Your search keyword '"Sylverken, Justice"' showing total 40 results

1. Feasibility, safety, and impact of the RTS,S/AS01E malaria vaccine when implemented through national immunisation programmes: evaluation of cluster-randomised introduction of the vaccine in Ghana, Kenya, and Malawi

Author

Abubakari, Sulemana Watara, Akumani, Albert, Adu-Gyasi, Dennis, Sarfo, Augustine, Odei-Lartey, Elezier, Agbokey, Francis, Amenga-Etego, Seeba, Gyaase, Stephany, Buabeng, Patrick, Awini, Elizabeth, Sylverken, Justice, Kampim, Aaron, Koram, Kwadwo A, Hodgson, Abraham, Binka, Fred Newton, Okine, Rafiq Nii Attoh, Tweneboah, Peter Ofori, Ondiegi, Bella, Seda, Brian, Akach, Dorcas, Orwa, Gordon, Nyang’au, Isabella, Odunga, Oscar, Gumba, Francis, Copeland, Nathanial, Khazenzi, Cynthia, Mumo, Eda, Musa, Monica, Ogero, Morris, English, Mike, Haji, Adam, Njoroge, Josephine, Msuku, Harrison, Samuel, Vincent, Mariko, Hillary Topazian, Juliano, Jon, Msumba, Lusungu, Mungwira, Randy George, Zimba, Boston Edward, Desai, Meghna, Furrer, Eliane, Aponte, John, Alonso, Pedro, Kalu, Akpaka A, Sillah, Jackson Sophianu, Asante, Kwaku Poku, Mathanga, Don P, Milligan, Paul, Akech, Samuel, Oduro, Abraham, Mwapasa, Victor, Moore, Kerryn A, Kwambai, Titus K, Hamel, Mary J, Gyan, Thomas, Westercamp, Nelli, Kapito-Tembo, Atupele, Njuguna, Patricia, Ansong, Daniel, Kariuki, Simon, Mvalo, Tisungane, Snell, Paul, Schellenberg, David, Welega, Paul, Otieno, Lucas, Chimala, Alfred, Afari, Edwin A, Bejon, Philip, Maleta, Kenneth, Agbenyega, Tsiri, Snow, Robert W, Zulu, Madaliso, Chinkhumba, Jobiba, and Samuels, Aaron M

Published

2024

2. Social constructs, late recognition and decision making for managing fast breathing in children

Author

Agyei-Baffour, Peter, Ansong, Daniel, Osei, Francis Adjei, Appiah, Seth Christopher Yaw, Kwarteng, Sandra Owusu, Nyanor, Isaac, Bonney, Joseph, Enimil, Anthony, Odai Laryea, Dennis, Dapaah, Jonathan Mensah, Mensah, Nicholas, Osei-Peprah, Ida, Owusu, Alfred, Addo-Yobo, Emmanuel, Osei-Akoto, Alex, Owusu, Osei Asibey, Ampiah, Victoria, Saahene, Joana Osei, Amuzu, Evans Xorse, and Sylverken, Justice

Published

2020

3. Human candidate gene polymorphisms and risk of severe malaria in children in Kilifi, Kenya: a case-control association study

Author

Abathina, Amadou, Abubakar, Ismaela, Achidi, Eric, Agbenyega, Tsiri, Aiyegbo, Mohammed, Akoto, Alex, Allen, Angela, Allen, Stephen, Amenga-Etego, Lucas, Amodu, Folakemi, Amodu, Olukemi, Anchang-Kimbi, Judith, Ansah, Nana, Ansah, Patrick, Ansong, Daniel, Antwi, Sampson, Anyorigiya, Thomas, Apinjoh, Tobias, Asafo-Agyei, Emmanuel, Asoala, Victor, Atuguba, Frank, Auburn, Sarah, Bah, Abdou, Bamba, Kariatou, Bancone, Germana, Band, Gavin, Barnwell, David, Barry, Abdoulaye, Bauni, Evasius, Besingi, Richard, Bojang, Kalifa, Bougouma, Edith, Bull, Susan, Busby, George, Camara, Abdoulie, Camara, Landing, Campino, Susana, Carter, Richard, Carucci, Dan, Casals-Pascual, Climent, Ceesay, Ndey, Ceesay, Pa, Chau, Tran, Chuong, Ly, Clark, Taane, Clarke, Geraldine, Cole-Ceesay, Ramou, Conway, David, Cook, Katharine, Cook, Olivia, Cornelius, Victoria, Corran, Patrick, Correa, Simon, Cox, Sharon, Craik, Rachel, Danso, Bakary, Davis, Timothy, Day, Nicholas, Deloukas, Panos, Dembele, Awa, deVries, Jantina, Dewasurendra, Rajika, Diakite, Mahamadou, Diarra, Elizabeth, Dibba, Yaya, Diss, Andrea, Djimdé, Abdoulaye, Dolo, Amagana, Doumbo, Ogobara, Doyle, Alan, Drakeley, Chris, Drury, Eleanor, Duffy, Patrick, Dunstan, Sarah, Ebonyi, Augustine, Elhassan, Ahmed, Elhassan, Ibrahim, Elzein, Abier, Enimil, Anthony, Esangbedo, Pamela, Evans, Jennifer, Evans, Julie, Farrar, Jeremy, Fernando, Deepika, Fitzpatrick, Kathryn, Fullah, Janet, Garcia, Jacob, Ghansah, Anita, Gottleib, Michael, Green, Angie, Hart, Lee, Hennsman, Meike, Hien, Tran, Hieu, Nguyen, Hilton, Eliza, Hodgson, Abraham, Horstmann, Rolf, Hubbart, Christina, Hughes, Catherine, Hussein, Ayman, Hutton, Robert, Ibrahim, Muntaser, Ishengoma, Deus, Jaiteh, Jula, Jallow, Mariatou, Jallow, Muminatou, Jammeh, Kebba, Jasseh, Momodou, Jeffreys, Anna, Jobarteh, Amie, Johnson, Kimberly, Joseph, Sarah, Jyothi, Dushyanth, Kachala, David, Kamuya, Dorcas, Kanyi, Haddy, Karunajeewa, Harin, Karunaweera, Nadira, Keita, Momodou, Kerasidou, Angeliki, Khan, Aja, Kivinen, Katja, Kokwaro, Gilbert, Konate, Amadou, Konate, Salimata, Koram, Kwadwo, Kwiatkowski, Dominic, Laman, Moses, Le, Si, Leffler, Ellen, Lemnge, Martha, Lin, Enmoore, Ly, Alioune, Macharia, Alexander, MacInnis, Bronwyn, Mai, Nguyen, Makani, Julie, Malangone, Cinzia, Mangano, Valentina, Manjurano, Alphaxard, Manneh, Lamin, Manning, Laurens, Manske, Magnus, Marsh, Kevin, Marsh, Vicki, Maslen, Gareth, Maxwell, Caroline, Mbunwe, Eric, McCreight, Marilyn, Mead, Daniel, Mendy, Alieu, Mendy, Anthony, Mensah, Nathan, Michon, Pascal, Miles, Alistair, Miotto, Olivo, Modiano, David, Mohamed, Hiba, Molloy, Sile, Molyneux, Malcolm, Molyneux, Sassy, Moore, Mike, Moyes, Catherine, Mtei, Frank, Mtove, George, Mueller, Ivo, Mugri, Regina, Munthali, Annie, Mutabingwa, Theonest, Nadjm, Behzad, Ndi, Andre, Ndila, Carolyne, Newton, Charles, Niangaly, Amadou, Njie, Haddy, Njie, Jalimory, Njie, Madi, Njie, Malick, Njie, Sophie, Njiragoma, Labes, Nkrumah, Francis, Ntunthama, Neema, Nyika, Aceme, Nyirongo, Vysaul, O'Brien, John, Obu, Herbert, Oduro, Abraham, Ofori, Alex, Olaniyan, Subulade, Olaosebikan, Rasaq, Oluoch, Tom, Omotade, Olayemi, Oni, Olajumoke, Onykwelu, Emmanuel, Opi, Daniel, Orimadegun, Adebola, O'Riordan, Sean, Ouedraogo, Issa, Oyola, Samuel, Parker, Michael, Pearson, Richard, Pensulo, Paul, Peshu, Norbert, Phiri, Ajib, Phu, Nguyen, Pinder, Margaret, Pirinen, Matti, Plowe, Chris, Potter, Claire, Poudiougou, Belco, Puijalon, Odile, Quyen, Nguyen, Ragoussis, Ioannis, Ragoussis, Jiannis, Rasheed, Oba, Reeder, John, Reyburn, Hugh, Riley, Eleanor, Risley, Paul, Rockett, Kirk, Rodford, Joanne, Rogers, Jane, Rogers, William, Rowlands, Kate, Ruano-Rubio, Valentín, Sabally-Ceesay, Kumba, Sadiq, Abubacar, Saidy-Khan, Momodou, Saine, Horeja, Sakuntabhai, Anavaj, Sall, Abdourahmane, Sambian, David, Sambou, Idrissa, SanJoaquin, Miguel, Sepúlveda, Nuno, Shah, Shivang, Shelton, Jennifer, Siba, Peter, Silva, Nilupa, Simmons, Cameron, Simpore, Jaques, Singhasivanon, Pratap, Sinh, Dinh, Sirima, Sodiomon, Sirugo, Giorgio, Sisay-Joof, Fatoumatta, Sissoko, Sibiry, Small, Kerrin, Somaskantharajah, Elilan, Spencer, Chris, Stalker, Jim, Stevens, Marryat, Suriyaphol, Prapat, Sylverken, Justice, Taal, Bintou, Tall, Adama, Taylor, Terrie, Teo, Yik, Thai, Cao, Thera, Mahamadou, Titanji, Vincent, Toure, Ousmane, Troye-Blomberg, Marita, Usen, Stanley, Uyoga, Sophie, Vanderwal, Aaron, Wangai, Hannah, Watson, Renee, Williams, Thomas, Wilson, Michael, Wrigley, Rebecca, Yafi, Clarisse, Yamoah, Lawrence, Ndila, Carolyne M, Macharia, Alexander W, Nyutu, Gideon, Ojal, John, Shebe, Mohammed, Awuondo, Kennedy O, Mturi, Neema, Tsofa, Benjamin, Clark, Taane G, Kariuki, Silvia, Mackinnon, Margaret, Maitland, Kathryn, Kwiatkowski, Dominic P, Rockett, Kirk A, and Williams, Thomas N

