Your search keyword '"Antonjaya, Ungke"' showing total 29 results

1. Emergence of melioidosis in Indonesia and today's challenges

Author

Tauran, Patricia M., Wahyunie, Sri, Saad, Farahanna, Dahesihdewi, Andaru, Graciella, Mahrany, Muhammad, Munawir, Lestari, Delly Chipta, Aryati, Aryati, Parwati, Ida, Loho, Tonny, Pratiwi, Dewi Indah Noviana, Mutiawati, Vivi Keumala, Loesnihari, Ricke, Anggraini, Dewi, Rahayu, Siwipeni Irmawanti, NawangWulan, Wahyu, Antonjaya, Ungke, Dance, David AB, Currie, Bart J., Limmathuthurotsakul, Direk, Arif, Mansyur, Aman, Abu Tholib, and Iskandriati, Diah

Published

2018

2. Spectrum of Respiratory Viruses Identified from SARS-CoV-2 Negative Specimens in Watansoppeng, a Bat City in Eastern Indonesia

Author

Idris, Irfan, primary, Wahid, Isra, additional, Antonjaya, Ungke, additional, Johar, Edison, additional, Kleib, Fiqry Hasan, additional, Sriyani, Ida Yus, additional, Dewantari, Aghnianditya Kresno, additional, ., Oderna, additional, ., Mustakim, additional, ., Fatmawati, additional, Yudhaputri, Frilasita Aisyah, additional, Syafruddin, Din, additional, and Myint, Khin Saw Aye, additional

Published

2024

3. Scrub typhus in Indonesia: A cross-sectional analysis of archived fever studies samples.

Author

Saraswati, Kartika, Tanganuchitcharnchai, Ampai, Ongchaikupt, Sirada, Mukaka, Mavuto, Day, Nicholas P J, Baird, J Kevin, Antonjaya, Ungke, Myint, Khin S A, Dewi, Yora P, Yudhaputri, Frilasita A, Haryanto, Sotianingsih, Witari, N P Diah, and Blacksell, Stuart D

Subjects

TSUTSUGAMUSHI disease, CROSS-sectional method, ENZYME-linked immunosorbent assay, BACTERIAL diseases, BETA lactam antibiotics, FEVER

Abstract

Background Scrub typhus is an understudied vector-borne bacterial infection. Methods We tested archived fever samples for scrub typhus seropositivity to begin charting its geographic distribution in Indonesia. We analysed 1033 serum samples from three sites. IgM and IgG enzyme-linked immunosorbent assay (ELISA) against Orientia tsutsugamushi was performed using Karp, Kato, Gilliam, TA 716 antigens. To determine the cutoff in the absence of a presumed unexposed population and gold standard tests, we identified the visual inflection point, performed change point analysis, and used finite mixture models. Results The optical density cutoff values used for IgM and IgG were 0.49 and 0.13, respectively. Across all sites, IgM seropositivity was 4.6% (95% CI: 3.4 to 6.0%) while IgG seropositivity was 4.4% (95% CI: 3.3 to 5.8%). The overall seropositivity across sites was 8.8% (95% CI: 8.1 to 11.7%). The overall seropositivity for Jambi, Denpasar, Tabanan were 9.7% (95% CI: 7.0 to 13.3%), 8.0% (95% CI: 5.7 to 11.0%), 9.0% (95% CI: 6.1 to 13.0%), respectively. Conclusions We conclude that O. tsutsugamushi exposure in humans occurred at all sites analysed and could be the cause of illness in some cases. Though it was not the main cause of acute fever in these locations, it is still important to consider scrub typhus in cases not responding to beta-lactam antibiotics. Future seroprevalence surveys and testing for scrub typhus in acute febrile illness studies will be essential to understand its distribution and burden in Indonesia. [ABSTRACT FROM AUTHOR]

Published

2024

4. Central nervous system infection in a pediatric population in West Java

Author

Alisjahbana, Dewi H., primary, Nurmawati, Syndi, additional, Milanti, Mia, additional, Djauhari, Hofiya, additional, Ledermann, Jeremy P., additional, Antonjaya, Ungke, additional, Dewi, Yora Permata, additional, Johar, Edison, additional, Wiyatno, Ageng, additional, Sriyani, Ida Yus, additional, Alisjahbana, Bachti, additional, Safari, Dodi, additional, Myint, Khin Saw Aye, additional, Powers, Ann M., additional, and Hakim, Dzulfikar DL, additional

