Your search keyword '"Oneko, Martina"' showing total 47 results

1. Fetal sex and risk of pregnancy-associated malaria in Plasmodium falciparum-endemic regions: a meta-analysis

Author

Unger, Holger W., Hadiprodjo, Anastasia Jessica, Gutman, Julie R., Briand, Valerie, Fievet, Nadine, Valea, Innocent, Tinto, Halidou, D’Alessandro, Umberto, Landis, Sarah H., Ter Kuile, Feiko, Ouma, Peter, Oneko, Martina, Mwapasa, Victor, Slutsker, Laurence, Terlouw, Dianne J., Kariuki, Simon, Ayisi, John, Nahlen, Bernard, Desai, Meghna, Madanitsa, Mwayi, Kalilani-Phiri, Linda, Ashorn, Per, Maleta, Kenneth, Tshefu-Kitoto, Antoinette, Mueller, Ivo, Stanisic, Danielle, Cates, Jordan, Van Eijk, Anna Maria, Ome-Kaius, Maria, Aitken, Elizabeth H., and Rogerson, Stephen J.

Published

2023

2. Efficacy of RTS,S/AS01E malaria vaccine administered according to different full, fractional, and delayed third or early fourth dose regimens in children aged 5–17 months in Ghana and Kenya: an open-label, phase 2b, randomised controlled trial

Author

Sambian, David, Agordo Dornudo, Albert, Nana Badu, Lydia, Akoi, Kwame, Antwi, Evans, Onoka, Kelvin, K'Orimba, Kevin, Ndaya Oloo, Paul, Leakey, Elizabeth, Gvozdenovic, Emilia, Cravcenco, Cristina, Vandoolaeghe, Pascale, Vekemans, Johan, Ivinson, Karen, Samuels, Aaron M, Ansong, Daniel, Kariuki, Simon K, Adjei, Samuel, Bollaerts, Anne, Ockenhouse, Christian, Westercamp, Nelli, Lee, Cynthia K, Schuerman, Lode, Bii, Dennis K, Osei-Tutu, Lawrence, Oneko, Martina, Lievens, Marc, Attobrah Sarfo, Maame Anima, Atieno, Cecilia, Morelle, Danielle, Bakari, Ashura, Sang, Tony, Jongert, Erik, Kotoh-Mortty, Maame Fremah, Otieno, Kephas, Roman, François, Buabeng, Patrick Boakye Yiadom, Ntiamoah, Yaw, Ofori-Anyinam, Opokua, and Agbenyega, Tsiri

Published

2022

3. Assessing the safety, impact and effectiveness of RTS,S/AS01E malaria vaccine following its introduction in three sub-Saharan African countries: methodological approaches and study set-up

Author

Praet, Nicolas, Asante, Kwaku Poku, Bozonnat, Marie-Cecile, Akité, Elaine Jacqueline, Ansah, Patrick Odum, Baril, Laurence, Boahen, Owusu, Mendoza, Yolanda Guerra, Haine, Valerie, Kariuki, Simon, Lamy, Mathieu, Maleta, Kenneth, Mungwira, Randy, Ndeketa, Latif, Oduro, Abraham, Ogutu, Bernhards, Olewe, Fredrick, Oneko, Martina, Orsini, Mattéa, Roman, Francois, Bahmanyar, Edith Roset, Rosillon, Dominique, Schuerman, Lode, Sing’oei, Valentine, Terlouw, Dianne J., Wéry, Stéphanie, Otieno, Walter, and Pirçon, Jean-Yves

Published

2022

4. Safety, immunogenicity and efficacy of PfSPZ Vaccine against malaria in infants in western Kenya: a double-blind, randomized, placebo-controlled phase 2 trial

Author

Oneko, Martina, Steinhardt, Laura C., Yego, Reuben, Wiegand, Ryan E., Swanson, Phillip A., KC, Natasha, and Akach, Dorcas

Subjects

Control, Testing, Demographic aspects, Dosage and administration, Health aspects, Infants -- Health aspects, Malaria vaccines -- Dosage and administration -- Demographic aspects -- Testing, Plasmodium falciparum -- Control, Malaria vaccine -- Dosage and administration -- Demographic aspects -- Testing

Abstract

Author(s): Martina Oneko [sup.1] , Laura C. Steinhardt [sup.2] , Reuben Yego [sup.1] , Ryan E. Wiegand [sup.2] , Phillip A. Swanson [sup.3] , Natasha KC [sup.4] , Dorcas Akach [...], The radiation-attenuated Plasmodium falciparum sporozoite (PfSPZ) vaccine provides protection against P. falciparum infection in malaria-naïve adults. Preclinical studies show that T cell-mediated immunity is required for protection and is readily induced in humans after vaccination. However, previous malaria exposure can limit immune responses and vaccine efficacy (VE) in adults. We hypothesized that infants with less previous exposure to malaria would have improved immunity and protection. We conducted a multi-arm, randomized, double-blind, placebo-controlled trial in 336 infants aged 5-12 months to determine the safety, tolerability, immunogenicity and efficacy of the PfSPZ Vaccine in infants in a high-transmission malaria setting in western Kenya (NCT02687373). Groups of 84 infants each received 4.5 × 10.sup.5, 9.0 × 10.sup.5 or 1.8 × 10.sup.6 PfSPZ Vaccine or saline three times at 8-week intervals. The vaccine was well tolerated; 52 (20.6%) children in the vaccine groups and 20 (23.8%) in the placebo group experienced related solicited adverse events (AEs) within 28 d postvaccination and most were mild. There was 1 grade 3-related solicited AE in the vaccine group (0.4%) and 2 in the placebo group (2.4%). Seizures were more common in the highest-dose group (14.3%) compared to 6.0% of controls, with most being attributed to malaria. There was no significant protection against P. falciparum infection in any dose group at 6 months (VE in the 9.0 × 10.sup.5 dose group = -6.5%, P = 0.598, the primary statistical end point of the study). VE against clinical malaria 3 months after the last dose in the highest-dose group was 45.8% (P = 0.027), an exploratory end point. There was a dose-dependent increase in antibody responses that correlated with VE at 6 months in the lowest- and highest-dose groups. T cell responses were undetectable across all dose groups. Detection of V[delta]2.sup.+V[gamma]9.sup.+ T cells, which have been correlated with induction of PfSPZ Vaccine T cell immunity and protection in adults, were infrequent. These data suggest that PfSPZ Vaccine-induced T cell immunity is age-dependent and may be influenced by V[delta]2.sup.+V[gamma]9.sup.+ T cell frequency. Since there was no significant VE at 6 months in these infants, these vaccine regimens will likely not be pursued further in this age group. The PfSPZ Vaccine does not protect infants from infection with Plasmodium falciparum, the major cause of malaria.

Published

2021

5. Malaria, malnutrition, and birthweight: A meta-analysis using individual participant data.

Author

Cates, Jordan E, Unger, Holger W, Briand, Valerie, Fievet, Nadine, Valea, Innocent, Tinto, Halidou, D'Alessandro, Umberto, Landis, Sarah H, Adu-Afarwuah, Seth, Dewey, Kathryn G, Ter Kuile, Feiko O, Desai, Meghna, Dellicour, Stephanie, Ouma, Peter, Gutman, Julie, Oneko, Martina, Slutsker, Laurence, Terlouw, Dianne J, Kariuki, Simon, Ayisi, John, Madanitsa, Mwayiwawo, Mwapasa, Victor, Ashorn, Per, Maleta, Kenneth, Mueller, Ivo, Stanisic, Danielle, Schmiegelow, Christentze, Lusingu, John PA, van Eijk, Anna Maria, Bauserman, Melissa, Adair, Linda, Cole, Stephen R, Westreich, Daniel, Meshnick, Steven, and Rogerson, Stephen

Subjects

Humans, Malaria, Malnutrition, Prevalence, Pregnancy, Infant, Newborn, Infant, Low Birth Weight, Africa South of the Sahara, Asia, Pacific Islands, Female, General & Internal Medicine, Medical and Health Sciences

Abstract

BackgroundFour studies previously indicated that the effect of malaria infection during pregnancy on the risk of low birthweight (LBW;

Published

2017

6. Innate immune activation restricts priming and protective efficacy of the radiation-attenuated PfSPZ malaria vaccine

Author

Senkpeil, Leetah, primary, Bhardwaj, Jyoti, additional, Little, Morgan R., additional, Holla, Prasida, additional, Upadhye, Aditi, additional, Fusco, Elizabeth M., additional, Swanson II, Phillip A., additional, Wiegand, Ryan E., additional, Macklin, Michael D., additional, Bi, Kevin, additional, Flynn, Barbara J., additional, Yamamoto, Ayako, additional, Gaskin, Erik L., additional, Sather, D. Noah, additional, Oblak, Adrian L., additional, Simpson, Edward, additional, Gao, Hongyu, additional, Haining, W. Nicholas, additional, Yates, Kathleen B., additional, Liu, Xiaowen, additional, Murshedkar, Tooba, additional, Richie, Thomas L., additional, Sim, B. Kim Lee, additional, Otieno, Kephas, additional, Kariuki, Simon, additional, Xuei, Xiaoling, additional, Liu, Yunlong, additional, Polidoro, Rafael B., additional, Hoffman, Stephen L., additional, Oneko, Martina, additional, Steinhardt, Laura C., additional, Schmidt, Nathan W., additional, Seder, Robert A., additional, and Tran, Tuan M., additional

Published

2024

7. The impact of maternal HIV and malaria infection on the prevalence of congenital cytomegalovirus infection in Western Kenya

Author

Otieno, Nancy A., Nyawanda, Bryan O., Otiato, Fredrick, Oneko, Martina, Amin, Minal M., Otieno, Michael, Omollo, Daniel, McMorrow, Meredith, Chaves, Sandra S., Dollard, Sheila C., and Lanzieri, Tatiana M.

Published

2019

8. Could Less Be More? Accounting for Fractional-Dose Regimens and Different Number of Vaccine Doses When Measuring the Impact of the RTS,S/AS01E Malaria Vaccine.