Published

2018

4. Retrospective review of empyema and parapneumonic effusions in hospitalized children in Ghana

Author

Owusu, Sandra Kwarteng, primary, Owusu, Sheila Agyeiwaa, additional, Nyarko, Obed Ofori, additional, Kwarteng Owusu, Richard Kwaku, additional, Mahama, Haruna, additional, Adjetey, Naomi Dianne, additional, Baah, Birgit Agyeiwaah, additional, Okyere, Isaac, additional, Sylverken, Justice, additional, Ansong, Daniel, additional, and Zampoli, Marco, additional

Published

2023

5. Continuous positive airway pressure for children with undifferentiated respiratory distress in Ghana: an open-label, cluster, crossover trial

Author

Wilson, Patrick T, Baiden, Frank, Brooks, Joshua C, Morris, Marilyn C, Giessler, Katie, Punguyire, Damien, Apio, Gavin, Agyeman-Ampromfi, Akua, Lopez-Pintado, Sara, Sylverken, Justice, Nyarko-Jectey, Kwadwo, Tagbor, Harry, and Moresky, Rachel T

Published

2017

6. Aetiological agents of pneumonia among HIV and non-HIV infected children in Ghana: A case-control study.

Author

Owusu, Michael, Adu, Eric, Kalu, Lotenna Elsie, Martey, Eugene, Acheampong, Godfred, Enimil, Anthony, Appiah, John Adabie, Badu-Peprah, Augustina, Sylverken, Justice, Sylverken, Augustina Angelina, Nguah, Samuel Blay, Westeel, Emilie, Pouzol, Stephane, Drosten, Christian, and Adu-Sarkodie, Yaw

Abstract

Pneumonia is the leading cause of death in children, however, the microbial aetiology of pneumonia is not well elucidated in low- and middle-income countries. Our study was aimed at determining the microbial aetiologies of childhood pneumonia and associated risk factors in HIV and non-HIV infected children. We conducted a case-control study that enrolled children with pneumonia as cases and non-pneumonia as controls from July 2017 to May 2020. Induced sputum and blood samples were investigated for microbial organisms using standard microbiological techniques. DNA/RNA was extracted from sputum samples and tested for viral and bacterial agents. Four hundred and four (404) subjects consisting of 231 (57.2%) cases and 173 (42.8%) controls were enrolled. We identified a significant (p = 0.011) proportion of viruses in cases (125; 54.1%, 95%CI: 47.4–60.7) than controls (71; 33.6%, 95%CI: 33.6–48.8) and these were mostly contributed to by Respiratory Syncytial Virus. Staphylococcus aureus (16; 4.0%), Klebsiella spp. (15, 3.7%) and Streptococcus pneumoniae (8, 2.0%) were the main bacterial agents identified in sputum or induced sputum samples. HIV infected children with viral-bacterial co-detection were found to have very severe pneumonia compared to those with only viral or bacterial infection. Indoor cooking (OR = 2.36; 95%CI:1.41–3.96) was found to be associated with pneumonia risk in patients. This study demonstrates the importance of various microbial pathogens, particularly RSV, in contributing to pneumonia in HIV and non-HIV paediatric populations. There is a need to accelerate clinical trials of RSV vaccines in African populations to support improvement of patient care. [ABSTRACT FROM AUTHOR]

Published

2024

7. Decreased Mortality After Establishing a Pediatric Emergency Unit at an Urban Referral Hospital in Ghana

Author

Sylverken, Justice, Robison, Jeff A., Osei-Akoto, Alex, Nguah, Samuel Blay, Addo-Yobo, Emmanuel, Balch, Alfred, Bolte, Robert, and Ansong, Daniel

Published

2019

8. Determinants of post-malarial anemia in African children treated with parenteral artesunate

Author

Scheu, Katrin, Adegnika, Ayola Akim, Addo, Marylyn M., Ansong, Daniel, Cramer, Jakob P., Fürst, Svenja, Kremsner, Peter G., Kurth, Florian, Jacobs, Thomas, May, Jürgen, Ramharter, Michael, Sylverken, Justice, Vinnemeier, Christof D., Agbenyega, Tsiri, and Rolling, Thierry

Published

2019

9. Delayed Hemolysis After Treatment With Parenteral Artesunate in African Children With Severe Malaria—A Double-center Prospective Study

Author

Rolling, Thierry, Agbenyega, Tsiri, Issifou, Saadou, Adegnika, Ayola Akim, Sylverken, Justice, Spahlinger, Dorothee, Ansong, Daniel, Löhr, Sascha J. Z., Burchard, Gerd D., May, Jürgen, Mordmüller, Benjamin, Krishna, Sanjeev, Kremsner, Peter G., and Cramer, Jakob P.

Published

2014

10. Assessment of Clinical Outcomes Among Children and Adolescents Hospitalized With COVID-19 in 6 Sub-Saharan African Countries.

Author

UCL - SSS/IREC/EDIN - Pôle d'endocrinologie, diabète et nutrition, UCL - (SLuc) Centre de pathologie sexuelle masculine, UCL - (SLuc) Service d'endocrinologie et de nutrition, Nachega, Jean B, Sam-Agudu, Nadia A, Machekano, Rhoderick N, Rabie, Helena, van der Zalm, Marieke M, Redfern, Andrew, Dramowski, Angela, O'Connell, Natasha, Pipo, Michel Tshiasuma, Tshilanda, Marc B, Byamungu, Liliane Nsuli, Masekela, Refiloe, Jeena, Prakash Mohan, Pillay, Ashendri, Gachuno, Onesmus W, Kinuthia, John, Ishoso, Daniel Katuashi, Amoako, Emmanuella, Agyare, Elizabeth, Agbeno, Evans K, Martyn-Dickens, Charles, Sylverken, Justice, Enimil, Anthony, Jibril, Aishatu Mohammed, Abdullahi, Asara M, Amadi, Oma, Umar, Umar Mohammed, Sigwadhi, Lovemore Nyasha, Hermans, Michel, Otokoye, John Otshudiema, Mbala-Kingebeni, Placide, Muyembe-Tamfum, Jean-Jacques, Zumla, Alimuddin, Sewankambo, Nelson K, Aanyu, Hellen Tukamuhebwa, Musoke, Philippa, Suleman, Fatima, Adejumo, Prisca, Noormahomed, Emilia V, Deckelbaum, Richard J, Fowler, Mary Glenn, Tshilolo, Léon, Smith, Gerald, Mills, Edward J, Umar, Lawal W, Siedner, Mark J, Kruger, Mariana, Rosenthal, Philip J, Mellors, John W, Mofenson, Lynne M, African Forum for Research and Education in Health (AFREhealth) COVID-19 Research Collaboration on Children and Adolescents, UCL - SSS/IREC/EDIN - Pôle d'endocrinologie, diabète et nutrition, UCL - (SLuc) Centre de pathologie sexuelle masculine, UCL - (SLuc) Service d'endocrinologie et de nutrition, Nachega, Jean B, Sam-Agudu, Nadia A, Machekano, Rhoderick N, Rabie, Helena, van der Zalm, Marieke M, Redfern, Andrew, Dramowski, Angela, O'Connell, Natasha, Pipo, Michel Tshiasuma, Tshilanda, Marc B, Byamungu, Liliane Nsuli, Masekela, Refiloe, Jeena, Prakash Mohan, Pillay, Ashendri, Gachuno, Onesmus W, Kinuthia, John, Ishoso, Daniel Katuashi, Amoako, Emmanuella, Agyare, Elizabeth, Agbeno, Evans K, Martyn-Dickens, Charles, Sylverken, Justice, Enimil, Anthony, Jibril, Aishatu Mohammed, Abdullahi, Asara M, Amadi, Oma, Umar, Umar Mohammed, Sigwadhi, Lovemore Nyasha, Hermans, Michel, Otokoye, John Otshudiema, Mbala-Kingebeni, Placide, Muyembe-Tamfum, Jean-Jacques, Zumla, Alimuddin, Sewankambo, Nelson K, Aanyu, Hellen Tukamuhebwa, Musoke, Philippa, Suleman, Fatima, Adejumo, Prisca, Noormahomed, Emilia V, Deckelbaum, Richard J, Fowler, Mary Glenn, Tshilolo, Léon, Smith, Gerald, Mills, Edward J, Umar, Lawal W, Siedner, Mark J, Kruger, Mariana, Rosenthal, Philip J, Mellors, John W, Mofenson, Lynne M, and African Forum for Research and Education in Health (AFREhealth) COVID-19 Research Collaboration on Children and Adolescents