Published

2023

5. Sosialisasi Pentingnya Perilaku Hidup Bersih dan Sehat (PHBS) dalam Pencegahan Penyakit Berbasis Lingkungan di Kelurahan Panjunan Kota Cirebon

Author

Khariri, Khariri, primary, Arwanih, Elly Yanah, additional, Amanah, Amanah, additional, Larasati, Manggiasih Dwiayu, additional, Antonjaya, Ungke, additional, Angka, Rebecca Noerjani, additional, Handayani, Nining, additional, Saputro, Angelina Riadi Alim, additional, Saputro, Angelica Riadi Alim, additional, Tuah, Aurelia Demtari, additional, Amanda, Clara Riski, additional, Utami, Mega Putri, additional, Andriany, Shafilla Yunilma, additional, Louisa, Melva, additional, and Laksono, Anom Bowo, additional

Published

2023

6. Seroprevalence of Chikungunya in an Asymptomatic Adult Population in North and South Sulawesi, Indonesia

Author

A. Jalloh, Mohammed, primary, Artika, I Made, additional, P. Dewi, Yora, additional, Syafruddin, Din, additional, Idris, Irfan, additional, B.B. Bernadus, Janno, additional, Telew, Agustevie, additional, S. Purwanto, Diana, additional, D. Rosita, Yoeke, additional, Antonjaya, Ungke, additional, and S.A. Myint, Khin, additional

Published

2023

7. Real-Time Polymerase Chain Reaction: Current Techniques, Applications, and Role in COVID-19 Diagnosis

Author

Artika, I Made, primary, Dewi, Yora Permata, additional, Nainggolan, Ita Margaretha, additional, Siregar, Josephine Elizabeth, additional, and Antonjaya, Ungke, additional

Published

2022

8. Neurological Disease Associated with Chikungunya in Indonesia

Author

Myint, Khin S. A., primary, Mawuntu, Arthur H. P., additional, Haryanto, Sotianingsih, additional, Imran, Darma, additional, Dian, Sofiati, additional, Dewi, Yora P., additional, Ganiem, Ahmad R., additional, Anggreani, Riane, additional, Iskandar, Mirna M., additional, Bernadus, Janno B. B., additional, Maharani, Kartika, additional, Susanto, David, additional, Estiasari, Riwanti, additional, Dewi, Hasna, additional, Kristiani, Amanda, additional, Gaghiwu, Lidia, additional, Johar, Edison, additional, Yudhaputri, Frilasita A., additional, Antonjaya, Ungke, additional, Ledermann, Jeremy P., additional, van Crevel, Reinout, additional, Hamers, Raph L., additional, and Powers, Ann M., additional

Published

2022

9. Seroprevalence of Chikungunya in an Asymptomatic Adult Population in North and South Sulawesi, Indonesia.

Author

Jalloh, Mohammed A., Artika, I. Made, Dewi, Yora P., Syafruddin, Din, Idris, Irfan, Bernadus, Janno B. B., Telew, Agustevie, Purwanto, Diana S., Rosita, Yoeke D., Antonjaya, Ungke, and Myint, Khin S. A.