Author

Westercamp, Nelli, Osei-Tutu, Lawrence, Schuerman, Lode, Kariuki, Simon K, Bollaerts, Anne, Lee, Cynthia K, Samuels, Aaron M, Ockenhouse, Christian, Bii, Dennis K, Adjei, Samuel, Oneko, Martina, Lievens, Marc, Sarfo, Maame Anima Attobrah, Atieno, Cecilia, Bakari, Ashura, Sang, Tony, Kotoh-Mortty, Maame Fremah, Otieno, Kephas, Roman, François, and Buabeng, Patrick Boakye Yiadom

Subjects

MALARIA vaccines, CLINICAL trial registries, VACCINE effectiveness, VACCINATION of children, RABIES vaccines

Abstract

Background The RTS,S/AS01E (RTS,S) malaria vaccine is recommended for children in malaria endemic areas. This phase 2b trial evaluates RTS,S fractional- and full-dose regimens in Ghana and Kenya. Methods In total, 1500 children aged 5–17 months were randomized (1:1:1:1:1) to receive RTS,S or rabies control vaccine. RTS,S groups received 2 full RTS,S doses at months 0 and 1 and either full (groups R012-20, R012-14-26) or fractional doses (one-fifth; groups Fx012-14-26, Fx017-20-32). Results At month 32 post-dose 1, vaccine efficacy against clinical malaria (all episodes) ranged from 38% (R012-20; 95% confidence interval [CI]: 24%–49%) to 53% (R012-14-26; 95% CI: 42%–62%). Vaccine impact (cumulative number of cases averted/1000 children vaccinated) was 1344 (R012-20), 2450 (R012-14-26), 2273 (Fx012-14-26), and 2112 (Fx017-20-32). To account for differences in vaccine volume (fractional vs full dose; post hoc analysis), we estimated cases averted/1000 RTS,S full-dose equivalents: 336 (R012-20), 490 (R012-14-26), 874 (Fx012-14-26), and 880 (Fx017-20-32). Conclusions Vaccine efficacy was similar across RTS,S groups. Vaccine impact accounting for full-dose equivalence suggests that using fractional-dose regimens could be a viable dose-sparing strategy. If maintained through trial end, these observations underscore the means to reduce cost per regimen thus maximizing impact and optimizing supply. Clinical Trials Registration NCT03276962 (ClinicalTrials.gov). [ABSTRACT FROM AUTHOR]

Published

2024

9. Caregiver and community perceptions and experiences participating in an infant malaria prevention trial of PfSPZ Vaccine administered by direct venous inoculation: a qualitative study in Siaya County, western Kenya

Author

Achieng, Florence, Rosen, Joseph G., Cherop, Reuben Yego, Kariuki, Simon, Hoffman, Stephen L., Seder, Robert, Oneko, Martina, and Steinhardt, Laura C.

Published

2020

10. Post-Discharge Risk of Mortality in Children under 5 Years of Age in Western Kenya: A Retrospective Cohort Study

Author

Kwambai, Titus K., primary, Kariuki, Simon, additional, Smit, Menno R., additional, Nevitt, Sarah, additional, Onyango, Eric, additional, Oneko, Martina, additional, Khagayi, Sammy, additional, Samuels, Aaron M., additional, Hamel, Mary J., additional, Laserson, Kayla, additional, Desai, Meghna, additional, and ter Kuile, Feiko O., additional

Published

2023

11. Congenital anomalies: Case definition and guidelines for data collection, analysis, and presentation of immunization safety data

Author

DeSilva, Malini, Munoz, Flor M., Mcmillan, Mark, Kawai, Alison Tse, Marshall, Helen, Macartney, Kristine K., Joshi, Jyoti, Oneko, Martina, Rose, Annette Elliott, Dolk, Helen, Trotta, Francesco, Spiegel, Hans, Tomczyk, Sylvie, Shrestha, Anju, Kochhar, Sonali, and Kharbanda, Elyse O.

Published

2016

12. Safety and immunogenicity of RTS,S/AS01 malaria vaccine in infants and children with WHO stage 1 or 2 HIV disease: a randomised, double-blind, controlled trial

Author

Otieno, Lucas, Oneko, Martina, Otieno, Walter, Abuodha, Joseph, Owino, Emmanuel, Odero, Chris, Mendoza, Yolanda Guerra, Andagalu, Ben, Awino, Norbert, Ivinson, Karen, Heerwegh, Dirk, Otsyula, Nekoye, Oziemkowska, Maria, Usuf, Effua Abigail, Otieno, Allan, Otieno, Kephas, Leboulleux, Didier, Leach, Amanda, Oyieko, Janet, Slutsker, Laurence, Lievens, Marc, Cowden, Jessica, Lapierre, Didier, Kariuki, Simon, Ogutu, Bernhards, Vekemans, Johan, and Hamel, Mary J

Published

2016

13. Immunogenicity of the RTS,S/AS01 malaria vaccine and implications for duration of vaccine efficacy: secondary analysis of data from a phase 3 randomised controlled trial

Author

White, Michael T, Verity, Robert, Griffin, Jamie T, Asante, Kwaku Poku, Owusu-Agyei, Seth, Greenwood, Brian, Drakeley, Chris, Gesase, Samwel, Lusingu, John, Ansong, Daniel, Adjei, Samuel, Agbenyega, Tsiri, Ogutu, Bernhards, Otieno, Lucas, Otieno, Walter, Agnandji, Selidji T, Lell, Bertrand, Kremsner, Peter, Hoffman, Irving, Martinson, Francis, Kamthunzu, Portia, Tinto, Halidou, Valea, Innocent, Sorgho, Hermann, Oneko, Martina, Otieno, Kephas, Hamel, Mary J, Salim, Nahya, Mtoro, Ali, Abdulla, Salim, Aide, Pedro, Sacarlal, Jahit, Aponte, John J, Njuguna, Patricia, Marsh, Kevin, Bejon, Philip, Riley, Eleanor M, and Ghani, Azra C

Published

2015

14. Emergence of Community-Acquired, Multidrug-Resistant Invasive Nontyphoidal Salmonella Disease in Rural Western Kenya, 2009–2013

Author

Oneko, Martina, Kariuki, Simon, Muturi-Kioi, Vincent, Otieno, Kephas, Otieno, Vincent O., Williamson, John M., Folster, Jason, Parsons, Michele B., Slutsker, Laurence, Mahon, Barbara E., and Hamel, Mary J.

Published

2015

15. PfSPZ Vaccine Does Not Increase Biomarkers of Epstein-Barr Virus Reactivation Predictive of Endemic Burkitt Lymphoma

Author

Moormann, Ann, primary, Church, LW Preston, additional, Forconi, Catherine, additional, Riyahi, Pouria, additional, KC, Natasha, additional, Oneko, Martina, additional, Steinhardt, Laura C., additional, Jongo, Said A., additional, Urbano, Vincente, additional, Seder, Robert A., additional, Abdullah, Salim, additional, Richie, Thomas L., additional, and Hoffman, Stephen, additional

Published

2023

16. Increased levels of anti-PfCSP antibodies in post-pubertal females versus males immunized with PfSPZ Vaccine does not translate into increased protective efficacy

Author

KC, Natasha, primary, Church, L. W. Preston, additional, Riyahi, Pouria, additional, Chakravarty, Sumana, additional, Seder, Robert A., additional, Epstein, Judith E., additional, Lyke, Kirsten E., additional, Mordmüller, Benjamin, additional, Kremsner, Peter G., additional, Sissoko, Mahamadou S., additional, Healy, Sara, additional, Duffy, Patrick E., additional, Jongo, Said A., additional, Nchama, Vicente Urbano Nsue Ndong, additional, Abdulla, Salim, additional, Mpina, Maxmillian, additional, Sirima, Sodiomon B., additional, Laurens, Matthew B., additional, Steinhardt, Laura C., additional, Oneko, Martina, additional, Li, MingLin, additional, Murshedkar, Tooba, additional, Billingsley, Peter F., additional, Sim, B. Kim Lee, additional, Richie, Thomas L., additional, and Hoffman, Stephen L., additional

Published

2022

17. Efficacy of RTS,S/AS01E malaria vaccine administered according to different full, fractional, and delayed third or early fourth dose regimens in children aged 5–17 months in Ghana and Kenya: an open-label, phase 2b, randomised controlled trial

Author

Samuels, Aaron M, primary, Ansong, Daniel, additional, Kariuki, Simon K, additional, Adjei, Samuel, additional, Bollaerts, Anne, additional, Ockenhouse, Christian, additional, Westercamp, Nelli, additional, Lee, Cynthia K, additional, Schuerman, Lode, additional, Bii, Dennis K, additional, Osei-Tutu, Lawrence, additional, Oneko, Martina, additional, Lievens, Marc, additional, Attobrah Sarfo, Maame Anima, additional, Atieno, Cecilia, additional, Morelle, Danielle, additional, Bakari, Ashura, additional, Sang, Tony, additional, Jongert, Erik, additional, Kotoh-Mortty, Maame Fremah, additional, Otieno, Kephas, additional, Roman, François, additional, Buabeng, Patrick Boakye Yiadom, additional, Ntiamoah, Yaw, additional, Ofori-Anyinam, Opokua, additional, Agbenyega, Tsiri, additional, Sambian, David, additional, Agordo Dornudo, Albert, additional, Nana Badu, Lydia, additional, Akoi, Kwame, additional, Antwi, Evans, additional, Onoka, Kelvin, additional, K'Orimba, Kevin, additional, Ndaya Oloo, Paul, additional, Leakey, Elizabeth, additional, Gvozdenovic, Emilia, additional, Cravcenco, Cristina, additional, Vandoolaeghe, Pascale, additional, Vekemans, Johan, additional, and Ivinson, Karen, additional

Published

2022

18. Artesunate versus quinine in the treatment of severe falciparum malaria in African children (AQUAMAT): an open-label, randomised trial