Abstract

IMPORTANCE: Little is known about COVID-19 outcomes among children and adolescents in sub-Saharan Africa, where preexisting comorbidities are prevalent. OBJECTIVE: To assess the clinical outcomes and factors associated with outcomes among children and adolescents hospitalized with COVID-19 in 6 countries in sub-Saharan Africa. DESIGN, SETTING, AND PARTICIPANTS: This cohort study was a retrospective record review of data from 25 hospitals in the Democratic Republic of the Congo, Ghana, Kenya, Nigeria, South Africa, and Uganda from March 1 to December 31, 2020, and included 469 hospitalized patients aged 0 to 19 years with SARS-CoV-2 infection. EXPOSURES: Age, sex, preexisting comorbidities, and region of residence. MAIN OUTCOMES AND MEASURES: An ordinal primary outcome scale was used comprising 5 categories: (1) hospitalization without oxygen supplementation, (2) hospitalization with oxygen supplementation, (3) ICU admission, (4) invasive mechanical ventilation, and (5) death. The secondary outcome was length of hospital stay. RESULTS: Among 469 hospitalized children and adolescents, the median age was 5.9 years (IQR, 1.6-11.1 years); 245 patients (52.4%) were male, and 115 (24.5%) had comorbidities. A total of 39 patients (8.3%) were from central Africa, 172 (36.7%) from eastern Africa, 208 (44.3%) from southern Africa, and 50 (10.7%) from western Africa. Eighteen patients had suspected (n = 6) or confirmed (n = 12) multisystem inflammatory syndrome in children. Thirty-nine patients (8.3%) died, including 22 of 69 patients (31.9%) who required intensive care unit admission and 4 of 18 patients (22.2%) with suspected or confirmed multisystem inflammatory syndrome in children. Among 468 patients, 418 (89.3%) were discharged, and 16 (3.4%) remained hospitalized. The likelihood of outcomes with higher vs lower severity among children younger than 1 year expressed as adjusted odds ratio (aOR) was 4.89 (95% CI, 1.44-16.61) times higher than that of adolescents aged 15 to

Published

2022

11. Assessment of Clinical Outcomes Among Children and Adolescents Hospitalized With COVID-19 in 6 Sub-Saharan African Countries

Author

Nachega, Jean B, Sam-Agudu, Nadia A, Machekano, Rhoderick N, Rabie, Helena, van der Zalm, Marieke M, Redfern, Andrew, Dramowski, Angela, O'Connell, Natasha, Pipo, Michel Tshiasuma, Tshilanda, Marc B, Byamungu, Liliane Nsuli, Masekela, Refiloe, Jeena, Prakash Mohan, Pillay, Ashendri, Gachuno, Onesmus W, Kinuthia, John, Ishoso, Daniel Katuashi, Amoako, Emmanuella, Agyare, Elizabeth, Agbeno, Evans K, Martyn-Dickens, Charles, Sylverken, Justice, Enimil, Anthony, Jibril, Aishatu Mohammed, Abdullahi, Asara M, Amadi, Oma, Umar, Umar Mohammed, Sigwadhi, Lovemore Nyasha, Hermans, Michel, Otokoye, John Otshudiema, Mbala-Kingebeni, Placide, Muyembe-Tamfum, Jean-Jacques, Zumla, Alimuddin, Sewankambo, Nelson K, Aanyu, Hellen Tukamuhebwa, Musoke, Philippa, Suleman, Fatima, Adejumo, Prisca, Noormahomed, Emilia V, Deckelbaum, Richard J, Fowler, Mary Glenn, Tshilolo, Léon, Smith, Gerald, Mills, Edward J, Umar, Lawal W, Siedner, Mark J, Kruger, Mariana, Rosenthal, Philip J, Mellors, John W, Mofenson, Lynne M, African Forum for Research and Education in Health (AFREhealth) COVID-19 Research Collaboration on Children and Adolescents, UCL - SSS/IREC/EDIN - Pôle d'endocrinologie, diabète et nutrition, UCL - (SLuc) Centre de pathologie sexuelle masculine, and UCL - (SLuc) Service d'endocrinologie et de nutrition

Subjects

Male, Adolescent, SARS-CoV-2, Pneumonia, Viral, Oxygen Inhalation Therapy, COVID-19, Infant, Length of Stay, Respiration, Artificial, Child, Preschool, Pediatrics, Perinatology and Child Health, Outcome Assessment, Health Care, Humans, Female, Child, Child, Hospitalized, Pandemics, Africa South of the Sahara

Abstract

IMPORTANCE: Little is known about COVID-19 outcomes among children and adolescents in sub-Saharan Africa, where preexisting comorbidities are prevalent. OBJECTIVE: To assess the clinical outcomes and factors associated with outcomes among children and adolescents hospitalized with COVID-19 in 6 countries in sub-Saharan Africa. DESIGN, SETTING, AND PARTICIPANTS: This cohort study was a retrospective record review of data from 25 hospitals in the Democratic Republic of the Congo, Ghana, Kenya, Nigeria, South Africa, and Uganda from March 1 to December 31, 2020, and included 469 hospitalized patients aged 0 to 19 years with SARS-CoV-2 infection. EXPOSURES: Age, sex, preexisting comorbidities, and region of residence. MAIN OUTCOMES AND MEASURES: An ordinal primary outcome scale was used comprising 5 categories: (1) hospitalization without oxygen supplementation, (2) hospitalization with oxygen supplementation, (3) ICU admission, (4) invasive mechanical ventilation, and (5) death. The secondary outcome was length of hospital stay. RESULTS: Among 469 hospitalized children and adolescents, the median age was 5.9 years (IQR, 1.6-11.1 years); 245 patients (52.4%) were male, and 115 (24.5%) had comorbidities. A total of 39 patients (8.3%) were from central Africa, 172 (36.7%) from eastern Africa, 208 (44.3%) from southern Africa, and 50 (10.7%) from western Africa. Eighteen patients had suspected (n = 6) or confirmed (n = 12) multisystem inflammatory syndrome in children. Thirty-nine patients (8.3%) died, including 22 of 69 patients (31.9%) who required intensive care unit admission and 4 of 18 patients (22.2%) with suspected or confirmed multisystem inflammatory syndrome in children. Among 468 patients, 418 (89.3%) were discharged, and 16 (3.4%) remained hospitalized. The likelihood of outcomes with higher vs lower severity among children younger than 1 year expressed as adjusted odds ratio (aOR) was 4.89 (95% CI, 1.44-16.61) times higher than that of adolescents aged 15 to 19 years. The presence of hypertension (aOR, 5.91; 95% CI, 1.89-18.50), chronic lung disease (aOR, 2.97; 95% CI, 1.65-5.37), or a hematological disorder (aOR, 3.10; 95% CI, 1.04-9.24) was associated with severe outcomes. Age younger than 1 year (adjusted subdistribution hazard ratio [asHR], 0.48; 95% CI, 0.27-0.87), the presence of 1 comorbidity (asHR, 0.54; 95% CI, 0.40-0.72), and the presence of 2 or more comorbidities (asHR, 0.26; 95% CI, 0.18-0.38) were associated with reduced rates of hospital discharge. CONCLUSIONS AND RELEVANCE: In this cohort study of children and adolescents hospitalized with COVID-19 in sub-Saharan Africa, high rates of morbidity and mortality were observed among infants and patients with noncommunicable disease comorbidities, suggesting that COVID-19 vaccination and therapeutic interventions are needed for young populations in this region.

Published

2022

12. Mortality pattern within twenty-four hours of admission to a pediatric emergency room in a teaching hospital in Ghana

Author

Owusu, Sheila Agyeiwaa, primary, Sylverken, Justice, additional, Asafo-Agyei, Serwaa Bonsu, additional, Ampofo, Augustine, additional, and Ansong, Daniel, additional

Published

2022

13. Hypoxia and mortality outcomes in children presenting with pneumonia to a tertiary Hospital: A Retrospective review of records

Author

Kwarteng Owusu, Sandra, primary, Baah, Birgit A, additional, Sylverken, Justice, additional, Mensah, Nicholas Karikari, additional, Adjetey, Naomi, additional, Ansong, Daniel, additional, and Addo-Yobo, Emmanuel, additional

Published

2022

14. A typical Kawasaki syndrome in COVID-19 infection: a case report of a multisystem inflammatory syndrome in a child (MIS-C)

Author

Sylverken, Justice, primary, Afari, Priscilla, additional, Martyn-Dickens, Charles, additional, A. Owusu, Sheila, additional, Oppong, Emmanuel, additional, Akwetey, Francis, additional, Mensah, Ekow, additional, Mahama, Haruna, additional, K. Owusu, Sandra, additional, and Antwi, Sampson, additional

Published

2021

15. Cardiac function in Ghanaian children with severe malaria

Author

Nguah, Samuel B., Feldt, Torsten, Hoffmann, Steffi, Pelletier, Daniel, Ansong, Daniel, Sylverken, Justice, Mehrfar, Parisa, Herr, Johanna, Thiel, Christian, Ehrhardt, Stephan, Burchard, Gerd D., and Cramer, Jakob P.

Published

2012

16. Genome-wide association study indicates two novel resistance loci for severe malaria

Author

Timmann, Christian, Thye, Thorsten, Vens, Maren, Evans, Jennifer, May, Jurgen, Ehmen, Christa, Sievertsen, Jurgen, Muntau, Birgit, Ruge, Gerd, Loag, Wibke, Ansong, Daniel, Antwi, Sampson, Asafo-Adjei, Emanuel, Nguah, Samuel Blay, Kwakye, Kingsley Osei, Akoto, Alex Osei Yaw, Sylverken, Justice, Brendel, Michael, Schuldt, Kathrin, Loley, Christina, Franke, Andre, Meyer, Christian G., Agbenyega, Tsiri, Ziegler, Andreas, and Horstmann, Rolf D.