Published

2023

10. Socializing One Health: an innovative strategy to investigate social and behavioral risks of emerging viral threats

Author

Saylors, Karen, Wolking, David J., Hagan, Emily, Martinez, Stephanie, Francisco, Leilani, Euren, Jason, Olson, Sarah H., Miller, Maureen, Fine, Amanda E., Thanh, Nga Nguyen Thi, Tran Minh, Phuc, Kalengkongan, Jusuf D., Kusumaningrum, Tina, Latinne, Alice, Pamungkas, Joko, Safari, Dodi, Saputro, Suryo, Bamba, Djeneba, Coulibaly, Kalpy Julien, Dosso, Mireille, Laudisoit, Anne, N'guettia Jean, Kouassi Manzan, Dutta, Shusmita, Islam, Ariful, Shano, Shahanaj, Mwanzalila, Mwokozi I., Trupin, Ian P., Gbakima, Aiah, Bangura, James, Yondah, Sylvester T., Karmacharya, Dibesh, Shrestha, Rima D., Kamta, Marcelle Annie Matsida, Mouiche, Mohamed Moctar Mouliom, Ndolo, Hilarion Moukala, Niama, Fabien Roch, Onikrotin, Dionne, Daszak, Peter, Johnson, Christine K., Mazet, Jonna A. K., Abaneh, Ola, Ababneh, Mustafa, Rafia, Jum, Sukor, Abd, Abdullah, Mohd Lufti, Abedin, Josefina, Abu-Basha, Ehab, Ali, Mohamed, Beal Akoundze, Junior, Akpaki, Joel, Al Hanandeh, Sief Addeen, Al Omari, Bilal, Al Shakil, Abdullah, Al-Zghoul, Mohammed, Albart, Stephenie Ann, Alshammari, Abdullah, Amarneh, Basil H., Ampofo, William, Andrew, Victoria, Ahn, Dao Le, Ankhanbaatar, Ulaankhuu, Anthony, Simon, Antonjaya, Ungke, Araya, Kidan, Arku, Jallah, Arshat, Norsharina, Asigbee, Theodore, Aung, Ohnmar, Awuni, Joseph, Ayukebong, James, Azian, Mohammed, Aziz, Nor Adilah, Ba, Aminata, Bassan, Ganzorig, Bagato, Ola, Bamba, Aboubacar, Bamba, Djenba, Barkhasbaatar, Ariunbaatar, Barrera, June, Basaraba, Cale, Bel-nono, Samuel, Belaganahalli, Manjunatha, Belay, Desalgen, Belkharia, Jaber, Binol, Ridzki M. F., Bird, Brian, Bista, Manisha, Biswas, Pitu, Blake, Matthew, Boatemaa, Linda, Bonason, Margret, Brandful, James, Brown, Joseph, Brownstein, John, Camara, Mamadi, Camara, Salif, Chai, Daniel, Chakraborty, Debapriyo, Chale, Hannah, Chaudhary, Ashok, Chea, Sokha, Chmura, Aleksei, Goossens, Benoit, Chow, Andrew, Churchill, Carolina, Commey, Abraham, Couacy-Hymann, Emmanuel, Coulibaly, Julien Kalpy, Cranfield, Michael, Damanik, Wirda, Damdinjav, Batchullum, Danial, Norhidayah, Dasak, Peter, David, Runie, Dawson, Patrick, Dembele, Arjouma, Deme, Awa, Desmond, James, Dewantari, Arghianditya Kresno, Dhanota, Jaseet, Dhole, Tapan, Diep, Nguyen Thi, Dionkounda, Artistide, Diop, Gaye Laye, Dodd, Kimberly, Dogby, Otilia, Dorjnyam, Tumendemberel, Dosso, Mireielle, Doumbouya, Kalil, Doumbouya, Mohamed Idriss, Doyle, Megan, Dramou, Simone, Drazenovich, Tracy, Duc Ahn, Dang, Duc Luu, Bach, Duendkae, Prateep, Duoc, Vu Trong, Duong, Tran Nhu, Duong, Veasna, Dursman, Huda, Dussart, Phillipe, Ee, Tan