Author

Dondorp, Arjen M, Fanello, Caterina I, Hendriksen, Ilse CE, Gomes, Ermelinda, Seni, Amir, Chhaganlal, Kajal D, Bojang, Kalifa, Olaosebikan, Rasaq, Anunobi, Nkechinyere, Maitland, Kathryn, Kivaya, Esther, Agbenyega, Tsiri, Nguah, Samuel Blay, Evans, Jennifer, Gesase, Samwel, Kahabuka, Catherine, Mtove, George, Nadjm, Behzad, Deen, Jacqueline, Mwanga-Amumpaire, Juliet, Nansumba, Margaret, Karema, Corine, Umulisa, Noella, Uwimana, Aline, Mokuolu, Olugbenga A, Adedoyin, Olanrewaju T, Johnson, Wahab BR, Tshefu, Antoinette K, Onyamboko, Marie A, Sakulthaew, Tharisara, Ngum, Wirichada Pan, Silamut, Kamolrat, Stepniewska, Kasia, Woodrow, Charles J, Bethell, Delia, Wills, Bridget, Oneko, Martina, Peto, Tim E, von Seidlein, Lorenz, Day, Nicholas PJ, and White, Nicholas J

Published

2010

19. The burden of influenza among Kenyan pregnant and postpartum women and their infants, 2015–2020

Author

Otieno, Nancy A., primary, Nyawanda, Bryan O., additional, McMorrow, Meredith, additional, Oneko, Martina, additional, Omollo, Daniel, additional, Lidechi, Shirley, additional, Widdowson, Marc‐Alain, additional, Flannery, Brendan, additional, Chaves, Sandra S., additional, Azziz‐Baumgartner, Eduardo, additional, and Emukule, Gideon O., additional

Published

2022

20. Innate immune activation restricts priming and protective efficacy of the radiation-attenuated PfSPZ malaria vaccine

Author

Senkpeil, Leetah, primary, Bhardwaj, Jyoti, additional, Little, Morgan, additional, Holla, Prasida, additional, Upadhye, Aditi, additional, Swanson, Phillip A., additional, Wiegand, Ryan E., additional, Macklin, Michael D., additional, Bi, Kevin, additional, Flynn, Barbara J., additional, Yamamoto, Ayako, additional, Gaskin, Erik L., additional, Sather, D. Noah, additional, Oblak, Adrian L., additional, Simpson, Edward, additional, Gao, Hongyu, additional, Haining, W. Nicholas, additional, Yates, Kathleen B., additional, Liu, Xiaowen, additional, Otieno, Kephas, additional, Kariuki, Simon, additional, Xuei, Xiaoling, additional, Liu, Yunlong, additional, Polidoro, Rafael, additional, Hoffman, Stephen L., additional, Oneko, Martina, additional, Steinhardt, Laura C., additional, Schmidt, Nathan W., additional, Seder, Robert A., additional, and Tran, Tuan M., additional

Published

2021

21. Neurodevelopmental outcomes of infants with congenital cytomegalovirus infection in Western Kenya

Author

Oneko, Martina, Otieno, Nancy A., Dollard, Sheila C., and Lanzieri, Tatiana M.

Published

2020

22. The Burden of Influenza among Kenyan Pregnant and postpartum Women and their Infants, 2015--2020

Author

Otieno, Nancy, primary, Nyawanda, Bryan, additional, McMorrow, Meredith, additional, Oneko, Martina, additional, Omollo, Daniel, additional, Lidechi, Shirley, additional, Widdowson, Marc-Alain, additional, Flannery, Brendan, additional, Chaves, Sandra, additional, Azziz-Baumgartner, Eduardo, additional, and Emukule, Gideon, additional

Published

2021

23. First-trimester artemisinin derivatives and quinine treatments and the risk of adverse pregnancy outcomes in Africa and Asia: A meta-analysis of observational studies

Author

Dellicour, Stephanie, Sevene, Esperança, McGready, Rose, Tinto, Halidou, Mosha, Dominic, Manyando, Christine, Rulisa, Stephen, Desai, Meghna, Ouma, Peter, Oneko, Martina, Vala, Anifa, Rupérez, Maria, Macete, Eusébio, Menéndez, Clara, Nakanabo-Diallo, Seydou, Kazienga, Adama, Valéa, Innocent, Calip, Gregory, Augusto, Orvalho, Genton, Blaise, Njunju, Eric M., Moore, Kerryn A., d'Alessandro, Umberto, Nosten, Francois, ter Kuile, Feiko, and Stergachis, Andy

Subjects

Research, Risk factors, Health aspects, Quinine -- Health aspects -- Research, Artemisinin -- Research -- Health aspects, Pregnancy complications -- Risk factors -- Research -- Health aspects, Pregnancy, Complications of -- Risk factors -- Research -- Health aspects

Abstract

Author(s): Stephanie Dellicour 1,*, Esperança Sevene 2,3, Rose McGready 4,5, Halidou Tinto 6, Dominic Mosha 7, Christine Manyando 8, Stephen Rulisa 9, Meghna Desai 10, Peter Ouma 11, Martina Oneko [...], Background Animal embryotoxicity data, and the scarcity of safety data in human pregnancies, have prevented artemisinin derivatives from being recommended for malaria treatment in the first trimester except in lifesaving circumstances. We conducted a meta-analysis of prospective observational studies comparing the risk of miscarriage, stillbirth, and major congenital anomaly (primary outcomes) among first-trimester pregnancies treated with artemisinin derivatives versus quinine or no antimalarial treatment. Methods and findings Electronic databases including Medline, Embase, and Malaria in Pregnancy Library were searched, and investigators contacted. Five studies involving 30,618 pregnancies were included; four from sub-Saharan Africa (n = 6,666 pregnancies, six sites) and one from Thailand (n = 23,952). Antimalarial exposures were ascertained by self-report or active detection and confirmed by prescriptions, clinic cards, and outpatient registers. Cox proportional hazards models, accounting for time under observation and gestational age at enrollment, were used to calculate hazard ratios. Individual participant data (IPD) meta-analysis was used to combine the African studies, and the results were then combined with those from Thailand using aggregated data meta-analysis with a random effects model. There was no difference in the risk of miscarriage associated with the use of artemisinins anytime during the first trimester (n = 37/671) compared with quinine (n = 96/945; adjusted hazard ratio [aHR] = 0.73 [95% CI 0.44, 1.21], I.sup.2 = 0%, p = 0.228), in the risk of stillbirth (artemisinins, n = 10/654; quinine, n = 11/615; aHR = 0.29 [95% CI 0.08-1.02], p = 0.053), or in the risk of miscarriage and stillbirth combined (pregnancy loss) (aHR = 0.58 [95% CI 0.36-1.02], p = 0.099). The corresponding risks of miscarriage, stillbirth, and pregnancy loss in a sensitivity analysis restricted to artemisinin exposures during the embryo sensitive period (6-12 wk gestation) were as follows: aHR = 1.04 (95% CI 0.54-2.01), I.sup.2 = 0%, p = 0.910; aHR = 0.73 (95% CI 0.26-2.06), p = 0.551; and aHR = 0.98 (95% CI 0.52-2.04), p = 0.603. The prevalence of major congenital anomalies was similar for first-trimester artemisinin (1.5% [95% CI 0.6%-3.5%]) and quinine exposures (1.2% [95% CI 0.6%-2.4%]). Key limitations of the study include the inability to control for confounding by indication in the African studies, the paucity of data on potential confounders, the limited statistical power to detect differences in congenital anomalies, and the lack of assessment of cardiovascular defects in newborns. Conclusions Compared to quinine, artemisinin treatment in the first trimester was not associated with an increased risk of miscarriage or stillbirth. While the data are limited, they indicate no difference in the prevalence of major congenital anomalies between treatment groups. The benefits of 3-d artemisinin combination therapy regimens to treat malaria in early pregnancy are likely to outweigh the adverse outcomes of partially treated malaria, which can occur with oral quinine because of the known poor adherence to 7-d regimens. Review registration PROSPERO CRD42015032371

Published

2017

24. The Burden of Influenza Among Kenyan Pregnant and Postpartum Women and Their Infants, 2015–2020

Author

Otieno, Nancy A., primary, Nyawanda, Bryan, additional, McMorrow, Meredith, additional, Oneko, Martina, additional, Lidechi, Shirley, additional, Widdowson, Marc-Alain, additional, Flannery, Brendan, additional, Chaves, Sandra, additional, Azziz-Baumgartner, Eduardo, additional, and Emukule, Gideon, additional

Published

2021

25. Exploration of risk factors for ceftriaxone resistance in invasive non-typhoidal Salmonella infections in western Kenya

Author

Luvsansharav, Ulzii-Orshikh, primary, Wakhungu, James, additional, Grass, Julian, additional, Oneko, Martina, additional, Nguyen, Von, additional, Bigogo, Godfrey, additional, Ogola, Eric, additional, Audi, Allan, additional, Onyango, Dickens, additional, Hamel, Mary J., additional, Montgomery, Joel M., additional, Fields, Patricia I., additional, and Mahon, Barbara E., additional

Published

2020

26. Assessing the safety, impact and effectiveness of RTS,S/AS01E malaria vaccine following its introduction in three sub-Saharan African countries: methodological approaches and study set-up.