Subjects

Communicable diseases -- Control, Genetic research -- Health aspects, Malaria -- Genetic aspects -- Development and progression, Environmental issues, Science and technology, Zoology and wildlife conservation

Abstract

Malaria causes approximately one million fatalities per year, mostly among African children (1). Although highlighted by the strong protective effect of the sickle-cell trait (2,3), the full impact of human [...]

Published

2012

17. Capillary refill time as an independent prognostic indicator in severe and complicated malaria

Author

Evans, Jennifer A., May, Juergen, Ansong, Daniel, Antwi, Sampson, Asafo-Adjei, Emmanuel, Blay Nguah, Samuel, Osei-Kwakye, Kingsley, Osei Yaw Akoto, Alex, Owusu Ofori, Alex, Sambian, David, Sylverken, Justice, Busch, Wibke, Timmann, Christian, Agbenyega, Tsiri, and Horstmann, Rolf D.

Published

2006

18. Intramuscular artesunate for severe malaria in African children: a multicenter randomized controlled trial

Author

Kremsner, Peter G., Adegnika, Akim A., Hounkpatin, Aurore B., Zinsou, Jeannot F., Taylor, Terrie E., Chimalizeni, Yamikani, Liomba, Alice, Kombila, Maryvonne, Bouyou-Akotet, Marielle K., Mboumba, Denise P. Mawili, Agbenyega, Tsiri, Ansong, Daniel, Sylverken, Justice, Ogutu, Bernhards R., Otieno, Godfrey A., Wangwe, Anne, Bojang, Kalifa A., Okomo, Uduak, Sanya- Isijola, Frank, Newton, Charles R., Njuguna, Patricia, Kazungu, Michael, Kerb, Reinhold, Geditz, Mirjam, Schwab, Matthias, Velavan, Thirumalaisamy P., Nguetse, Christian, Kohler, Carsten, Issifou, Saadou, Bolte, Stefanie, Engleitner, Thomas, Mordmuller, Benjamin, and Krishna, Sanjeev

Subjects

Children -- Diseases, Malaria -- Drug therapy, Biological sciences

Abstract

Background Current artesunate (ARS) regimens for severe malaria are complex. Once daily intramuscular (i.m.) injection for 3 d would be simpler and more appropriate for remote health facilities than the current WHO-recommended regimen of five intravenous (i.v.) or i.m. injections over 4 d. We compared both a three-dose i.m. and a three-dose i.v. parenteral ARS regimen with the standard five-dose regimen using a non-inferiority design (with non-inferiority margins of 10%). Methods and Findings This randomized controlled trial included children (0.5-10 y) with severe malaria at seven sites in five African countries to assess whether the efficacy of simplified three-dose regimens is non-inferior to a five-dose regimen. We randomly allocated 1,047 children to receive a total dose of 12 mg/kg ARS as either a control regimen of five i.m. injections of 2.4 mg/kg (at 0,12, 24, 48, and 72 h) (n = 348) or three injections of 4 mg/kg (at 0,24, and 48 h) either i.m. (n = 348) or i.v. (n = 351), both of which were the intervention arms. The primary endpoint was the proportion of children with >99% reduction in parasitemia at 24 h from admission values, measured by microscopists who were blinded to the group allocations. Primary analysis was performed on the per-protocol population, which was 96% of the intention-to-treat population. Secondary analyses included an analysis of host and parasite genotypes as risks for prolongation of parasite clearance kinetics, measured every 6 h, and a Kaplan-Meier analysis to compare parasite clearance kinetics between treatment groups. A post hoc analysis was performed for delayed anemia, defined as hemoglobin ≤ 7g/dl 7 d or more after admission. The per-protocol population was 1,002 children (five-dose i.m.: n = 331; three-dose i.m.: n = 338; three-dose i.v.: n = 333); 139 participants were lost to follow-up. In the three-dose i. m. arm, 265/338 (78%) children had a >99% reduction in parasitemia at 24 h compared to 263/331 (79%) receiving the five-dose i.m. regimen, showing non-inferiority of the simplified three-dose regimen to the conventional five-dose regimen (95% CI -7,5; p = 0.02). In the three-dose i.v. arm, 246/333 (74%) children had ≥ 99% reduction in parasitemia at 24 h; hence, non-inferiority of this regimen to the five-dose control regimen was not shown (95% CI -12,1; p = 0.24). Delayed parasite clearance was associated with the [sup.N86Y]Pfmdr1 genotype. In a post hoc analysis, 192/885 (22%) children developed delayed anemia, an adverse event associated with increased leukocyte counts. There was no observed difference in delayed anemia between treatment arms. A potential limitation of the study is its open-label design, although the primary outcome measures were assessed in a blinded manner. Conclusions A simplified three-dose i.m. regimen for severe malaria in African children is non-inferior to the more complex WHO-recommended regimen. Parenteral ARS is associated with a risk of delayed anemia in African children. Trial registration Pan African Clinical Trials Registry PACTR201102000277177, Introduction Studies to optimize artesunate (ARS) treatment regimens in malaria have been surprisingly sparse, given that ARS is now established as the treatment of choice for severe malaria in both [...]

Published

2016

19. Human candidate gene polymorphisms and risk of severe malaria in children in Kilifi, Kenya: a case-control association study

