endothelial activation), but not platelet hyperreactivity or hypercoagulability, and that the increased platelet clearance in asexual parasitemia could cause spontaneous VWF-platelet complexes formation.

Published
2022

44. Entomological impact of mass administration of ivermectin and dihydroartemisinin-piperaquine in The Gambia: a cluster-randomized controlled trial

Author

Soumare, Harouna M., Dabira, E.D., Camara, M.M., Jadama, L., Gaye, P.M., Kanteh, Sainey, Bousema, T., D'Alessandro, Umberto, Soumare, Harouna M., Dabira, E.D., Camara, M.M., Jadama, L., Gaye, P.M., Kanteh, Sainey, Bousema, T., and D'Alessandro, Umberto

Abstract

Contains fulltext : 285309.pdf (Publisher’s version ) (Open Access)

Published
2022

45. Quantifying Reductions in Plasmodium falciparum Infectivity to Mosquitos: A Sample Size Calculator to Inform Clinical Trials on Transmission-Reducing Interventions

Author

Ramjith, J., Alkema, M., Bradley, J., Dicko, A., Drakeley, C., Stone, W., Bousema, T., Ramjith, J., Alkema, M., Bradley, J., Dicko, A., Drakeley, C., Stone, W., and Bousema, T.

Abstract

Contains fulltext : 251747.pdf (Publisher’s version ) (Open Access), Malaria transmission depends on the presence of mature Plasmodium transmission stages (gametocytes) that may render blood-feeding Anopheles mosquitos infectious. Transmission-blocking antimalarial drugs and vaccines can prevent transmission by reducing gametocyte densities or infectivity to mosquitos. Mosquito infection outcomes are thereby informative biological endpoints of clinical trials with transmission blocking interventions. Nevertheless, trials are often primarily designed to determine intervention safety; transmission blocking efficacy is difficult to incorporate in sample size considerations due to variation in infection outcomes and considerable inter-study variation. Here, we use clinical trial data from studies in malaria naive and naturally exposed study participants to present an online sample size calculator tool. This sample size calculator allows studies to be powered to detect reductions in the proportion of infected mosquitos or infection burden (oocyst density) in mosquitos. The utility of this online tool is illustrated using trial data with transmission blocking malaria drugs.

Published
2022

47. Safety of single-dose primaquine as a Plasmodium falciparum gametocytocide: a systematic review and meta-analysis of individual patient data

Author

Stepniewska, K., Allen, E.N., Humphreys, G.S., Poirot, E., Craig, E., Kennon, K., Yilma, D., Bousema, T., Guerin, P.J., White, N.J., Price, R.N., Raman, J., Martensson, A., Mwaiswelo, R.O., Bancone, G., Bastiaens, G.J.H., Bjorkman, A., Brown, J.M., D'Alessandro, U., Dicko, A.A., El-Sayed, B., Elzaki, S.E., Eziefula, A.C., Gonçalves, B.P., Hamid, M.M.A., Kaneko, A., Kariuki, S., Khan, W., Kwambai, T.K., Ley, B., Ngasala, B.E., Nosten, F., Okebe, J., Samuels, A.M., Smit, M.R., Stone, W.J.R., Sutanto, I., Kuile, F. ter, Tine, R.C., Tiono, A.B., Drakeley, C.J., Gosling, R., Stergachis, A., Barnes, K.I., Chen, I., Stepniewska, K., Allen, E.N., Humphreys, G.S., Poirot, E., Craig, E., Kennon, K., Yilma, D., Bousema, T., Guerin, P.J., White, N.J., Price, R.N., Raman, J., Martensson, A., Mwaiswelo, R.O., Bancone, G., Bastiaens, G.J.H., Bjorkman, A., Brown, J.M., D'Alessandro, U., Dicko, A.A., El-Sayed, B., Elzaki, S.E., Eziefula, A.C., Gonçalves, B.P., Hamid, M.M.A., Kaneko, A., Kariuki, S., Khan, W., Kwambai, T.K., Ley, B., Ngasala, B.E., Nosten, F., Okebe, J., Samuels, A.M., Smit, M.R., Stone, W.J.R., Sutanto, I., Kuile, F. ter, Tine, R.C., Tiono, A.B., Drakeley, C.J., Gosling, R., Stergachis, A., Barnes, K.I., and Chen, I.