Author

Praet, Nicolas, Asante, Kwaku Poku, Bozonnat, Marie-Cecile, Akité, Elaine Jacqueline, Ansah, Patrick Odum, Baril, Laurence, Boahen, Owusu, Mendoza, Yolanda Guerra, Haine, Valerie, Kariuki, Simon, Lamy, Mathieu, Maleta, Kenneth, Mungwira, Randy, Ndeketa, Latif, Oduro, Abraham, Ogutu, Bernhards, Olewe, Fredrick, Oneko, Martina, Orsini, Mattéa, and Roman, Francois

Subjects

MALARIA vaccines, MALARIA prevention, CHILD patients, VACCINE safety, PLASMODIUM falciparum

Abstract

Background: Following a 30-year development process, RTS,S/AS01E (GSK, Belgium) is the first malaria vaccine to reach Phase IV assessments. The World Health Organization-commissioned Malaria Vaccine Implementation Programme (MVIP) is coordinating the delivery of RTS,S/AS01E through routine national immunization programmes in areas of 3 countries in sub-Saharan Africa. The first doses were given in the participating MVIP areas in Malawi on 23 April, Ghana on 30 April, and Kenya on 13 September 2019. The countries participating in the MVIP have little or no baseline incidence data on rare diseases, some of which may be associated with immunization, a deficit that could compromise the interpretation of possible adverse events reported following the introduction of a new vaccine in the paediatric population. Further, effects of vaccination on malaria transmission, existing malaria control strategies, and possible vaccine-mediated selective pressure on Plasmodium falciparum variants, could also impact long-term malaria control. To address this data gap and as part of its post-approval commitments, GSK has developed a post-approval plan comprising of 4 complementary Phase IV studies that will evaluate safety, effectiveness and impact of RTS,S/AS01E through active participant follow-up in the context of its real-life implementation. Methods: EPI-MAL-002 (NCT02374450) is a pre-implementation safety surveillance study that is establishing the background incidence rates of protocol-defined adverse events of special interest. EPI-MAL-003 (NCT03855995) is an identically designed post-implementation safety and vaccine impact study. EPI-MAL-005 (NCT02251704) is a cross-sectional pre- and post-implementation study to measure malaria transmission intensity and monitor the use of other malaria control interventions in the study areas, and EPI-MAL-010 (EUPAS42948) will evaluate the P. falciparum genetic diversity in the periods before and after vaccine implementation. Conclusion: GSK's post-approval plan has been designed to address important knowledge gaps in RTS,S/AS01E vaccine safety, effectiveness and impact. The studies are currently being conducted in the MVIP areas. Their implementation has provided opportunities and posed challenges linked to conducting large studies in regions where healthcare infrastructure is limited. The results from these studies will support ongoing evaluation of RTS,S/AS01E's benefit-risk and inform decision-making for its potential wider implementation across sub-Saharan Africa. [ABSTRACT FROM AUTHOR]

Published

2022

27. Referee report. For: Malaria management in children with fever in rural Sierra Leone. Has anything changed after the Ebola outbreak? [version 1; peer review: 1 approved, 1 approved with reservations]

Author

Oneko, Martina

Published

2020

28. Safety and immunogenicity of the RTS,S/AS01 malaria vaccine in infants and children identified as HIV-infected during a randomized trial in sub-Saharan Africa

Author

Otieno, Lucas, primary, Guerra Mendoza, Yolanda, additional, Adjei, Samuel, additional, Agbenyega, Tsiri, additional, Agnandji, Selidji Todagbe, additional, Aide, Pedro, additional, Akoo, Pauline, additional, Ansong, Daniel, additional, Asante, Kwaku Poku, additional, Berkley, James A, additional, Gesase, Samwel, additional, Hamel, Mary J., additional, Hoffman, Irving, additional, Kaali, Seyram, additional, Kamthunzi, Portia, additional, Kariuki, Simon, additional, Kremsner, Peter, additional, Lanaspa, Miguel, additional, Lell, Bertrand, additional, Lievens, Marc, additional, Lusingu, John, additional, Malabeja, Anangisye, additional, Masoud, Nahya Salim, additional, Mtoro, Ali Takadir, additional, Njuguna, Patricia, additional, Ofori-Anyinam, Opokua, additional, Otieno, Godfrey Allan, additional, Otieno, Walter, additional, Owusu-Agyei, Seth, additional, Schuerman, Lode, additional, Sorgho, Hermann, additional, Tanner, Marcel, additional, Tinto, Halidou, additional, Valea, Innocent, additional, Vandoolaeghe, Pascale, additional, Sacarlal, Jahit, additional, and Oneko, Martina, additional

Published

2020

29. Safety, Tolerability, and Immunogenicity of Plasmodium falciparum Sporozoite Vaccine Administered by Direct Venous Inoculation to Infants and Young Children: Findings From an Age De-escalation, Dose-Escalation, Double-blind, Randomized Controlled Study in Western Kenya

Author

Steinhardt, Laura C, primary, Richie, Thomas L, additional, Yego, Reuben, additional, Akach, Dorcas, additional, Hamel, Mary J, additional, Gutman, Julie R, additional, Wiegand, Ryan E, additional, Nzuu, Elizabeth L, additional, Dungani, Allan, additional, Kc, Natasha, additional, Murshedkar, Tooba, additional, Church, L W Preston, additional, Sim, B Kim Lee, additional, Billingsley, Peter F, additional, James, Eric R, additional, Abebe, Yonas, additional, Kariuki, Simon, additional, Samuels, Aaron M, additional, Otieno, Kephas, additional, Sang, Tony, additional, Kachur, S Patrick, additional, Styers, David, additional, Schlessman, Kelly, additional, Abarbanell, Ginnie, additional, Hoffman, Stephen L, additional, Seder, Robert A, additional, and Oneko, Martina, additional

Published

2019

30. Safety profile of the RTS,S/AS01 malaria vaccine in infants and children: additional data from a phase III randomized controlled trial in sub-Saharan Africa

Author

Guerra Mendoza, Yolanda, primary, Garric, Elodie, additional, Leach, Amanda, additional, Lievens, Marc, additional, Ofori-Anyinam, Opokua, additional, Pirçon, Jean-Yves, additional, Stegmann, Jens-Ulrich, additional, Vandoolaeghe, Pascale, additional, Otieno, Lucas, additional, Otieno, Walter, additional, Owusu-Agyei, Seth, additional, Sacarlal, Jahit, additional, Masoud, Nahya Salim, additional, Sorgho, Hermann, additional, Tanner, Marcel, additional, Tinto, Halidou, additional, Valea, Innocent, additional, Mtoro, Ali Takadir, additional, Njuguna, Patricia, additional, Oneko, Martina, additional, Otieno, Godfrey Allan, additional, Otieno, Kephas, additional, Gesase, Samwel, additional, Hamel, Mary J, additional, Hoffman, Irving, additional, Kaali, Seyram, additional, Kamthunzi, Portia, additional, Kremsner, Peter, additional, Lanaspa, Miguel, additional, Lell, Bertrand, additional, Lusingu, John, additional, Malabeja, Anangisye, additional, Aide, Pedro, additional, Akoo, Pauline, additional, Ansong, Daniel, additional, Asante, Kwaku Poku, additional, Berkley, James A, additional, Adjei, Samuel, additional, Agbenyega, Tsiri, additional, Agnandji, Selidji Todagbe, additional, and Schuerman, Lode, additional

Published

2019

31. Evaluation of a TaqMan Array Card for Detection of Central Nervous System Infections

Author

Onyango, Clayton O., primary, Loparev, Vladimir, additional, Lidechi, Shirley, additional, Bhullar, Vinod, additional, Schmid, D. Scott, additional, Radford, Kay, additional, Lo, Michael K., additional, Rota, Paul, additional, Johnson, Barbara W., additional, Munoz, Jorge, additional, Oneko, Martina, additional, Burton, Deron, additional, Black, Carolyn M., additional, Neatherlin, John, additional, Montgomery, Joel M., additional, and Fields, Barry, additional

Published

2017

32. Malaria, malnutrition, and birthweight:A meta-analysis using individual participant data

Author

Cates, Jordan E., Unger, Holger W., Briand, Valerie, Fievet, Nadine, Valea, Innocent, Tinto, Halidou, D’Alessandro, Umberto, Landis, Sarah H., Adu-Afarwuah, Seth, Dewey, Kathryn G., ter Kuile, Feiko O., Desai, Meghna, Dellicour, Stephanie, Ouma, Peter, Gutman, Julie, Oneko, Martina, Slutsker, Laurence, Terlouw, Dianne J., Kariuki, Simon, Ayisi, John, Madanitsa, Mwayiwawo, Mwapasa, Victor, Ashorn, Per, Maleta, Kenneth, Mueller, Ivo, Stanisic, Danielle, Schmiegelow, Christentze, Lusingu, John P.A., van Eijk, Anna Maria, Bauserman, Melissa, Adair, Linda, Cole, Stephen R., Westreich, Daniel, Meshnick, Steven, Rogerson, Stephen, Cates, Jordan E., Unger, Holger W., Briand, Valerie, Fievet, Nadine, Valea, Innocent, Tinto, Halidou, D’Alessandro, Umberto, Landis, Sarah H., Adu-Afarwuah, Seth, Dewey, Kathryn G., ter Kuile, Feiko O., Desai, Meghna, Dellicour, Stephanie, Ouma, Peter, Gutman, Julie, Oneko, Martina, Slutsker, Laurence, Terlouw, Dianne J., Kariuki, Simon, Ayisi, John, Madanitsa, Mwayiwawo, Mwapasa, Victor, Ashorn, Per, Maleta, Kenneth, Mueller, Ivo, Stanisic, Danielle, Schmiegelow, Christentze, Lusingu, John P.A., van Eijk, Anna Maria, Bauserman, Melissa, Adair, Linda, Cole, Stephen R., Westreich, Daniel, Meshnick, Steven, and Rogerson, Stephen

Abstract

Background: Four studies previously indicated that the effect of malaria infection during pregnancy on the risk of low birthweight (LBW; <2,500 g) may depend upon maternal nutritional status. We investigated this dependence further using a large, diverse study population. Methods and findings: We evaluated the interaction between maternal malaria infection and maternal anthropometric status on the risk of LBW using pooled data from 14,633 pregnancies from 13 studies (6 cohort studies and 7 randomized controlled trials) conducted in Africa and the Western Pacific from 1996–2015. Studies were identified by the Maternal Malaria and Malnutrition (M3) initiative using a convenience sampling approach and were eligible for pooling given adequate ethical approval and availability of essential variables. Study-specific adjusted effect estimates were calculated using inverse probability of treatment-weighted linear and log-binomial regression models and pooled using a random-effects model. The adjusted risk of delivering a baby with LBW was 8.8% among women with malaria infection at antenatal enrollment compared to 7.7% among uninfected women (adjusted risk ratio [aRR] 1.14 [95% confidence interval (CI): 0.91, 1.42]; N = 13,613), 10.5% among women with malaria infection at delivery compared to 7.9% among uninfected women (aRR 1.32 [95% CI: 1.08, 1.62]; N = 11,826), and 15.3% among women with low mid-upper arm circumference (MUAC <23 cm) at enrollment compared to 9.5% among women with MUAC ≥ 23 cm (aRR 1.60 [95% CI: 1.36, 1.87]; N = 9,008). The risk of delivering a baby with LBW was 17.8% among women with both malaria infection and low MUAC at enrollment compared to 8.4% among uninfected women with MUAC ≥ 23 cm (joint aRR 2.13 [95% CI: 1.21, 3.73]; N = 8,152). There was no evidence of synergism (i.e., excess risk due to interaction) between malaria infection and MUAC on the multiplicative (p = 0.5) or additive scale (p = 0.9). Results were similar

Published

2017

33. MOESM1 of Risks of miscarriage and inadvertent exposure to artemisinin derivatives in the first trimester of pregnancy: a prospective cohort study in western Kenya

Author

Dellicour, Stephanie, Meghna Desai, Aol, George, Oneko, Martina, Ouma, Peter, Bigogo, Godfrey, Burton, Deron, Breiman, Robert, Hamel, Mary, Slutsker, Laurence, Feikin, Daniel, Kariuki, Simon, Odhiambo, Frank, Jayesh Pandit, Laserson, Kayla, Calip, Greg, Stergachis, Andy, and Kuile, Feiko

Subjects

Data_FILES

Abstract

Additional file 1. Detailed description of study site and methodology.