Author

Ndila, Carolyne M, Uyoga, Sophie, Macharia, Alexander W, Nyutu, Gideon, Peshu, Norbert, Ojal, John, Shebe, Mohammed, Awuondo, Kennedy O, Mturi, Neema, Tsofa, Benjamin, Sepúlveda, Nuno, Clark, Taane G, Band, Gavin, Clarke, Geraldine, Rowlands, Kate, Hubbart, Christina, Jeffreys, Anna, Kariuki, Silvia, Marsh, Kevin, Mackinnon, Margaret, Maitland, Kathryn, Kwiatkowski, Dominic P, Rockett, Kirk A, Williams, Thomas N, Abathina, Amadou, Abubakar, Ismaela, Achidi, Eric, Agbenyega, Tsiri, Aiyegbo, Mohammed, Akoto, Alex, Allen, Angela, Allen, Stephen, Amenga-Etego, Lucas, Amodu, Folakemi, Amodu, Olukemi, Anchang-Kimbi, Judith, Ansah, Nana, Ansah, Patrick, Ansong, Daniel, Antwi, Sampson, Anyorigiya, Thomas, Apinjoh, Tobias, Asafo-Agyei, Emmanuel, Asoala, Victor, Atuguba, Frank, Auburn, Sarah, Bah, Abdou, Bamba, Kariatou, Bancone, Germana, Barnwell, David, Barry, Abdoulaye, Bauni, Evasius, Besingi, Richard, Bojang, Kalifa, Bougouma, Edith, Bull, Susan, Busby, George, Camara, Abdoulie, Camara, Landing, Campino, Susana, Carter, Richard, Carucci, Dan, Casals-Pascual, Climent, Ceesay, Ndey, Ceesay, Pa, Chau, Tran, Chuong, Ly, Clark, Taane, Cole-Ceesay, Ramou, Conway, David, Cook, Katharine, Cook, Olivia, Cornelius, Victoria, Corran, Patrick, Correa, Simon, Cox, Sharon, Craik, Rachel, Danso, Bakary, Davis, Timothy, Day, Nicholas, Deloukas, Panos, Dembele, Awa, Devries, Jantina, Dewasurendra, Rajika, Diakite, Mahamadou, Diarra, Elizabeth, Dibba, Yaya, Diss, Andrea, Djimdé, Abdoulaye, Dolo, Amagana, Doumbo, Ogobara, Doyle, Alan, Drakeley, Chris, Drury, Eleanor, Duffy, Patrick, Dunstan, Sarah, Ebonyi, Augustine, Elhassan, Ahmed, Elhassan, Ibrahim, Elzein, Abier, Enimil, Anthony, Esangbedo, Pamela, Evans, Jennifer, Evans, Julie, Farrar, Jeremy, Fernando, Deepika, Fitzpatrick, Kathryn, Fullah, Janet, Garcia, Jacob, Ghansah, Anita, Gottleib, Michael, Green, Angie, Hart, Lee, Hennsman, Meike, Hien, Tran, Hieu, Nguyen, Hilton, Eliza, Hodgson, Abraham, Horstmann, Rolf, Hughes, Catherine, Hussein, Ayman, Hutton, Robert, Ibrahim, Muntaser, Ishengoma, Deus, Jaiteh, Jula, Jallow, Mariatou, Jallow, Muminatou, Jammeh, Kebba, Jasseh, Momodou, Jobarteh, Amie, Johnson, Kimberly, Joseph, Sarah, Jyothi, Dushyanth, Kachala, David, Kamuya, Dorcas, Kanyi, Haddy, Karunajeewa, Harin, Karunaweera, Nadira, Keita, Momodou, Kerasidou, Angeliki, Khan, Aja, Kivinen, Katja, Kokwaro, Gilbert, Konate, Amadou, Konate, Salimata, Koram, Kwadwo, Kwiatkowski, Dominic, Laman, Moses, Si, Le, Leffler, Ellen, Lemnge, Martha, Lin, Enmoore, Alioune, Ly, Macharia, Alexander, Macinnis, Bronwyn, Mai, Nguyen, Makani, Julie, Malangone, Cinzia, Mangano, Valentina, Manjurano, Alphaxard, Manneh, Lamin, Manning, Laurens, Manske, Magnus, Marsh, Vicki, Maslen, Gareth, Maxwell, Caroline, Mbunwe, Eric, Mccreight, Marilyn, Mead, Daniel, Mendy, Alieu, Mendy, Anthony, Mensah, Nathan, Michon, Pascal, Miles, Alistair, Miotto, Olivo, Modiano, David, Mohamed, Hiba, Molloy, Sile, Molyneux, Malcolm, Molyneux, Sassy, Moore, Mike, Moyes, Catherine, Mtei, Frank, Mtove, George, Mueller, Ivo, Mugri, Regina, Munthali, Annie, Mutabingwa, Theonest, Nadjm, Behzad, Ndi, Andre, Ndila, Carolyne, Newton, Charles, Niangaly, Amadou, Njie, Haddy, Njie, Jalimory, Njie, Madi, Njie, Malick, Njie, Sophie, Njiragoma, Labes, Nkrumah, Francis, Ntunthama, Neema, Nyika, Aceme, Nyirongo, Vysaul, O'Brien, John, Obu, Herbert, Oduro, Abraham, Ofori, Alex, Olaniyan, Subulade, Olaosebikan, Rasaq, Oluoch, Tom, Omotade, Olayemi, Oni, Olajumoke, Onykwelu, Emmanuel, Opi, Daniel, Orimadegun, Adebola, O'Riordan, Sean, Ouedraogo, Issa, Oyola, Samuel, Parker, Michael, Pearson, Richard, Pensulo, Paul, Phiri, Ajib, Phu, Nguyen, Pinder, Margaret, Pirinen, Matti, Plowe, Chris, Potter, Claire, Poudiougou, Belco, Puijalon, Odile, Quyen, Nguyen, Ragoussis, Ioannis, Ragoussis, Jiannis, Rasheed, Oba, Reeder, John, Reyburn, Hugh, Riley, Eleanor, Risley, Paul, Rockett, Kirk, Rodford, Joanne, Rogers, Jane, Rogers, William, Ruano-Rubio, Valentín, Sabally-Ceesay, Kumba, Sadiq, Abubacar, Saidy-Khan, Momodou, Saine, Horeja, Sakuntabhai, Anavaj, Sall, Abdourahmane, Sambian, David, Sambou, Idrissa, Sanjoaquin, Miguel, Shah, Shivang, Shelton, Jennifer, Siba, Peter, Silva, Nilupa, Simmons, Cameron, Simpore, Jaques, Singhasivanon, Pratap, Sinh, Dinh, Sirima, Sodiomon, Sirugo, Giorgio, Sisay-Joof, Fatoumatta, Sissoko, Sibiry, Small, Kerrin, Somaskantharajah, Elilan, Spencer, Chris, Stalker, Jim, Stevens, Marryat, Suriyaphol, Prapat, Sylverken, Justice, Taal, Bintou, Tall, Adama, Taylor, Terrie, Teo, Yik, Thai, Cao, Thera, Mahamadou, Titanji, Vincent, Toure, Ousmane, Troye-Blomberg, Marita, Usen, Stanley, Vanderwal, Aaron, Wangai, Hannah, Watson, Renee, Williams, Thomas, Wilson, Michael, Wrigley, Rebecca, Yafi, Clarisse, Yamoah, Lawrence, The Wellcome Trust Centre for Human Genetics [Oxford], University of Oxford, London School of Hygiene and Tropical Medicine (LSHTM), The Wellcome Trust Sanger Institute [Cambridge], St Mary's Hospital, Imperial College, TNW and MM are funded through awards from the Wellcome Trust (grants 091758 and 202800 [to TNW] and grant 088634 [to MM]) and DPK and TGC receive support from the Medical Research Council (grant G19/9 [to DPK] and grants MR/K000551/1, MR/M01360X/1, MR/N010469/1, and MC_PC_15103 [to TGC]). The research leading to these results received funding from the European Community's Seventh Framework Programme (FP7/2007-2013, under grant agreement 242095) and from the Medical Research Council (grant G0600718). MalariaGEN is supported by the Wellcome Trust (WT077383/Z/05/Z) and by the Foundation for the National Institutes of Health (grant 566) as part of the Bill & Melinda Gates' Grand Challenges in Global Health Initiative. The Resource Centre for Genomic Epidemiology of Malaria is supported by the Wellcome Trust (grant 090770/Z/09/Z). Support was also provided by the Medical Research Council (grant G0600718). The Wellcome Trust also provides core awards to the Wellcome Trust Centre for Human Genetics (grant 090532/Z/09/Z) and to the Wellcome Trust Sanger Institute (grant 098051). This work forms part of a larger collaboration with the MalariaGEN Consortium, whose members are listed at http://www.malariagen.net/projects/host/consortium-members. This paper is published with permission from the Director of the Kenya Medical Research Institute (KEMRI)., MalariaGEN Consortium (Anavaj Sakuntabhai), and European Project: 242095,EC:FP7:HEALTH,FP7-HEALTH-2009-single-stage,EVIMALAR(2009)

Subjects

Case-Control Studies, Child, Child, Preschool, Female, Gene Frequency, Genetic Predisposition to Disease, Humans, Kenya, Malaria, Male, Polymorphism, Genetic, Hematology, macromolecular substances, [SDV.BIBS]Life Sciences [q-bio]/Quantitative Methods [q-bio.QM], Article, Genetic, [SDV.GEN.GH]Life Sciences [q-bio]/Genetics/Human genetics, parasitic diseases, [SDV.MP.PAR]Life Sciences [q-bio]/Microbiology and Parasitology/Parasitology, [SDV.SPEE]Life Sciences [q-bio]/Santé publique et épidémiologie, Polymorphism, Preschool

Abstract

Summary Background Human genetic factors are important determinants of malaria risk. We investigated associations between multiple candidate polymorphisms—many related to the structure or function of red blood cells—and risk for severe Plasmodium falciparum malaria and its specific phenotypes, including cerebral malaria, severe malaria anaemia, and respiratory distress. Methods We did a case-control study in Kilifi County, Kenya. We recruited as cases children presenting with severe malaria to the high-dependency ward of Kilifi County Hospital. We included as controls infants born in the local community between Aug 1, 2006, and Sept 30, 2010, who were part of a genetics study. We tested for associations between a range of candidate malaria-protective genes and risk for severe malaria and its specific phenotypes. We used a permutation approach to account for multiple comparisons between polymorphisms and severe malaria. We judged p values less than 0·005 significant for the primary analysis of the association between candidate genes and severe malaria. Findings Between June 11, 1995, and June 12, 2008, 2244 children with severe malaria were recruited to the study, and 3949 infants were included as controls. Overall, 263 (12%) of 2244 children with severe malaria died in hospital, including 196 (16%) of 1233 with cerebral malaria. We investigated 121 polymorphisms in 70 candidate severe malaria-associated genes. We found significant associations between risk for severe malaria overall and polymorphisms in 15 genes or locations, of which most were related to red blood cells: ABO, ATP2B4, ARL14, CD40LG, FREM3, INPP4B, G6PD, HBA (both HBA1 and HBA2), HBB, IL10, LPHN2 (also known as ADGRL2), LOC727982, RPS6KL1, CAND1, and GNAS. Combined, these genetic associations accounted for 5·2% of the variance in risk for developing severe malaria among individuals in the general population. We confirmed established associations between severe malaria and sickle-cell trait (odds ratio [OR] 0·15, 95% CI 0·11–0·20; p=2·61 × 10−58), blood group O (0·74, 0·66–0·82; p=6·26 × 10−8), and –α3·7-thalassaemia (0·83, 0·76–0·90; p=2·06 × 10−6). We also found strong associations between overall risk of severe malaria and polymorphisms in both ATP2B4 (OR 0·76, 95% CI 0·63–0·92; p=0·001) and FREM3 (0·64, 0·53–0·79; p=3·18 × 10−14). The association with FREM3 could be accounted for by linkage disequilibrium with a complex structural mutation within the glycophorin gene region (comprising GYPA, GYPB, and GYPE) that encodes for the rare Dantu blood group antigen. Heterozygosity for Dantu was associated with risk for severe malaria (OR 0·57, 95% CI 0·49–0·68; p=3·22 × 10−11), as was homozygosity (0·26, 0·11–0·62; p=0·002). Interpretation Both ATP2B4 and the Dantu blood group antigen are associated with the structure and function of red blood cells. ATP2B4 codes for plasma membrane calcium-transporting ATPase 4 (the major calcium pump on red blood cells) and the glycophorins are ligands for parasites to invade red blood cells. Future work should aim at uncovering the mechanisms by which these polymorphisms can result in severe malaria protection and investigate the implications of these associations for wider health. Funding Wellcome Trust, UK Medical Research Council, European Union, and Foundation for the National Institutes of Health as part of the Bill & Melinda Gates Grand Challenges in Global Health Initiative.

Published

2018

20. Exploring the relationship between chronic undernutrition and asymptomatic malaria in Ghanaian children

Author

Hale DeVon C, Sylverken Justice, Dearden Kirk A, Dickerson Ty T, Stanford Joseph B, Porucznik Christina A, Amuasi John H, Merrill Ray M, Boakye Isaac, Alder Stephen C, Crookston Benjamin T, Snow Bryce S, Osei-Akoto Alex, and Ansong Daniel

Subjects

Arctic medicine. Tropical medicine, RC955-962, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background A moderate association has been found between asymptomatic parasitaemia and undernutrition. However, additional investigation using the gold standard for asymptomatic parasitaemia confirmation, polymerase chain reaction (PCR), is needed to validate this association. Anthropometric measurements and blood samples from children less than five years of age in a rural Ghanaian community were used to determine if an association exists between chronic undernutrition and PCR-confirmed cases of asymptomatic malaria. Methods This was a descriptive cross-sectional study of 214 children less than five years of age from a community near Kumasi, Ghana. Blood samples and anthropometric measurements from these children were collected during physical examinations conducted in January 2007 by partners of the Barekuma Collaborative Community Development Programme. Results Findings from the logistic model predicting the odds of asymptomatic malaria indicate that children who experienced mild, moderate or severe stunting were not more likely to have asymptomatic malaria than children who were not stunted. Children experiencing anaemia had an increased likelihood (OR = 4.15; 95% CI: 1.92, 8.98) of asymptomatic malaria. Similarly, increased spleen size, which was measured by ultrasound, was also associated with asymptomatic malaria (OR = 2.17; 95% CI: 1.44, 3.28). Fast breathing, sex of the child, and age of the child were not significantly associated with the asymptomatic malaria. Conclusions No significant association between chronic undernutrition and presence of asymptomatic malaria was found. Children who experience anaemia and children who have splenomegaly are more likely to present asymptomatic malaria. Programmes aimed at addressing malaria should continue to include nutritional components, especially components that address anaemia.