Abstract

Contains fulltext : 282621.pdf (Publisher’s version ) (Open Access), BACKGROUND: In 2012, the World Health Organization (WHO) recommended single low-dose (SLD, 0.25 mg/kg) primaquine to be added as a Plasmodium (P.) falciparum gametocytocide to artemisinin-based combination therapy (ACT) without glucose-6-phosphate dehydrogenase (G6PD) testing, to accelerate malaria elimination efforts and avoid the spread of artemisinin resistance. Uptake of this recommendation has been relatively slow primarily due to safety concerns. METHODS: A systematic review and individual patient data (IPD) meta-analysis of single-dose (SD) primaquine studies for P. falciparum malaria were performed. Absolute and fractional changes in haemoglobin concentration within a week and adverse effects within 28 days of treatment initiation were characterised and compared between primaquine and no primaquine arms using random intercept models. RESULTS: Data comprised 20 studies that enrolled 6406 participants, of whom 5129 (80.1%) had received a single target dose of primaquine ranging between 0.0625 and 0.75 mg/kg. There was no effect of primaquine in G6PD-normal participants on haemoglobin concentrations. However, among 194 G6PD-deficient African participants, a 0.25 mg/kg primaquine target dose resulted in an additional 0.53 g/dL (95% CI 0.17-0.89) reduction in haemoglobin concentration by day 7, with a 0.27 (95% CI 0.19-0.34) g/dL haemoglobin drop estimated for every 0.1 mg/kg increase in primaquine dose. Baseline haemoglobin, young age, and hyperparasitaemia were the main determinants of becoming anaemic (Hb < 10 g/dL), with the nadir observed on ACT day 2 or 3, regardless of G6PD status and exposure to primaquine. Time to recovery from anaemia took longer in young children and those with baseline anaemia or hyperparasitaemia. Serious adverse haematological events after primaquine were few (9/3, 113, 0.3%) and transitory. One blood transfusion was reported in the primaquine arms, and there were no primaquine-related deaths. In controlled studies, the proportions

Published
2022

49. Single low-dose tafenoquine combined with dihydroartemisinin-piperaquine to reduce Plasmodium falciparum transmission in Ouelessebougou, Mali: a phase 2, single-blind, randomised clinical trial

Author

Stone, W., Mahamar, A., Smit, M.J., Sanogo, K., Sinaba, Y., Niambele, S.M., Sacko, A., Keita, S., Dicko, O.M., Diallo, M., Maguiraga, S.O., Samake, S., Attaher, O., Lanke, K.H.W., Heine, R. ter, Bradley, J., McCall, M.B.B., Issiaka, D., Traore, S.F., Bousema, T., Drakeley, C., Dicko, A., Stone, W., Mahamar, A., Smit, M.J., Sanogo, K., Sinaba, Y., Niambele, S.M., Sacko, A., Keita, S., Dicko, O.M., Diallo, M., Maguiraga, S.O., Samake, S., Attaher, O., Lanke, K.H.W., Heine, R. ter, Bradley, J., McCall, M.B.B., Issiaka, D., Traore, S.F., Bousema, T., Drakeley, C., and Dicko, A.

Abstract

Contains fulltext : 251206.pdf (Publisher’s version ) (Open Access), BACKGROUND: Tafenoquine was recently approved as a prophylaxis and radical cure for Plasmodium vivax infection, but its Plasmodium falciparum transmission-blocking efficacy is unclear. We aimed to establish the efficacy and safety of three single low doses of tafenoquine in combination with dihydroartemisinin-piperaquine for reducing gametocyte density and transmission to mosquitoes. METHODS: In this four-arm, single-blind, phase 2, randomised controlled trial, participants were recruited at the Clinical Research Unit of the Malaria Research and Training Centre of the University of Bamako in Mali. Eligible participants were aged 12-50 years, with asymptomatic P falciparum microscopy-detected gametocyte carriage, had a bodyweight of 80 kg or less, and had no clinical signs of malaria defined by fever. Participants were randomly assigned (1:1:1:1) to standard treatment with dihydroartemisinin-piperaquine, or dihydroartemisinin-piperaquine plus a single dose of tafenoquine (in solution) at a final dosage of 0·42 mg/kg, 0·83 mg/kg, or 1·66 mg/kg. Randomisation was done with a computer-generated randomisation list and concealed with sealed, opaque envelopes. Dihydroartemisinin-piperaquine was administered as oral tablets over 3 days (day 0, 1, and 2), as per manufacturer instructions. A single dose of tafenoquine was administered as oral solution on day 0 in parallel with the first dose of dihydroartemisinin-piperaquine. Tafenoquine dosing was based on bodyweight to standardise efficacy and risk variance. The primary endpoint, assessed in the per-protocol population, was median percentage change in mosquito infection rate 7 days after treatment compared with baseline. Safety endpoints included frequency and incidence of adverse events. The final follow-up visit was on Dec 23, 2021; the trial is registered with ClinicalTrials.gov, NCT04609098. FINDINGS: From Oct 29 to Nov 25, 2020, 1091 individuals were screened for eligibility, 80 of whom were enrolled and randomly assig

Published
2022

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