Published

2015

34. Immunogenicity of the RTS,S/AS01 malaria vaccine and implications for duration of vaccine efficacy: secondary analysis of data from a phase 3 randomised controlled trial

Author

Hamel, Mary J, Lell, Bertrand, Otieno, Lucas, Sacarlal, Jahit, Owusu-Agyei, Seth, Salim, Nahya, Verity, Robert, Hoffman, Irving, Kremsner, Peter, Greenwood, Brian, Adjei, Samuel, Abdulla, Salim, Kamthunzu, Portia, Agnandji, Selidji T, Drakeley, Chris, Oneko, Martina, White, Michael T, Mtoro, Ali, Gesase, Samwel, Asante, Kwaku Poku, Tinto, Halidou, Valea, Innocent, Otieno, Kephas, Griffin, Jamie T, Aide, Pedro, Agbenyega, Tsiri, Ansong, Daniel, Otieno, Walter, Lusingu, John, Martinson, Francis, Ogutu, Bernhards, and Sorgho, Hermann

Abstract

SummaryBackgroundThe RTS,S/AS01 malaria vaccine targets the circumsporozoite protein, inducing antibodies associated with the prevention of Plasmodium falciparum infection. We assessed the association between anti-circumsporozoite antibody titres and the magnitude and duration of vaccine efficacy using data from a phase 3 trial done between 2009 and 2014.MethodsUsing data from 8922 African children aged 5–17 months and 6537 African infants aged 6–12 weeks at first vaccination, we analysed the determinants of immunogenicity after RTS,S/AS01 vaccination with or without a booster dose. We assessed the association between the incidence of clinical malaria and anti-circumsporozoite antibody titres using a model of anti-circumsporozoite antibody dynamics and the natural acquisition of protective immunity over time.FindingsRTS,S/AS01-induced anti-circumsporozoite antibody titres were greater in children aged 5–17 months than in those aged 6–12 weeks. Pre-vaccination anti-circumsporozoite titres were associated with lower immunogenicity in children aged 6–12 weeks and higher immunogenicity in those aged 5–17 months. The immunogenicity of the booster dose was strongly associated with immunogenicity after primary vaccination. Anti-circumsporozoite titres wane according to a biphasic exponential distribution. In participants aged 5–17 months, the half-life of the short-lived component of the antibody response was 45 days (95% credible interval 42–48) and that of the long-lived component was 591 days (557–632). After primary vaccination 12% (11–13) of the response was estimated to be long-lived, rising to 30% (28–32%) after a booster dose. An anti-circumsporozoite antibody titre of 121 EU/mL (98–153) was estimated to prevent 50% of infections. Waning anti-circumsporozoite antibody titres predict the duration of efficacy against clinical malaria across different age categories and transmission intensities, and efficacy wanes more rapidly at higher transmission intensity.InterpretationAnti-circumsporozoite antibody titres are a surrogate of protection for the magnitude and duration of RTS,S/AS01 efficacy, with or without a booster dose, providing a valuable surrogate of effectiveness for new RTS,S formulations in the age groups considered.FundingUK Medical Research Council.

Published

2015

35. Weekly miscarriage rates in a community-based prospective cohort study in rural western Kenya

Author

Dellicour, Stephanie, primary, Aol, George, additional, Ouma, Peter, additional, Yan, Nicole, additional, Bigogo, Godfrey, additional, Hamel, Mary J, additional, Burton, Deron C, additional, Oneko, Martina, additional, Breiman, Robert F, additional, Slutsker, Laurence, additional, Feikin, Daniel, additional, Kariuki, Simon, additional, Odhiambo, Frank, additional, Calip, Gregory, additional, Stergachis, Andreas, additional, Laserson, Kayla F, additional, ter Kuile, Feiko O, additional, and Desai, Meghna, additional

Published

2016

36. A phase 3 trial of RTS,S/AS01 malaria vaccine in African infants

Author

RTS,S Clinical Trials Partnership, Agnandji, Selidji Todagbe, Lell, Bertrand, Fernandes, José Francisco, Abossolo, Béatrice Peggy, Methogo, Barbara Gaelle Nfono Ondo, Kabwende, Anita Lumeka, Adegnika, Ayola Akim, Mordmüller, Benjamin, Issifou, Saadou, Kremsner, Peter Gottfried, Sacarlal, Jahit, Aide, Pedro, Lanaspa, Miguel, Aponte, John J, Machevo, Sonia, Acacio, Sozinho, Bulo, Helder, Sigauque, Betuel, Macete, Eusébio, Alonso, Pedro, Abdulla, Salim, Salim, Nahya, Minja, Rose, Mpina, Maxmillian, Ahmed, Saumu, Ali, Ali Mohammed, Mtoro, Ali Takadir, Hamad, Ali Said, Mutani, Paul, Tanner, Marcel, Tinto, Halidou, D'Alessandro, Umberto, Sorgho, Hermann, Valea, Innocent, Bihoun, Biébo, Guiraud, Issa, Kaboré, Berenger, Sombié, Olivier, Guiguemdé, Robert Tinga, Ouédraogo, Jean Bosco, Hamel, Mary J, Kariuki, Simon, Oneko, Martina, Odero, Chris, Otieno, Kephas, Awino, Norbert, McMorrow, Meredith, Muturi-Kioi, Vincent, Laserson, Kayla F, Slutsker, Laurence, Otieno, Walter, Otieno, Lucas, Otsyula, Nekoye, Gondi, Stacey, Otieno, Allan, Owira, Victorine, Oguk, Esther, Odongo, George, Woods, Jon Ben, Ogutu, Bernhards, Njuguna, Patricia, Chilengi, Roma, Akoo, Pauline, Kerubo, Christine, Maingi, Charity, Lang, Trudie, Olotu, Ally, Bejon, Philip, Marsh, Kevin, Mwambingu, Gabriel, Owusu-Agyei, Seth, Asante, Kwaku Poku, Osei-Kwakye, Kingsley, Boahen, Owusu, Dosoo, David, Asante, Isaac, Adjei, George, Kwara, Evans, Chandramohan, Daniel, Greenwood, Brian, Lusingu, John, Gesase, Samwel, Malabeja, Anangisye, Abdul, Omari, Mahende, Coline, Liheluka, Edwin, Malle, Lincoln, Lemnge, Martha, Theander, Thor G, Drakeley, Chris, Ansong, Daniel, Agbenyega, Tsiri, Adjei, Samuel, Boateng, Harry Owusu, Rettig, Theresa, Bawa, John, Sylverken, Justice, Sambian, David, Sarfo, Anima, Agyekum, Alex, Martinson, Francis, Hoffman, Irving, Mvalo, Tisungane, Kamthunzi, Portia, Nkomo, Rutendo, Tembo, Tapiwa, Tegha, Gerald, Tsidya, Mercy, Kilembe, Jane, Chawinga, Chimwemwe, Ballou, W Ripley, Cohen, Joe, Guerra, Yolanda, Jongert, Erik, Lapierre, Didier, Leach, Amanda, Lievens, Marc, Ofori-Anyinam, Opokua, Olivier, Aurélie, Vekemans, Johan, Carter, Terrell, Kaslow, David, Leboulleux, Didier, Loucq, Christian, Radford, Afiya, Savarese, Barbara, Schellenberg, David, Sillman, Marla, and Vansadia, Preeti

Subjects

parasitic diseases

Abstract

BACKGROUND: The candidate malaria vaccine RTS,S/AS01 reduced episodes of both clinical and severe malaria in children 5 to 17 months of age by approximately 50% in an ongoing phase 3 trial. We studied infants 6 to 12 weeks of age recruited for the same trial. METHODS: We administered RTS,S/AS01 or a comparator vaccine to 6537 infants who were 6 to 12 weeks of age at the time of the first vaccination in conjunction with Expanded Program on Immunization (EPI) vaccines in a three-dose monthly schedule. Vaccine efficacy against the first or only episode of clinical malaria during the 12 months after vaccination, a coprimary end point, was analyzed with the use of Cox regression. Vaccine efficacy against all malaria episodes, vaccine efficacy against severe malaria, safety, and immunogenicity were also assessed. RESULTS: The incidence of the first or only episode of clinical malaria in the intention-to-treat population during the 14 months after the first dose of vaccine was 0.31 per person-year in the RTS,S/AS01 group and 0.40 per person-year in the control group, for a vaccine efficacy of 30.1% (95% confidence interval [CI], 23.6 to 36.1). Vaccine efficacy in the per-protocol population was 31.3% (97.5% CI, 23.6 to 38.3). Vaccine efficacy against severe malaria was 26.0% (95% CI, -7.4 to 48.6) in the intention-to-treat population and 36.6% (95% CI, 4.6 to 57.7) in the per-protocol population. Serious adverse events occurred with a similar frequency in the two study groups. One month after administration of the third dose of RTS,S/AS01, 99.7% of children were positive for anti-circumsporozoite antibodies, with a geometric mean titer of 209 EU per milliliter (95% CI, 197 to 222). CONCLUSIONS: The RTS,S/AS01 vaccine coadministered with EPI vaccines provided modest protection against both clinical and severe malaria in young infants. (Funded by GlaxoSmithKline Biologicals and the PATH Malaria Vaccine Initiative; RTS,S ClinicalTrials.gov number, NCT00866619.).