Published

2010

21. Decreased Mortality After Establishing a Pediatric Emergency Unit at an Urban Referral Hospital in Ghana.

Author

Sylverken, Justice, Robison, Jeff A., Osei-Akoto, Alex, Nguah, Samuel Blay, Addo-Yobo, Emmanuel, Balch, Alfred, Bolte, Robert, and Ansong, Daniel

Published

2021

22. Aetiology of viral hepatitis among jaundiced patients presenting to a tertiary hospital in Ghana

Author

Owusu, Michael, primary, Bonney, Joseph Kofi, additional, Annan, Augustina Angelina, additional, Mawuli, Gifty, additional, Okyere, Kennedy, additional, Mutocheluh, Mohamed, additional, Aryeequaye, Juliana, additional, Adjei, Nicholas Kwabena, additional, Afihene, Mary, additional, Spangenberg, Kathryn, additional, Sylverken, Justice, additional, Owusu-Dabo, Ellis, additional, Drosten, Christian, additional, and Adu-Sarkodie, Yaw, additional

Published

2018

23. Respiratory Pathogens in Children 1 Month to 5 Years of Age Presenting With Undifferentiated Acute Respiratory Distress in 2 District-Level Hospitals in Ghana

Author

Wilson, Patrick T, primary, Baiden, Frank, additional, Brooks, Joshua C, additional, Giessler, Katie M, additional, Apio, Gavin, additional, Punguyire, Damien, additional, Moresky, Rachel T, additional, Sylverken, Justice, additional, Nyarko-Jectey, Kwadwo, additional, Tagbor, Harry, additional, and LaRussa, Philip S, additional

Published

2018

24. Respiratory Pathogens in Children 1 Month to 5 Years of Age Presenting With Undifferentiated Acute Respiratory Distress in 2 District-Level Hospitals in Ghana.

Author

Wilson, Patrick T, Baiden, Frank, Brooks, Joshua C, Giessler, Katie M, Apio, Gavin, Punguyire, Damien, Moresky, Rachel T, Sylverken, Justice, Nyarko-Jectey, Kwadwo, Tagbor, Harry, and LaRussa, Philip S

Subjects

ENTEROVIRUSES, POLYMERASE chain reaction, PUBLIC hospitals, ADULT respiratory distress syndrome, RESPIRATORY infections, RESPIRATORY syncytial virus, RNA viruses, WEATHER, DESCRIPTIVE statistics, CHILDREN

Abstract

Ghanaian children (2176) aged <5 years who presented with undifferentiated acute respiratory distress were tested for respiratory pathogens using a BioFire FilmArray polymerase chain reaction assay. Rhinovirus and/or enterovirus was detected in 36% of the assays, respiratory syncytial virus in 11%, and parainfluenza in 7%. Respiratory syncytial virus and metapneumovirus were detected more frequently in the rainy season than in the dry season. [ABSTRACT FROM AUTHOR]

Published

2019

25. Epidemiology of paediatric poisoning reporting to a tertiary hospital in Ghana

Author

Ansong, Daniel, primary, Nkyi, Clara, additional, Appiah, Clement Osei, additional, Amuzu, Evans Xorse, additional, Frimpong, Charles Ayekum, additional, Nyanor, Isaac, additional, Nguah, Samuel Blay, additional, and Sylverken, Justice, additional

Published

2016

26. 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

27. Feasibility, safety, and impact of the RTS,S/AS01Emalaria vaccine when implemented through national immunisation programmes: evaluation of cluster-randomised introduction of the vaccine in Ghana, Kenya, and Malawi

Author

Asante, Kwaku Poku, Mathanga, Don P, Milligan, Paul, Akech, Samuel, Oduro, Abraham, Mwapasa, Victor, Moore, Kerryn A, Kwambai, Titus K, Hamel, Mary J, Gyan, Thomas, Westercamp, Nelli, Kapito-Tembo, Atupele, Njuguna, Patricia, Ansong, Daniel, Kariuki, Simon, Mvalo, Tisungane, Snell, Paul, Schellenberg, David, Welega, Paul, Otieno, Lucas, Chimala, Alfred, Afari, Edwin A, Bejon, Philip, Maleta, Kenneth, Agbenyega, Tsiri, Snow, Robert W, Zulu, Madaliso, Chinkhumba, Jobiba, Samuels, Aaron M, Abubakari, Sulemana Watara, Akumani, Albert, Adu-Gyasi, Dennis, Sarfo, Augustine, Odei-Lartey, Elezier, Agbokey, Francis, Amenga-Etego, Seeba, Gyaase, Stephany, Buabeng, Patrick, Awini, Elizabeth, Sylverken, Justice, Kampim, Aaron, Koram, Kwadwo A, Hodgson, Abraham, Binka, Fred Newton, Okine, Rafiq Nii Attoh, Tweneboah, Peter Ofori, Ondiegi, Bella, Seda, Brian, Akach, Dorcas, Orwa, Gordon, Nyang’au, Isabella, Odunga, Oscar, Gumba, Francis, Copeland, Nathanial, Khazenzi, Cynthia, Mumo, Eda, Musa, Monica, Ogero, Morris, English, Mike, Haji, Adam, Njoroge, Josephine, Msuku, Harrison, Samuel, Vincent, Mariko, Hillary Topazian, Juliano, Jon, Msumba, Lusungu, Mungwira, Randy George, Zimba, Boston Edward, Desai, Meghna, Furrer, Eliane, Aponte, John, Alonso, Pedro, Kalu, Akpaka A, and Sillah, Jackson Sophianu

Abstract

The RTS,S/AS01Emalaria vaccine (RTS,S) was introduced by national immunisation programmes in Ghana, Kenya, and Malawi in 2019 in large-scale pilot schemes. We aimed to address questions about feasibility and impact, and to assess safety signals that had been observed in the phase 3 trial that included an excess of meningitis and cerebral malaria cases in RTS,S recipients, and the possibility of an excess of deaths among girls who received RTS,S than in controls, to inform decisions about wider use.

Published

2024

28. 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

29. Randomized controlled trial of RTS,S/AS02D and RTS,S/AS01E malaria candidate vaccines given according to different schedules in Ghanaian children

Author

Owusu-Agyei, Seth, Ansong, Daniel, Asante, Kwaku, Kwarteng Owusu, Sandra, Owusu, Ruth, Wireko Brobby, Naana Ayiwa, Dosoo, David, Osei Akoto, Alex, Osei-Kwakye, Kingsley, Adjei, Emmanuel Asafo, Boahen, Kwadwo Owusu, Sylverken, Justice, Adjei, George, Sambian, David, Apanga, Stephen, Kayan, Kingsley, Vekemans, Johan, Ofori-Anyinam, Opokua, Leach, Amanda, Lievens, Marc, Demoitie, Marie-Ange, Dubois, Marie-Claude, Cohen, Joe, Ballou, W Ripley, Savarese, Barbara, Chandramohan, Daniel, Gyapong, John Owusu, Milligan, Paul, Antwi, Sampson, Agbenyega, Tsiri, Greenwood, Brian, and Evans, Jennifer

Subjects

musculoskeletal, neural, and ocular physiology, parasitic diseases, behavioral disciplines and activities, psychological phenomena and processes

Abstract

BACKGROUND: The target delivery channel of RTS,S candidate malaria vaccines in malaria-endemic countries in Africa is the World Health Organisation Expanded Program on Immunization. As an Adjuvant System, age de-escalation and schedule selection step, this study assessed 3 schedules of RTS,S/AS01(E) and RTS,S/AS02(D) in infants and young children 5-17 months of age in Ghana. METHODOLOGY: A Phase II, partially-blind randomized controlled study (blind to vaccine, not to schedule), of 19 months duration was conducted in two (2) centres in Ghana between August 2006 and May 2008. Subjects were allocated randomly (1:1:1:1:1:1) to one of six study groups at each study site, each defining which vaccine should be given and by which schedule (0,1-, 0,1,2- or 0,1,7-months). For the 0,1,2-month schedule participants received RTS,S/AS01(E) or rabies vaccine at one center and RTS,S/AS01(E) or RTS,S/AS02(D) at the other. For the other schedules at both study sites, they received RTS,S/AS01(E) or RTS,S/AS02(D). The primary outcome measure was the occurrence of serious adverse events until 10 months post dose 1. RESULTS: The number of serious adverse events reported across groups was balanced. One child had a simple febrile convulsion, which evolved favourably without sequelae, considered to be related to RTS,S/AS01(E) vaccination. Low grade reactions occurred slightly more frequently in recipients of RTS,S/AS than rabies vaccines; grade 3 reactions were infrequent. Less local reactogenicity occurred with RTS,S/AS01(E) than RTS,S/AS02(D). Both candidate vaccines were highly immunogenic for anti-circumsporozoite and anti-Hepatitis B Virus surface antigen antibodies. Recipients of RTS,S/AS01(E) compared to RTS,S/AS02(D) had higher peak anti-circumsporozoite antibody responses for all 3 schedules. Three dose schedules were more immunogenic than 2 dose schedules. Area under the curve analyses for anti-circumsporozoite antibodies were comparable between the 0,1,2- and 0,1,7-month RTS,S/AS01(E) schedules. CONCLUSIONS: Both candidate malaria vaccines were well tolerated. Anti-circumsporozoite responses were greater with RTS,S/AS01(E) than RTS,S/AS02(D) and when 3 rather than 2 doses were given. This study supports the selection of RTS,S/AS01(E) and a 3 dose schedule for further development in children and infants. TRIAL REGISTRATION: ClinicalTrials.gov NCT00360230.