Jun, Ekiri, Abel, El Rifay, Amira S., El Shesheny, Rabel, El Taween, Ahmed N., Emmanuel, Zena Babu, Epstein, Jonathan H., Evans, Tierra Smiley, Fahmawi, Alaa, Fahn, Simeon, Feferholtz, Yasha, Ferdous, Jinnat, Fine, Amanda, Flora, Meerjady, Fransisco, Leilani, Fui Fui, Lem, Gabourie, Taylor, Gani, Millawati, Garbo, Michael, Gardner, Nicole, Gbamele, Marie, Ge, Xingyi, Gee, Lee Heng, Genovese, Brooke, Gibson, Alexandra, Gilardi, Kirsten, Gilbert, Martin, Gillis, Amethyst, Ginsos, Andrew, Godji Gnabro, Privat, Goldstein, Tracey, Gomaa, Moktar, Gomis, Jules, Gonzalez, Kevin, Grange, Zoe, Greig, Denise, Grodus, Michael, Gueu, Kpon Kakeuma Romeo, Gutierrez, Leticia, Haba, Dan Marcelin, Hamid, Suraya, Harris, Daniel K., Hashim, Abdul Kadir Abu, Hassan, Moushumi, Hassan, Quazar Nizamuddin, He, Qun, Hemachudha, Thiravat, Henry, Helen, Herbert, Ronald, Hijazeen, Zaidoun, Hilarion, Moukala Ndolo, Hill, Rebecca, Hoa, Nguyen Thi, Horwood, Paul, Hossain, Md. Enayet, Hossain, Saddam, Htun, Moh Moh, Hu, Ben, Hughes, Tom, Hul, Vibol, Van, Vo, Hussein, Fatima, Indola, Ghislain Dzeret, Iskandriati, Diah, Islam, Md. Tarikul, Islam, Shariful, Isnaim Ismail, Mohd, Ismail, Zuhair Bani, Iyanya, Jacques, Jaimin, Joel Judson, Jambai, Amara, Japning, Jeffrine Rovie Ryan, Japrin, Alexter, Jean Louis, Frantz, Joe, Titus, Johnson, Erica, Joly, Damien, Joshi, Jyotsna, Kalengkongan, Jusuf, Kalivogui, Douokoro, Kamara-Chieyoe, Nenneh, Kamau, Joseph, Kambale Syaluha, Eddy, Kandeil, Ahmed, Kane, Yogouba, Karesh, William, Kargo, Kandeh, Kasenda, Novie, Kayali, Ghazi, Kayed, Ahmed S., Kazwala, Rudovick, Ke, Changwen, Keates, Lucy, Kebede, Nigatu, Khamphaphongphane, Bouaphanh, Kheong, Chong Chee, Kilonzo, Christopher, Koffa, Ma-Sue, Kollie, Amos G., Kondiano, Marcel Sidik, Koropo, Michel, Kouamé Kouakou, Valere, Kouassi Koffi, Eugene, Kourouma, Mariam, Koutate, Abdoulaye Ousmane, Kowel, Citra Liv, Krou, Hermann Assemien, Kumakamba, Charles, Kutkat, Omnia, Lamah, François, Lan, Nguyen Thi, Lane, Jennifer, Lange, Christian, Larmouth, Emmanuel, Le Doux, Joseph Diffo, Leasure, Elizabeth, Leasure, Katherine, LeBreton, Mat, Lee, Jimmy, Lee, Helen, Lee, Mei Ho, Leno, Amara, Li, Hongying, Liang, Eliza, Liang, Neal, Lim, Dorothy, Lipkin, W. Ian, Liu, Jun, Lo, Modou Moustafa, Lojivis, Leonoris, Long, Nguyen Van, Lucas, Ashley, Lukusa, Jean Paul, Lungay, Victor, Lushima, Shongo, Lutwama, Julius, Ma, Wenjun, Machalaba, Catherine, Maganga, Grace, Magesa, Walter Simon, Mahmoud, Sara H., Makuwa, Maria, Makweta, Asha, Mamun, Abdullah Al, Manandhar, Prajwol, Maneeorn, Patarapol, Mann, Harjeet, Maomy, Bhele, Maptue, Victorine, Mathew, Alice, Mavoungou, Yanne Vanessa, Maw, Min