Published

2012

37. First results of phase 3 trial of RTS,S/AS01 malaria vaccine in African children

Author

RTS,S Clinical Trials Partnership, Agnandji, Selidji Todagbe, Lell, Bertrand, Soulanoudjingar, Solange Solmeheim, Fernandes, José Francisco, Abossolo, Béatrice Peggy, Conzelmann, Cornelia, Methogo, Barbara Gaelle Nfono Ondo, Doucka, Yannick, Flamen, Arnaud, Mordmüller, Benjamin, Issifou, Saadou, Kremsner, Peter Gottfried, Sacarlal, Jahit, Aide, Pedro, Lanaspa, Miguel, Aponte, John J, Nhamuave, Arlindo, Quelhas, Diana, Bassat, Quique, Mandjate, Sofia, Macete, Eusébio, Alonso, Pedro, Abdulla, Salim, Salim, Nahya, Juma, Omar, Shomari, Mwanajaa, Shubis, Kafuruki, Machera, Francisca, Hamad, Ali Said, Minja, Rose, Mtoro, Ali, Sykes, Alma, Ahmed, Saumu, Urassa, Alwisa Martin, Ali, Ali Mohammed, Mwangoka, Grace, Tanner, Marcel, Tinto, Halidou, D'Alessandro, Umberto, Sorgho, Hermann, Valea, Innocent, Tahita, Marc Christian, Kaboré, William, Ouédraogo, Sayouba, Sandrine, Yara, Guiguemdé, Robert Tinga, Ouédraogo, Jean Bosco, Hamel, Mary J, Kariuki, Simon, Odero, Chris, Oneko, Martina, Otieno, Kephas, Awino, Norbert, Omoto, Jackton, Williamson, John, Muturi-Kioi, Vincent, Laserson, Kayla F, Slutsker, Laurence, Otieno, Walter, Otieno, Lucas, Nekoye, Otsyula, Gondi, Stacey, Otieno, Allan, Ogutu, Bernhards, Wasuna, Ruth, Owira, Victorine, Jones, David, Onyango, Agnes Akoth, Njuguna, Patricia, Chilengi, Roma, Akoo, Pauline, Kerubo, Christine, Gitaka, Jesse, Maingi, Charity, Lang, Trudie, Olotu, Ally, Tsofa, Benjamin, Bejon, Philip, Peshu, Norbert, Marsh, Kevin, Owusu-Agyei, Seth, Asante, Kwaku Poku, Osei-Kwakye, Kingsley, Boahen, Owusu, Ayamba, Samuel, Kayan, Kingsley, Owusu-Ofori, Ruth, Dosoo, David, Asante, Isaac, Adjei, George, Chandramohan, Daniel, Greenwood, Brian, Lusingu, John, Gesase, Samwel, Malabeja, Anangisye, Abdul, Omari, Kilavo, Hassan, Mahende, Coline, Liheluka, Edwin, Lemnge, Martha, Theander, Thor, Drakeley, Chris, Ansong, Daniel, Agbenyega, Tsiri, Adjei, Samuel, Boateng, Harry Owusu, Rettig, Theresa, Bawa, John, Sylverken, Justice, Sambian, David, Agyekum, Alex, Owusu, Larko, Martinson, Francis, Hoffman, Irving, Mvalo, Tisungane, Kamthunzi, Portia, Nkomo, Ruthendo, Msika, Albans, Jumbe, Allan, Chome, Nelecy, Nyakuipa, Dalitso, Chintedza, Joseph, Ballou, W Ripley, Bruls, Myriam, Cohen, Joe, Guerra, Yolanda, Jongert, Erik, Lapierre, Didier, Leach, Amanda, Lievens, Marc, Ofori-Anyinam, Opokua, Vekemans, Johan, Carter, Terrell, Leboulleux, Didier, Loucq, Christian, Radford, Afiya, Savarese, Barbara, Schellenberg, David, Sillman, Marla, and Vansadia, Preeti

Subjects

parasitic diseases

Abstract

BACKGROUND: An ongoing phase 3 study of the efficacy, safety, and immunogenicity of candidate malaria vaccine RTS,S/AS01 is being conducted in seven African countries. METHODS: From March 2009 through January 2011, we enrolled 15,460 children in two age categories--6 to 12 weeks of age and 5 to 17 months of age--for vaccination with either RTS,S/AS01 or a non-malaria comparator vaccine. The primary end point of the analysis was vaccine efficacy against clinical malaria during the 12 months after vaccination in the first 6000 children 5 to 17 months of age at enrollment who received all three doses of vaccine according to protocol. After 250 children had an episode of severe malaria, we evaluated vaccine efficacy against severe malaria in both age categories. RESULTS: In the 14 months after the first dose of vaccine, the incidence of first episodes of clinical malaria in the first 6000 children in the older age category was 0.32 episodes per person-year in the RTS,S/AS01 group and 0.55 episodes per person-year in the control group, for an efficacy of 50.4% (95% confidence interval [CI], 45.8 to 54.6) in the intention-to-treat population and 55.8% (97.5% CI, 50.6 to 60.4) in the per-protocol population. Vaccine efficacy against severe malaria was 45.1% (95% CI, 23.8 to 60.5) in the intention-to-treat population and 47.3% (95% CI, 22.4 to 64.2) in the per-protocol population. Vaccine efficacy against severe malaria in the combined age categories was 34.8% (95% CI, 16.2 to 49.2) in the per-protocol population during an average follow-up of 11 months. Serious adverse events occurred with a similar frequency in the two study groups. Among children in the older age category, the rate of generalized convulsive seizures after RTS,S/AS01 vaccination was 1.04 per 1000 doses (95% CI, 0.62 to 1.64). CONCLUSIONS: The RTS,S/AS01 vaccine provided protection against both clinical and severe malaria in African children. (Funded by GlaxoSmithKline Biologicals and the PATH Malaria Vaccine Initiative; RTS,S ClinicalTrials.gov number, NCT00866619 .).

Published

2011

38. Risks of miscarriage and inadvertent exposure to artemisinin derivatives in the first trimester of pregnancy: a prospective cohort study in western Kenya

Author

Dellicour, Stephanie, primary, Desai, Meghna, additional, Aol, George, additional, Oneko, Martina, additional, Ouma, Peter, additional, Bigogo, Godfrey, additional, Burton, Deron C., additional, Breiman, Robert F., additional, Hamel, Mary J., additional, Slutsker, Laurence, additional, Feikin, Daniel, additional, Kariuki, Simon, additional, Odhiambo, Frank, additional, Pandit, Jayesh, additional, Laserson, Kayla F., additional, Calip, Greg, additional, Stergachis, Andy, additional, and ter Kuile, Feiko O., additional

Published

2015

39. Emergence of Community-Acquired, Multidrug-Resistant Invasive NontyphoidalSalmonellaDisease in Rural Western Kenya, 2009–2013

Author

Oneko, Martina, primary, Kariuki, Simon, additional, Muturi-Kioi, Vincent, additional, Otieno, Kephas, additional, Otieno, Vincent O., additional, Williamson, John M., additional, Folster, Jason, additional, Parsons, Michele B., additional, Slutsker, Laurence, additional, Mahon, Barbara E., additional, and Hamel, Mary J., additional

Published

2015

40. A phase 3 trial of RTS,S/AS01 malaria vaccine in African infants

Author

Agnandji, Selidji Todagbe, Lell, Bertrand, Fernandes, José Francisco, Abossolo, Béatrice Peggy, Methogo, Barbara Gaelle Nfono Ondo, Kabwende, Anita Lumeka, Adegnika, Ayola Akim, Mordmüller, Benjamin, Issifou, Saadou, Kremsner, Peter Gottfried, Sacarlal, Jahit, Aide, Pedro, Lanaspa, Miguel, Aponte, John J, Machevo, Sonia, Acacio, Sozinho, Bulo, Helder, Sigauque, Betuel, Macete, Eusébio, Alonso, Pedro, Abdulla, Salim, Salim, Nahya, Minja, Rose, Mpina, Maxmillian, Ahmed, Saumu, Ali, Ali Mohammed, Mtoro, Ali Takadir, Hamad, Ali Said, Mutani, Paul, Tanner, Marcel, Tinto, Halidou, D'Alessandro, Umberto, Sorgho, Hermann, Valea, Innocent, Bihoun, Biébo, Guiraud, Issa, Kaboré, Berenger, Sombié, Olivier, Guiguemdé, Robert Tinga, Ouédraogo, Jean Bosco, Hamel, Mary J, Kariuki, Simon, Oneko, Martina, Odero, Chris, Otieno, Kephas, Awino, Norbert, McMorrow, Meredith, Muturi-Kioi, Vincent, Lusingu, John, Theander, Thor G, Agnandji, Selidji Todagbe, Lell, Bertrand, Fernandes, José Francisco, Abossolo, Béatrice Peggy, Methogo, Barbara Gaelle Nfono Ondo, Kabwende, Anita Lumeka, Adegnika, Ayola Akim, Mordmüller, Benjamin, Issifou, Saadou, Kremsner, Peter Gottfried, Sacarlal, Jahit, Aide, Pedro, Lanaspa, Miguel, Aponte, John J, Machevo, Sonia, Acacio, Sozinho, Bulo, Helder, Sigauque, Betuel, Macete, Eusébio, Alonso, Pedro, Abdulla, Salim, Salim, Nahya, Minja, Rose, Mpina, Maxmillian, Ahmed, Saumu, Ali, Ali Mohammed, Mtoro, Ali Takadir, Hamad, Ali Said, Mutani, Paul, Tanner, Marcel, Tinto, Halidou, D'Alessandro, Umberto, Sorgho, Hermann, Valea, Innocent, Bihoun, Biébo, Guiraud, Issa, Kaboré, Berenger, Sombié, Olivier, Guiguemdé, Robert Tinga, Ouédraogo, Jean Bosco, Hamel, Mary J, Kariuki, Simon, Oneko, Martina, Odero, Chris, Otieno, Kephas, Awino, Norbert, McMorrow, Meredith, Muturi-Kioi, Vincent, Lusingu, John, and Theander, Thor G

Abstract

The candidate malaria vaccine RTS,S/AS01 reduced episodes of both clinical and severe malaria in children 5 to 17 months of age by approximately 50% in an ongoing phase 3 trial. We studied infants 6 to 12 weeks of age recruited for the same trial.