Published

2009

30. Disease-associated QT-shortage versus quinine associated QT-prolongation: age dependent ECG-effects in Ghanaian children with severe malaria

Author

Roggelin, Louise, primary, Pelletier, Daniel, additional, Hill, Josephine N, additional, Feldt, Torsten, additional, Hoffmann, Steffi, additional, Ansong, Daniel, additional, Sylverken, Justice, additional, Burhenne, Jürgen, additional, Fischer-Herr, Johanna, additional, Mehrfar, Parisa, additional, Thiel, Christian, additional, Burchard, Gerd D, additional, Nguah, Samuel B, additional, and Cramer, Jakob P, additional

Published

2014

31. Delayed Hemolysis After Treatment With Parenteral Artesunate in African Children With Severe Malaria—A Double-center Prospective Study

Author

Rolling, Thierry, primary, Agbenyega, Tsiri, additional, Issifou, Saadou, additional, Adegnika, Ayola Akim, additional, Sylverken, Justice, additional, Spahlinger, Dorothee, additional, Ansong, Daniel, additional, Löhr, Sascha J. Z., additional, Burchard, Gerd D., additional, May, Jürgen, additional, Mordmüller, Benjamin, additional, Krishna, Sanjeev, additional, Kremsner, Peter G., additional, and Cramer, Jakob P., additional

Published

2013

32. T Cell Responses to the RTS,S/AS01E and RTS,S/AS02D Malaria Candidate Vaccines Administered According to Different Schedules to Ghanaian Children

Author

Ansong, Daniel, primary, Asante, Kwaku P., additional, Vekemans, Johan, additional, Owusu, Sandra K., additional, Owusu, Ruth, additional, Brobby, Naana A. W., additional, Dosoo, David, additional, Osei-Akoto, Alex, additional, Osei-Kwakye, Kingsley, additional, Asafo-Adjei, Emmanuel, additional, Boahen, Kwadwo O., additional, Sylverken, Justice, additional, Adjei, George, additional, Sambian, David, additional, Apanga, Stephen, additional, Kayan, Kingsley, additional, Janssens, Michel H., additional, Lievens, Marc J. J., additional, Olivier, Aurelie C., additional, Jongert, Erik, additional, Dubois, Patrice, additional, Savarese, Barbara M., additional, Cohen, Joe, additional, Antwi, Sampson, additional, Greenwood, Brian M., additional, Evans, Jennifer A., additional, Agbenyega, Tsiri, additional, Moris, Philippe J., additional, and Owusu-Agyei, Seth, additional

Published

2011

33. Exploring the relationship between chronic undernutrition and asymptomatic malaria in Ghanaian children

Author

Crookston, Benjamin T, primary, Alder, Stephen C, additional, Boakye, Isaac, additional, Merrill, Ray M, additional, Amuasi, John H, additional, Porucznik, Christina A, additional, Stanford, Joseph B, additional, Dickerson, Ty T, additional, Dearden, Kirk A, additional, Hale, DeVon C, additional, Sylverken, Justice, additional, Snow, Bryce S, additional, Osei-Akoto, Alex, additional, and Ansong, Daniel, additional

Published

2010

34. T Cell Responses to the RTS,S/AS01E and RTS,S/AS02D Malaria Candidate Vaccines Administered According to Different Schedules to Ghanaian Children.

Author

Ansong, Daniel, Asante, Kwaku P., Vekemans, Johan, Owusu, Sandra K., Owusu, Ruth, Brobby, Naana A. W., Dosoo, David, Osei-Akoto, Alex, Osei-Kwakye, Kingsley, Asafo-Adjei, Emmanuel, O.^Boahen, Kwadwo, Sylverken, Justice, Adjei, George, Sambian, David, Apanga, Stephen, Kayan, Kingsley, Janssens, Michel H., Lievens, Marc J. J., Olivier, Aurelie C., and Jongert, Erik

Subjects

PLASMODIUM falciparum, MALARIA, T cells, PREVENTIVE pediatrics, VACCINATION of children, IMMUNIZATION, CYTOKINES, RESEARCH institutes, VACCINATION

Abstract

Background: The Plasmodium falciparum pre-erythrocytic stage candidate vaccine RTS,S is being developed for protection of young children against malaria in sub-Saharan Africa. RTS,S formulated with the liposome based adjuvant AS01E or the oil-in-water based adjuvant AS02D induces P. falciparum circumsporozoite (CSP) antigen-specific antibody and T cell responses which have been associated with protection in the experimental malaria challenge model in adults. Methods: This study was designed to evaluate the safety and immunogenicity induced over a 19 month period by three vaccination schedules (0,1-, 0,1,2- and 0,1,7-month) of RTS,S/AS01E and RTS,S/AS02D in children aged 5-17 months in two research centers in Ghana. Control Rabies vaccine using the 0,1,2-month schedule was used in one of two study sites. Results: Whole blood antigen stimulation followed by intra-cellular cytokine staining showed RTS,S/AS01E induced CSP specific CD4 T cells producing IL-2, TNF-α, and IFN-γ. Higher T cell responses were induced by a 0,1,7-month immunization schedule as compared with a 0,1- or 0,1,2-month schedule. RTS,S/AS01E induced higher CD4 T cell responses as compared to RTS,S/AS02D when given on a 0,1,7-month schedule. Conclusions: These findings support further Phase III evaluation of RTS,S/AS01E. The role of immune effectors and immunization schedules on vaccine protection are currently under evaluation. [ABSTRACT FROM AUTHOR]

Published

2011

35. Randomized Controlled Trial of RTS,S/AS02D and RTS,S/AS01E Malaria Candidate Vaccines Given According to Different Schedules in Ghanaian Children.

Author

Owusu-Agyei, Seth, Ansong, Daniel, Asante, Kwaku, Owusu, Sandra Kwarteng, Owusu, Ruth, Brobby, Naana Ayiwa Wireko, Dosoo, David, Akoto, Alex Osei, Osei-Kwakye, Kingsley, Adjei, Emmanuel Asafo, Boahen, Kwadwo Owusu, Sylverken, Justice, Adjei, George, Sambian, David, Apanga, Stephen, Kayan, Kingsley, Vekemans, Johan, Ofori-Anyinam, Opokua, Leach, Amanda, and Lievens, Marc

Subjects

MALARIA vaccines, PROTOZOAN vaccines, PREVENTIVE medicine, HEPATITIS B, CELL surface antigens, SEIZURES in children, CLINICAL trials

Abstract

Background: The target delivery channel of RTS,S candidate malaria vaccines in malaria-endemic countries in Africa is the World Health Organisation Expanded Program on Immunization. As an Adjuvant System, age de-escalation and schedule selection step, this study assessed 3 schedules of RTS,S/AS01E and RTS,S/AS02D in infants and young children 5-17 months of age in Ghana. Methodology: A Phase II, partially-blind randomized controlled study (blind to vaccine, not to schedule), of 19 months duration was conducted in two (2) centres in Ghana between August 2006 and May 2008. Subjects were allocated randomly (1:1:1:1:1:1) to one of six study groups at each study site, each defining which vaccine should be given and by which schedule (0,1-, 0,1,2- or 0,1,7-months). For the 0,1,2-month schedule participants received RTS,S/AS01E or rabies vaccine at one center and RTS,S/AS01E or RTS,S/AS02D at the other. For the other schedules at both study sites, they received RTS,S/AS01E or RTS,S/ AS02D. The primary outcome measure was the occurrence of serious adverse events until 10 months post dose 1. Results: The number of serious adverse events reported across groups was balanced. One child had a simple febrile convulsion, which evolved favourably without sequelae, considered to be related to RTS,S/AS01E vaccination. Low grade reactions occurred slightly more frequently in recipients of RTS,S/AS than rabies vaccines; grade 3 reactions were infrequent. Less local reactogenicity occurred with RTS,S/AS01E than RTS,S/AS02D. Both candidate vaccines were highly immunogenic for anti-circumsporozoite and anti-Hepatitis B Virus surface antigen antibodies. Recipients of RTS,S/AS01E compared to RTS,S/AS02D had higher peak anti-circumsporozoite antibody responses for all 3 schedules. Three dose schedules were more immunogenic than 2 dose schedules. Area under the curve analyses for anti-circumsporozoite antibodies were comparable between the 0,1,2- and 0,1,7-month RTS,S/AS01E schedules. Conclusions: Both candidate malaria vaccines were well tolerated. Anti-circumsporozoite responses were greater with RTS,S/AS01E than RTS,S/AS02D and when 3 rather than 2 doses were given. This study supports the selection of RTS,S/AS01E and a 3 dose schedule for further development in children and infants. Trial Registration: ClinicalTrials.gov NCT00360230 [ABSTRACT FROM AUTHOR]