Thein, Mazet, Jonna, Mbala, Placide, Mbuba, Emmanuel, Mbunwe, Eric, McIver, David, Mendelsohn, Emma, Miegakanda, Valchy Bel-Bebi, Minh, Phan Quang, Mkali, Happy, Moatasim, Yassmin, Mombouli, Jean Vivien, Monagin, Corina, Montecino-Latorre, Diego, Mossoun Mossoun, Arsene, Mostafa, Ahmed, Mouiche, Moctar, Mpassi, Romain Bagamboula, Msigwa, Alphonce, Mudakikwa, Antoine, Mugok, Laura Benedict, Mulembakani, Prime, Murray, Suzan, Musa, Fakhrul Hatta, Musabimana, Pacifique, Mutura, Samson, Mwamlima, Tunu, Mwanzanilla, Mwokozi, Myaing, Tin Tin, Myat, Theingi Win, Myo Chit, Aung, N’faly, Magassouba, N’Guettia, Manzan Jean, N’télo, Anatole, Nakimera, Sylivia, Nam, Vu Sinh, Napit, Rajindra, Nathan, Senthilvel K. S. S., Navarrete-Macias, Isamara, Ndebe, Kortu M., Ndiaye, Amadou, Ndiaye, Daouda, Negash, Yohannes, Nga, Nguyen Thi Thanh, Ngay, Ipos, Ngoc, Pham Thi Bich, Niama, Fabien, Nina, Rock Aimé, Niyonzima, Schadrack, Nkom, Felix, Nkoua, Cynthia, Noordin, Noorliza, Noviana, Rachmitasari, Nwobegahay, Julius, Nziza, Julius, O’Rourke, Daniel, O’Rourke, Tammie, Obodai, Evangeline, Okello Okwir, Ricky, Olival, Kevin, Olson, Sarah, Olva, Onkirotin Dionne, Ontiveros, Victoria, Opook, Fernandes, Panchadcharam, Chandrawathani, Pandit, Pranav, Parra, Henri-Joseph, Phuc, Tran Minh, Phuong, Nguyen Thanh, Poultolnor, Jackson Y., Pradhan, Saman, Preston, Eunah Cho, Pruvot, Mathieu, Purevtseren, Dulam, Puri, Dhiraj, Quang, Le Tin Vinh, Rachmitasari, Novie, Rahman, Kaisar, Rahman, Mizanur, Rahman, Mohammed Ziaur, Rahman, Mustafizur, Ramirez, Diana, Randhawa, Nistara, Raut, Samita, Rosario, Joseph, Ross, Albert, Ross, Noam, Rostal, Melinda, Roualdes, Pamela, Rubin, Eddy, Rumi, Aftab Uddin, Rundi, Christina, Sackie, Melkor, Sajali, Zikankuba, Samuels, Sandra G, Sango, Mathias, Saptu, Ammar Rafidah, Saraka, Daniel N’guessan, Sartee, Alvis A., Sayandouno, Sia Alida, Seck, Mame Cheikh, Sedor, Victoria, Sharma, Ajay Narayan, Sharminie, Velsri, Shehata, Mahmoud M., Sheikh, Gafur, Shi, Zhengli, Shiilegdamba, Enkhtuvshin, Shrestha, Bishwo, Shrestha, Rima, Sidibey, Mohammed, Silithammavong, Soubanh, Simon, Daniel, Sion, Emilly, Sipangkui, Symphorosa, Sitam, Frankie Thomas, Smith, Brett, Smith, Bridgette, Smith, Woutrina, Sodnom, Batsikhan, Ssebide, Benard, Suleiman, Maria, Sullivan, Ava, Sungif, Nur Amirah, Suu-Ire, Richard, Sy, Mouhamed, Takuo, Jean Michel, Talafha, Hani, Tamoufe, Ubald, Tetteh, Emmanuel, Than Toe, Aung, Thanda, Lanash, Thanh Long, Ngo, Thein, Wai Zin, Theppangna, Watthana, Thinh, Nguyen Duc, Thuy, Hoang Bich, Thuy, Nguyen Thu, Togami, Eri, Tolno, Moise Bendoua, Tolovou, Kevin, Topani, Rahmat, Tremeau-Bravard, Alexandre, Trupin, Ian, Tumushime, Jean Claude, Tun, Kyaw Yan