Published

2012

41. Artesunate versus quinine in the treatment of severe falciparum malaria in African children (AQUAMAT): an open-label randomised trial

Author

Dondorp, Arjen M., Fanello, Caterina, Hendriksen, Ilse, Gomes, Ermelinda, Seni, Amir, Chhaganlal, Kajal D., Bojang, Kalifa, Olaosebikan, Rasaq, Anunobi, Nkechinyere, Maitland, Kathryn, Kivaya, Esther, Agbenyega, Tsiri, Nguah, Samuel Blay, Evans, Jennifer, Gesase, Samwel, Kahabuka, Catherine, Mtove, George, Nadjm, Behzad, Deen, Jacqueline L., Mwanga-Amumpaire, Juliet, Nansumba, Margaret, Karema, Corine, Umulisa, Noella, Uwimana, Aline, Mokuolu, Olugbenga A, Adedoyin, Olanrewaju T, Johnson, Wahab B. R., Tshefu, Antoinette K., Onyamboko, Marie A., Sakulthaew, Tharisara, Ngum, Wirichada Pan, Silamut, Kamolrat, Stepniewska, Kasia, Woodrow, Charles, Day, Nicholas P. J., White, Nicholas J., Wills, Bridget, Oneko, Martina, Bethell, Delia, Petro, Tim E., von Seidlein, Lorenz, Dondorp, Arjen M., Fanello, Caterina, Hendriksen, Ilse, Gomes, Ermelinda, Seni, Amir, Chhaganlal, Kajal D., Bojang, Kalifa, Olaosebikan, Rasaq, Anunobi, Nkechinyere, Maitland, Kathryn, Kivaya, Esther, Agbenyega, Tsiri, Nguah, Samuel Blay, Evans, Jennifer, Gesase, Samwel, Kahabuka, Catherine, Mtove, George, Nadjm, Behzad, Deen, Jacqueline L., Mwanga-Amumpaire, Juliet, Nansumba, Margaret, Karema, Corine, Umulisa, Noella, Uwimana, Aline, Mokuolu, Olugbenga A, Adedoyin, Olanrewaju T, Johnson, Wahab B. R., Tshefu, Antoinette K., Onyamboko, Marie A., Sakulthaew, Tharisara, Ngum, Wirichada Pan, Silamut, Kamolrat, Stepniewska, Kasia, Woodrow, Charles, Day, Nicholas P. J., White, Nicholas J., Wills, Bridget, Oneko, Martina, Bethell, Delia, Petro, Tim E., and von Seidlein, Lorenz

Published

2010

42. Safety profile of the RTS,S/AS01 malaria vaccine in infants and children: additional data from a phase III randomized controlled trial in sub-Saharan Africa

Author

Guerra Mendoza, Yolanda, Garric, Elodie, Leach, Amanda, Lievens, Marc, Ofori-Anyinam, Opokua, Pirçon, Jean-Yves, Stegmann, Jens-Ulrich, Vandoolaeghe, Pascale, Otieno, Lucas, Otieno, Walter, Owusu-Agyei, Seth, Sacarlal, Jahit, Masoud, Nahya Salim, Sorgho, Hermann, Tanner, Marcel, Tinto, Halidou, Valea, Innocent, Mtoro, Ali Takadir, Njuguna, Patricia, Oneko, Martina, Otieno, Godfrey Allan, Otieno, Kephas, Gesase, Samwel, Hamel, Mary J., Hoffman, Irving, Kaali, Seyram, Kamthunzi, Portia, Kremsner, Peter, Lanaspa, Miguel, Lell, Bertrand, Lusingu, John, Malabeja, Anangisye, Aide, Pedro, Akoo, Pauline, Ansong, Daniel, Asante, Kwaku Poku, Berkley, James A., Adjei, Samuel, Agbenyega, Tsiri, Agnandji, Selidji Todagbe, and Schuerman, Lode

Subjects

3. Good health

43. Malaria, malnutrition, and birthweight: A meta-analysis using individual participant data

Author

Mwapasa, Victor, Briand, Valerie, Madanitsa, Mwayiwawo, Schmiegelow, Christentze, Adair, Linda, Dellicour, Stephanie, Slutsker, Laurence, Rogerson, Stephen, Terlouw, Dianne J., Valea, Innocent, Oneko, Martina, Desai, Meghna, Gutman, Julie, Unger, Holger W., Ashorn, Per, Bauserman, Melissa, Landis, Sarah H., Maleta, Kenneth, Cates, Jordan E., Cole, Stephen R., Kariuki, Simon, Stanisic, Danielle, van Eijk, Anna Maria, Tinto, Halidou, Fievet, Nadine, Dewey, Kathryn G., Ayisi, John, Ouma, Peter, Adu-Afarwuah, Seth, Lusingu, John P. A., Westreich, Daniel, Meshnick, Steven, D’Alessandro, Umberto, ter Kuile, Feiko O., and Mueller, Ivo

Subjects

2. Zero hunger, parasitic diseases, human activities, reproductive and urinary physiology, 3. Good health

Abstract

Four studies previously indicated that the effect of malaria infection during pregnancy on the risk of low birthweight (LBW

44. Sporozoite immunization: innovative translational science to support the fight against malaria.

Author

Richie TL, Church LWP, Murshedkar T, Billingsley PF, James ER, Chen MC, Abebe Y, Natasha Kc, Chakravarty S, Dolberg D, Healy SA, Diawara H, Sissoko MS, Sagara I, Cook DM, Epstein JE, Mordmüller B, Kapulu M, Kreidenweiss A, Franke-Fayard B, Agnandji ST, López Mikue MA, McCall MBB, Steinhardt L, Oneko M, Olotu A, Vaughan AM, Kublin JG, Murphy SC, Jongo S, Tanner M, Sirima SB, Laurens MB, Daubenberger C, Silva JC, Lyke KE, Janse CJ, Roestenberg M, Sauerwein RW, Abdulla S, Dicko A, Kappe SHI, Sim BKL, Duffy PE, Kremsner PG, and Hoffman SL

Subjects

Pregnancy, Child, Animals, Humans, Female, Sporozoites, Translational Science, Biomedical, Vaccines, Attenuated, Plasmodium falciparum, Immunization, Malaria Vaccines, Malaria prevention & control, Malaria, Falciparum prevention & control

Abstract

Introduction: Malaria, a devastating febrile illness caused by protozoan parasites, sickened 247,000,000 people in 2021 and killed 619,000, mostly children and pregnant women in sub-Saharan Africa. A highly effective vaccine is urgently needed, especially for Plasmodium falciparum (Pf), the deadliest human malaria parasite., Areas Covered: Sporozoites (SPZ), the parasite stage transmitted by Anopheles mosquitoes to humans, are the only vaccine immunogen achieving >90% efficacy against Pf infection. This review describes >30 clinical trials of PfSPZ vaccines in the U.S.A., Europe, Africa, and Asia, based on first-hand knowledge of the trials and PubMed searches of 'sporozoites,' 'malaria,' and 'vaccines.', Expert Opinion: First generation (radiation-attenuated) PfSPZ vaccines are safe, well tolerated, 80-100% efficacious against homologous controlled human malaria infection (CHMI) and provide 18-19 months protection without boosting in Africa. Second generation chemo-attenuated PfSPZ are more potent, 100% efficacious against stringent heterologous (variant strain) CHMI, but require a co-administered drug, raising safety concerns. Third generation, late liver stage-arresting, replication competent (LARC), genetically-attenuated PfSPZ are expected to be both safe and highly efficacious. Overall, PfSPZ vaccines meet safety, tolerability, and efficacy requirements for protecting pregnant women and travelers exposed to Pf in Africa, with licensure for these populations possible within 5 years. Protecting children and mass vaccination programs to block transmission and eliminate malaria are long-term objectives.

Published

2023

45. Safety, Tolerability, and Immunogenicity of Plasmodium falciparum Sporozoite Vaccine Administered by Direct Venous Inoculation to Infants and Young Children: Findings From an Age De-escalation, Dose-Escalation, Double-blind, Randomized Controlled Study in Western Kenya.

Author

Steinhardt LC, Richie TL, Yego R, Akach D, Hamel MJ, Gutman JR, Wiegand RE, Nzuu EL, Dungani A, Kc N, Murshedkar T, Church LWP, Sim BKL, Billingsley PF, James ER, Abebe Y, Kariuki S, Samuels AM, Otieno K, Sang T, Kachur SP, Styers D, Schlessman K, Abarbanell G, Hoffman SL, Seder RA, and Oneko M

Subjects

Adult, Animals, Child, Child, Preschool, Double-Blind Method, Humans, Immunogenicity, Vaccine, Infant, Kenya, Plasmodium falciparum, Sporozoites, Vaccination, Malaria Vaccines adverse effects, Malaria, Falciparum prevention & control

Abstract

Background: The whole Plasmodium falciparum sporozoite (PfSPZ) vaccine is being evaluated for malaria prevention. The vaccine is administered intravenously for maximal efficacy. Direct venous inoculation (DVI) with PfSPZ vaccine has been safe, tolerable, and feasible in adults, but safety data for children and infants are limited., Methods: We conducted an age de-escalation, dose-escalation randomized controlled trial in Siaya County, western Kenya. Children and infants (aged 5-9 years, 13-59 months, and 5-12 months) were enrolled into 13 age-dose cohorts of 12 participants and randomized 2:1 to vaccine or normal saline placebo in escalating doses: 1.35 × 105, 2.7 × 105, 4.5 × 105, 9.0 × 105, and 1.8 × 106 PfSPZ, with the 2 highest doses given twice, 8 weeks apart. Solicited adverse events (AEs) were monitored for 8 days after vaccination, unsolicited AEs for 29 days, and serious AEs throughout the study. Blood taken prevaccination and 1 week postvaccination was tested for immunoglobulin G antibodies to P. falciparum circumsporozoite protein (PfCSP) using enzyme-linked immunosorbent assay., Results: Rates of AEs were similar in vaccinees and controls for solicited (35.7% vs 41.5%) and unsolicited (83.9% vs 92.5%) AEs, respectively. No related grade 3 AEs, serious AEs, or grade 3 laboratory abnormalities occurred. Most (79.0%) vaccinations were administered by a single DVI. Among those in the 9.0 × 105 and 1.8 × 106 PfSPZ groups, 36 of 45 (80.0%) vaccinees and 4 of 21 (19.0%) placebo controls developed antibodies to PfCSP (P < .001)., Conclusions: PfSPZ vaccine in doses as high as 1.8 × 106 can be administered to infants and children by DVI, and was safe, well tolerated, and immunogenic., Clinical Trials Registration: NCT02687373., (Published by Oxford University Press for the Infectious Diseases Society of America 2019. This work is written by (a) US Government employee(s) and is in the public domain in the US.)