Published

2009

36. Assessment of Clinical Outcomes Among Children and Adolescents Hospitalized With COVID-19 in 6 Sub-Saharan African Countries

Author

Nachega, Jean B., Sam-Agudu, Nadia A., Machekano, Rhoderick N., Rabie, Helena, van der Zalm, Marieke M., Redfern, Andrew, Dramowski, Angela, O’Connell, Natasha, Pipo, Michel Tshiasuma, Tshilanda, Marc B., Byamungu, Liliane Nsuli, Masekela, Refiloe, Jeena, Prakash Mohan, Pillay, Ashendri, Gachuno, Onesmus W., Kinuthia, John, Ishoso, Daniel Katuashi, Amoako, Emmanuella, Agyare, Elizabeth, Agbeno, Evans K., Martyn-Dickens, Charles, Sylverken, Justice, Enimil, Anthony, Jibril, Aishatu Mohammed, Abdullahi, Asara M., Amadi, Oma, Umar, Umar Mohammed, Sigwadhi, Lovemore Nyasha, Hermans, Michel P., Otokoye, John Otshudiema, Mbala-Kingebeni, Placide, Muyembe-Tamfum, Jean-Jacques, Zumla, Alimuddin, Sewankambo, Nelson K., Aanyu, Hellen Tukamuhebwa, Musoke, Philippa, Suleman, Fatima, Adejumo, Prisca, Noormahomed, Emilia V., Deckelbaum, Richard J., Fowler, Mary Glenn, Tshilolo, Léon, Smith, Gerald, Mills, Edward J., Umar, Lawal W., Siedner, Mark J., Kruger, Mariana, Rosenthal, Philip J., Mellors, John W., and Mofenson, Lynne M.

Abstract

IMPORTANCE: Little is known about COVID-19 outcomes among children and adolescents in sub-Saharan Africa, where preexisting comorbidities are prevalent. OBJECTIVE: To assess the clinical outcomes and factors associated with outcomes among children and adolescents hospitalized with COVID-19 in 6 countries in sub-Saharan Africa. DESIGN, SETTING, AND PARTICIPANTS: This cohort study was a retrospective record review of data from 25 hospitals in the Democratic Republic of the Congo, Ghana, Kenya, Nigeria, South Africa, and Uganda from March 1 to December 31, 2020, and included 469 hospitalized patients aged 0 to 19 years with SARS-CoV-2 infection. EXPOSURES: Age, sex, preexisting comorbidities, and region of residence. MAIN OUTCOMES AND MEASURES: An ordinal primary outcome scale was used comprising 5 categories: (1) hospitalization without oxygen supplementation, (2) hospitalization with oxygen supplementation, (3) ICU admission, (4) invasive mechanical ventilation, and (5) death. The secondary outcome was length of hospital stay. RESULTS: Among 469 hospitalized children and adolescents, the median age was 5.9 years (IQR, 1.6-11.1 years); 245 patients (52.4%) were male, and 115 (24.5%) had comorbidities. A total of 39 patients (8.3%) were from central Africa, 172 (36.7%) from eastern Africa, 208 (44.3%) from southern Africa, and 50 (10.7%) from western Africa. Eighteen patients had suspected (n = 6) or confirmed (n = 12) multisystem inflammatory syndrome in children. Thirty-nine patients (8.3%) died, including 22 of 69 patients (31.9%) who required intensive care unit admission and 4 of 18 patients (22.2%) with suspected or confirmed multisystem inflammatory syndrome in children. Among 468 patients, 418 (89.3%) were discharged, and 16 (3.4%) remained hospitalized. The likelihood of outcomes with higher vs lower severity among children younger than 1 year expressed as adjusted odds ratio (aOR) was 4.89 (95% CI, 1.44-16.61) times higher than that of adolescents aged 15 to 19 years. The presence of hypertension (aOR, 5.91; 95% CI, 1.89-18.50), chronic lung disease (aOR, 2.97; 95% CI, 1.65-5.37), or a hematological disorder (aOR, 3.10; 95% CI, 1.04-9.24) was associated with severe outcomes. Age younger than 1 year (adjusted subdistribution hazard ratio [asHR], 0.48; 95% CI, 0.27-0.87), the presence of 1 comorbidity (asHR, 0.54; 95% CI, 0.40-0.72), and the presence of 2 or more comorbidities (asHR, 0.26; 95% CI, 0.18-0.38) were associated with reduced rates of hospital discharge. CONCLUSIONS AND RELEVANCE: In this cohort study of children and adolescents hospitalized with COVID-19 in sub-Saharan Africa, high rates of morbidity and mortality were observed among infants and patients with noncommunicable disease comorbidities, suggesting that COVID-19 vaccination and therapeutic interventions are needed for young populations in this region.

Published

2022

37. Atypical Kawasaki syndrome in COVID-19 infection: a case report of a multisystem inflammatory syndrome in a child (MIS-C).

Author

Sylverken J, Afari P, Martyn-Dickens C, Owusu SA, Oppong E, Akwetey F, Mensah E, Mahama H, Owusu SK, and Antwi S

Subjects

Child, Humans, Male, RNA, Viral, SARS-CoV-2, South Africa, Systemic Inflammatory Response Syndrome, COVID-19 complications, COVID-19 diagnosis, Mucocutaneous Lymph Node Syndrome complications, Mucocutaneous Lymph Node Syndrome diagnosis

Abstract

The emergence of COVID-19 by a novel severe acute respiratory syndrome coronavirus (SARS-CoV-2) in 2019 has seen evolving data reporting infrequent infection in children and mostly mild disease for children who contract the infection. A severe form of COVID-19 in children recently reported in Europe and North America describes a multisystem inflammation syndrome in children (MIS-C), presenting as toxic-shock-like and Kawasaki-like syndromes. Data on MIS-C in Africa is being documented with recent reports from South Africa and Nigeria in black children, but information on MIS-C in Ghana is yet to be characterized. We report the first case of multisystem inflammatory syndrome in a child who tested PCR positive to SARS-CoV2 in a tertiary hospital in Ghana. The case describes a 10-year-old boy who reported Kawasaki-like syndrome without shock but with moderate respiratory distress requiring supportive acute care without the need for intensive care., Funding: None declared., Competing Interests: Conflict of interest: None declared, (Copyright © The Author(s).)

Published

2021

38. 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

39. 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

40. Randomized controlled trial of RTS,S/AS02D and RTS,S/AS01E malaria candidate vaccines given according to different schedules in Ghanaian children.

Author

Owusu-Agyei S, Ansong D, Asante K, Kwarteng Owusu S, Owusu R, Wireko Brobby NA, Dosoo D, Osei Akoto A, Osei-Kwakye K, Adjei EA, Boahen KO, Sylverken J, Adjei G, Sambian D, Apanga S, Kayan K, Vekemans J, Ofori-Anyinam O, Leach A, Lievens M, Demoitie MA, Dubois MC, Cohen J, Ballou WR, Savarese B, Chandramohan D, Gyapong JO, Milligan P, Antwi S, Agbenyega T, Greenwood B, and Evans J

Subjects

Animals, Area Under Curve, Child, Female, Ghana, Humans, Infant, Malaria Vaccines administration & dosage, Male, Plasmodium falciparum immunology, Time Factors, Treatment Outcome, Drug Administration Schedule, Malaria Vaccines therapeutic use, Malaria, Falciparum prevention & control, Vaccination

Abstract

Background: The target delivery channel of RTS,S candidate malaria vaccines in malaria-endemic countries in Africa is the World Health Organisation Expanded Program on Immunization. As an Adjuvant System, age de-escalation and schedule selection step, this study assessed 3 schedules of RTS,S/AS01(E) and RTS,S/AS02(D) in infants and young children 5-17 months of age in Ghana., Methodology: A Phase II, partially-blind randomized controlled study (blind to vaccine, not to schedule), of 19 months duration was conducted in two (2) centres in Ghana between August 2006 and May 2008. Subjects were allocated randomly (1:1:1:1:1:1) to one of six study groups at each study site, each defining which vaccine should be given and by which schedule (0,1-, 0,1,2- or 0,1,7-months). For the 0,1,2-month schedule participants received RTS,S/AS01(E) or rabies vaccine at one center and RTS,S/AS01(E) or RTS,S/AS02(D) at the other. For the other schedules at both study sites, they received RTS,S/AS01(E) or RTS,S/AS02(D). The primary outcome measure was the occurrence of serious adverse events until 10 months post dose 1., Results: The number of serious adverse events reported across groups was balanced. One child had a simple febrile convulsion, which evolved favourably without sequelae, considered to be related to RTS,S/AS01(E) vaccination. Low grade reactions occurred slightly more frequently in recipients of RTS,S/AS than rabies vaccines; grade 3 reactions were infrequent. Less local reactogenicity occurred with RTS,S/AS01(E) than RTS,S/AS02(D). Both candidate vaccines were highly immunogenic for anti-circumsporozoite and anti-Hepatitis B Virus surface antigen antibodies. Recipients of RTS,S/AS01(E) compared to RTS,S/AS02(D) had higher peak anti-circumsporozoite antibody responses for all 3 schedules. Three dose schedules were more immunogenic than 2 dose schedules. Area under the curve analyses for anti-circumsporozoite antibodies were comparable between the 0,1,2- and 0,1,7-month RTS,S/AS01(E) schedules., Conclusions: Both candidate malaria vaccines were well tolerated. Anti-circumsporozoite responses were greater with RTS,S/AS01(E) than RTS,S/AS02(D) and when 3 rather than 2 doses were given. This study supports the selection of RTS,S/AS01(E) and a 3 dose schedule for further development in children and infants., Trial Registration: ClinicalTrials.gov NCT00360230.

Published

2009