Naing, Turay, Joseph, Uddin, Helal, Uhart, Marcela, Ureda, Nicole, Valitutto, Marc, Verasahib, Khebir, Vodzak, Megan, Wacharapluesadee, Supaporn, Wahad, Mohammad Yuery Wazlan Abdul, Watson, Brooke, Wells, Heather, White, Allison, Willoughby, Anna, Wiyatno, Ageng, Wolking, David, Yang, Xinglou, Yao, Lim Ming, Yombouno, Sayon, Young, Cristin, Zambrana-Torrelio, Carlos, Zeid, Zahidah Izzati, Zghoul, Ghadeer, Zhang, Libiao, Zhang, Yunzhi, Zhu, Guangjian, Zimmerman, Dawn, Zoumarou, Daba, Aguirre, Alonso, Aguirre, Luis, Akongo, Mark-Joel, Alandia Robles, Erika, Ambu, Laurentius, Ayala Aguilar, Glenda, Barcena, Luis, Barradas, Rosario, Basir, Misliah Mohamad, Bogich, Tiffany, Bounga, Gerard, Buchy, Philippe, Bunn, David, Byaruba, Denis, Cameron, Ken, Carroll, Dennis, Cavero, Nancy, Cespedes, Manuel, Che, Xiaoyu, Chiu, Charles, Chor, Kimashalen, Clements, Andrew, Dary Acevedo, Luz, de Almeida Campos, Angelica, De La Puente, Micaela, de Lamballerie, Xavier, de Paula, Catia, Delwart, Eric, Diffo Le Doux, Joseph, Doyle-Capitman, Catherine, Durigon, Edison, Fair, Joseph, Ferrer-Paris, José R., Formenty, Pierre, Galarza, Isabel, Garcia, Joel, Grard, Gilda, Greatorex, Zoe, Harris, Laurie, Hitchens, Peta, Ho, Mei, Hosseini, Parviez, In, Samath, Iñíguez, Volga, Jain, Komal, Jamaluddin, Abd. Aziz, Johnson, Christine, Jones, Kate, Joyner, Priscilla, Kaba, Serge, Kambale, Eddy, Kataregga, Abdulhameed, Kelly, Terra, Khammavong, Kongsy, Kilpatrick, A. Marm, Laimun, Samsir, Lee, Mei-Ho, LeRoy, Eric, Levinson, Jordan, Levy, Marc, Limachi, Rolando, Loh, Elizabeth, Lowenstine, Linda J., Luis Mollericona, José, Maganga, Ruth, Malakalinga, Joseph, Manhas, Melissa, Marra, Pete, Mbabazi, Rachael, Medellín, Rodrigo, Mendoza, Patricia, Miller, Sireeda, Miranda, Flavia, Mitchell, Megan, Mohamed, Ramlan, Mollard, Debbie, Morse, Stephen, Mouellet, Wivine, Moya, Isabel, Murillo, Yovanna, Murray, Kris, Muyembe Tamfum, Jean-Jacques, Nassar, Fernando, Nathan, Sen, Nsengimana, Olivier, Ogg Keatts, Lucy, Ojeda-Flore, Rafael, Okwir Okello, Ricky, Ondzie, Alain, Paweska, Janusz, Pereira, Alisa, Pereira, Victoria, Perez, Alberto, Perez, Jocelyn, Phon, Simorn, Reed, Patricia, Rejmanek, Dan, Rico, Oscar, Rivera, Rosario, Romero, Monica, Roy, Celina, Saepuloh, Uus, Schneider, Brad, Schwind, Jessica, Singhalath, Sinpakhome, Smith, Kristine, Suárez, Fabiola, Suzan, Gerardo, Thanh Nga, Nguyen Thi, Thomas, Kate, Ticona, Herminio, VanWormer, Elizabeth, Villar, Sandra, Weisman, Wendy, Westfall, Michael, Whittier, Chris, Wicker, Leanne, Wolfe, Nathan, Yang, Angela, Zariquiey, Carlos, Zhang, Shu-Yi, Zorine Nkouants, Baudelaire, Zainuddin, Zainal, Chrisman, Cara, Pabst, August, Shek, Amalhin, and Trostle, Murray