Published

2020

46. A phase 3 trial of RTS,S/AS01 malaria vaccine in African infants.

Author

Agnandji ST, Lell B, Fernandes JF, Abossolo BP, Methogo BG, Kabwende AL, Adegnika AA, Mordmüller B, Issifou S, Kremsner PG, Sacarlal J, Aide P, Lanaspa M, Aponte JJ, Machevo S, Acacio S, Bulo H, Sigauque B, Macete E, Alonso P, Abdulla S, Salim N, Minja R, Mpina M, Ahmed S, Ali AM, Mtoro AT, Hamad AS, Mutani P, Tanner M, Tinto H, D'Alessandro U, Sorgho H, Valea I, Bihoun B, Guiraud I, Kaboré B, Sombié O, Guiguemdé RT, Ouédraogo JB, Hamel MJ, Kariuki S, Oneko M, Odero C, Otieno K, Awino N, McMorrow M, Muturi-Kioi V, Laserson KF, Slutsker L, Otieno W, Otieno L, Otsyula N, Gondi S, Otieno A, Owira V, Oguk E, Odongo G, Woods JB, Ogutu B, Njuguna P, Chilengi R, Akoo P, Kerubo C, Maingi C, Lang T, Olotu A, Bejon P, Marsh K, Mwambingu G, Owusu-Agyei S, Asante KP, Osei-Kwakye K, Boahen O, Dosoo D, Asante I, Adjei G, Kwara E, Chandramohan D, Greenwood B, Lusingu J, Gesase S, Malabeja A, Abdul O, Mahende C, Liheluka E, Malle L, Lemnge M, Theander TG, Drakeley C, Ansong D, Agbenyega T, Adjei S, Boateng HO, Rettig T, Bawa J, Sylverken J, Sambian D, Sarfo A, Agyekum A, Martinson F, Hoffman I, Mvalo T, Kamthunzi P, Nkomo R, Tembo T, Tegha G, Tsidya M, Kilembe J, Chawinga C, Ballou WR, Cohen J, Guerra Y, Jongert E, Lapierre D, Leach A, Lievens M, Ofori-Anyinam O, Olivier A, Vekemans J, Carter T, Kaslow D, Leboulleux D, Loucq C, Radford A, Savarese B, Schellenberg D, Sillman M, and Vansadia P

Subjects

Africa, Female, Humans, Immunization Schedule, Incidence, Infant, Intention to Treat Analysis, Malaria, Falciparum epidemiology, Male, Plasmodium falciparum immunology, Proportional Hazards Models, Treatment Outcome, Malaria Vaccines adverse effects, Malaria Vaccines immunology, Malaria, Falciparum prevention & control, Vaccines, Synthetic adverse effects, Vaccines, Synthetic immunology

Abstract

Background: The candidate malaria vaccine RTS,S/AS01 reduced episodes of both clinical and severe malaria in children 5 to 17 months of age by approximately 50% in an ongoing phase 3 trial. We studied infants 6 to 12 weeks of age recruited for the same trial., Methods: We administered RTS,S/AS01 or a comparator vaccine to 6537 infants who were 6 to 12 weeks of age at the time of the first vaccination in conjunction with Expanded Program on Immunization (EPI) vaccines in a three-dose monthly schedule. Vaccine efficacy against the first or only episode of clinical malaria during the 12 months after vaccination, a coprimary end point, was analyzed with the use of Cox regression. Vaccine efficacy against all malaria episodes, vaccine efficacy against severe malaria, safety, and immunogenicity were also assessed., Results: The incidence of the first or only episode of clinical malaria in the intention-to-treat population during the 14 months after the first dose of vaccine was 0.31 per person-year in the RTS,S/AS01 group and 0.40 per person-year in the control group, for a vaccine efficacy of 30.1% (95% confidence interval [CI], 23.6 to 36.1). Vaccine efficacy in the per-protocol population was 31.3% (97.5% CI, 23.6 to 38.3). Vaccine efficacy against severe malaria was 26.0% (95% CI, -7.4 to 48.6) in the intention-to-treat population and 36.6% (95% CI, 4.6 to 57.7) in the per-protocol population. Serious adverse events occurred with a similar frequency in the two study groups. One month after administration of the third dose of RTS,S/AS01, 99.7% of children were positive for anti-circumsporozoite antibodies, with a geometric mean titer of 209 EU per milliliter (95% CI, 197 to 222)., Conclusions: The RTS,S/AS01 vaccine coadministered with EPI vaccines provided modest protection against both clinical and severe malaria in young infants. (Funded by GlaxoSmithKline Biologicals and the PATH Malaria Vaccine Initiative; RTS,S ClinicalTrials.gov number, NCT00866619.).

Published

2012

47. First results of phase 3 trial of RTS,S/AS01 malaria vaccine in African children.

Author

Agnandji ST, Lell B, Soulanoudjingar SS, Fernandes JF, Abossolo BP, Conzelmann C, Methogo BG, Doucka Y, Flamen A, Mordmüller B, Issifou S, Kremsner PG, Sacarlal J, Aide P, Lanaspa M, Aponte JJ, Nhamuave A, Quelhas D, Bassat Q, Mandjate S, Macete E, Alonso P, Abdulla S, Salim N, Juma O, Shomari M, Shubis K, Machera F, Hamad AS, Minja R, Mtoro A, Sykes A, Ahmed S, Urassa AM, Ali AM, Mwangoka G, Tanner M, Tinto H, D'Alessandro U, Sorgho H, Valea I, Tahita MC, Kaboré W, Ouédraogo S, Sandrine Y, Guiguemdé RT, Ouédraogo JB, Hamel MJ, Kariuki S, Odero C, Oneko M, Otieno K, Awino N, Omoto J, Williamson J, Muturi-Kioi V, Laserson KF, Slutsker L, Otieno W, Otieno L, Nekoye O, Gondi S, Otieno A, Ogutu B, Wasuna R, Owira V, Jones D, Onyango AA, Njuguna P, Chilengi R, Akoo P, Kerubo C, Gitaka J, Maingi C, Lang T, Olotu A, Tsofa B, Bejon P, Peshu N, Marsh K, Owusu-Agyei S, Asante KP, Osei-Kwakye K, Boahen O, Ayamba S, Kayan K, Owusu-Ofori R, Dosoo D, Asante I, Adjei G, Adjei G, Chandramohan D, Greenwood B, Lusingu J, Gesase S, Malabeja A, Abdul O, Kilavo H, Mahende C, Liheluka E, Lemnge M, Theander T, Drakeley C, Ansong D, Agbenyega T, Adjei S, Boateng HO, Rettig T, Bawa J, Sylverken J, Sambian D, Agyekum A, Owusu L, Martinson F, Hoffman I, Mvalo T, Kamthunzi P, Nkomo R, Msika A, Jumbe A, Chome N, Nyakuipa D, Chintedza J, Ballou WR, Bruls M, Cohen J, Guerra Y, Jongert E, Lapierre D, Leach A, Lievens M, Ofori-Anyinam O, Vekemans J, Carter T, Leboulleux D, Loucq C, Radford A, Savarese B, Schellenberg D, Sillman M, and Vansadia P

Subjects

Africa, Age Factors, Double-Blind Method, Female, Follow-Up Studies, Humans, Incidence, Infant, Intention to Treat Analysis, Malaria, Falciparum epidemiology, Malaria, Falciparum parasitology, Male, Meningitis epidemiology, Meningitis etiology, Parasite Load, Seizures epidemiology, Seizures etiology, Treatment Outcome, Malaria Vaccines adverse effects, Malaria Vaccines immunology, Malaria, Falciparum prevention & control, Plasmodium falciparum immunology, Plasmodium falciparum isolation & purification

Abstract

Background: An ongoing phase 3 study of the efficacy, safety, and immunogenicity of candidate malaria vaccine RTS,S/AS01 is being conducted in seven African countries., Methods: From March 2009 through January 2011, we enrolled 15,460 children in two age categories--6 to 12 weeks of age and 5 to 17 months of age--for vaccination with either RTS,S/AS01 or a non-malaria comparator vaccine. The primary end point of the analysis was vaccine efficacy against clinical malaria during the 12 months after vaccination in the first 6000 children 5 to 17 months of age at enrollment who received all three doses of vaccine according to protocol. After 250 children had an episode of severe malaria, we evaluated vaccine efficacy against severe malaria in both age categories., Results: In the 14 months after the first dose of vaccine, the incidence of first episodes of clinical malaria in the first 6000 children in the older age category was 0.32 episodes per person-year in the RTS,S/AS01 group and 0.55 episodes per person-year in the control group, for an efficacy of 50.4% (95% confidence interval [CI], 45.8 to 54.6) in the intention-to-treat population and 55.8% (97.5% CI, 50.6 to 60.4) in the per-protocol population. Vaccine efficacy against severe malaria was 45.1% (95% CI, 23.8 to 60.5) in the intention-to-treat population and 47.3% (95% CI, 22.4 to 64.2) in the per-protocol population. Vaccine efficacy against severe malaria in the combined age categories was 34.8% (95% CI, 16.2 to 49.2) in the per-protocol population during an average follow-up of 11 months. Serious adverse events occurred with a similar frequency in the two study groups. Among children in the older age category, the rate of generalized convulsive seizures after RTS,S/AS01 vaccination was 1.04 per 1000 doses (95% CI, 0.62 to 1.64)., Conclusions: The RTS,S/AS01 vaccine provided protection against both clinical and severe malaria in African children. (Funded by GlaxoSmithKline Biologicals and the PATH Malaria Vaccine Initiative; RTS,S ClinicalTrials.gov number, NCT00866619 .).

Published

2011