Subjects

0301 basic medicine, Behavioral risk, medicine.medical_specialty, Behavioural sciences, Disease, Community integration, Basic Behavioral and Social Science, 03 medical and health sciences, 0302 clinical medicine, Clinical Research, 2.3 Psychological, Behavioral and Social Science, Agency (sociology), medicine, 2.2 Factors relating to the physical environment, GE1-350, Aetiology, One health, Social science research, business.industry, Prevention, Research, Public health, PREDICT Consortium, Public relations, Focus group, Environmental sciences, Good Health and Well Being, 030104 developmental biology, One Health, Multi-disciplinary surveillance, social and economic factors, Public aspects of medicine, RA1-1270, Infection, Psychology, International development, business, 030217 neurology & neurosurgery

Abstract

In an effort to strengthen global capacity to prevent, detect, and control infectious diseases in animals and people, the United States Agency for International Development’s (USAID) Emerging Pandemic Threats (EPT) PREDICT project funded development of regional, national, and local One Health capacities for early disease detection, rapid response, disease control, and risk reduction. From the outset, the EPT approach was inclusive of social science research methods designed to understand the contexts and behaviors of communities living and working at human-animal-environment interfaces considered high-risk for virus emergence. Using qualitative and quantitative approaches, PREDICT behavioral research aimed to identify and assess a range of socio-cultural behaviors that could be influential in zoonotic disease emergence, amplification, and transmission. This broad approach to behavioral risk characterization enabled us to identify and characterize human activities that could be linked to the transmission dynamics of new and emerging viruses. This paper provides a discussion of implementation of a social science approach within a zoonotic surveillance framework. We conducted in-depth ethnographic interviews and focus groups to better understand the individual- and community-level knowledge, attitudes, and practices that potentially put participants at risk for zoonotic disease transmission from the animals they live and work with, across 6 interface domains. When we asked highly-exposed individuals (ie. bushmeat hunters, wildlife or guano farmers) about the risk they perceived in their occupational activities, most did not perceive it to be risky, whether because it was normalized by years (or generations) of doing such an activity, or due to lack of information about potential risks. Integrating the social sciences allows investigations of the specific human activities that are hypothesized to drive disease emergence, amplification, and transmission, in order to better substantiate behavioral disease drivers, along with the social dimensions of infection and transmission dynamics. Understanding these dynamics is critical to achieving health security--the protection from threats to health-- which requires investments in both collective and individual health security. Involving behavioral sciences into zoonotic disease surveillance allowed us to push toward fuller community integration and engagement and toward dialogue and implementation of recommendations for disease prevention and improved health security. Supplementary Information The online version contains supplementary material available at 10.1186/s42522-021-00036-9.

Published

2021

11. Echovirus-7 Infection in Children with Unusual Severe Manifestation: A Case Report

Author

Pudjiadi, Antonius Hocky, primary, Antonjaya, Ungke, additional, Myint, Khin Saw, additional, and Alatas, Fatima Safira, additional

Published

2021

12. Detection of dengue virus serotype 1 in central nervous system of a child in Bandung, West Java: A case report

Author

Alisjahbana, Dewi Hawani, primary, Nurmawati, Syndi, additional, Hakim, Dzulfikar DL, additional, Milanti, Mia, additional, Dewi, Yora Permata, additional, Johar, Edison, additional, Myint, Khin Saw Aye, additional, Lederman, Jeremy P, additional, Powers, Ann M, additional, Alisjahbana, Bachti, additional, and Antonjaya, Ungke, additional

Published

2021

13. Comparison of Commercial Enzyme-Linked Immunosorbent Assay and Immunofluorescence Assay for Diagnosis of AcuteRickettsia typhiInfections

Author

Lokida, Dewi, primary, Sudarmono, Pratiwi, additional, Kosasih, Herman, additional, Butar-butar, Deni Pepy, additional, Salim, Gustiani, additional, Antonjaya, Ungke, additional, Sari, Rizky Amalia, additional, Aman, Abu Tholib, additional, Parwati, Ida, additional, Arif, Mansyur, additional, Lau, Chuen-Yen, additional, and Karyana, Muhammad, additional

Published

2020

14. Isolation of Zika virus from febrile patient, Indonesia

Author

Perkasa, Aditya, Yudhaputri, Frilasita, Haryanto, Sotianingsih, Hayati, Rahma F., Maroef, Chairin Nisa, Antonjaya, Ungke, Yohan, Benediktus, Myint, Khin Saw Aye, Ledermann, Jeremy P., Rosenberg, Ronald, Powers, Ann M., and Sasmono, R. Tedjo

Subjects

Health

Abstract

To the Editor: Arthropodborne viruses (arboviruses) cause substantial human disease worldwide and have a pronounced effect on public health throughout Asia. Zika virus, discovered in Uganda in 1947 (1), is [...]

Published

2016

15. Comparison of Commercial Enzyme-Linked Immunosorbent Assay and Immunofluorescence Assay for Diagnosis of Acute Rickettsia typhi Infections.

Author

Lokida, Dewi, Sudarmono, Pratiwi, Kosasih, Herman, Butar-butar, Deni Pepy, Salim, Gustiani, Antonjaya, Ungke, Sari, Rizky Amalia, Aman, Abu Tholib, Parwati, Ida, Arif, Mansyur, Lau, Chuen-Yen, and Karyana, Muhammad

Subjects

ENZYME-linked immunosorbent assay, IMMUNOFLUORESCENCE, RICKETTSIA, TROPICAL medicine, DIAGNOSIS

Abstract

Murine typhus is a tropical disease caused by Rickettsia typhi and is endemic in resource-limited settings such as Southeast Asian countries. Early diagnosis of R. typhi infection facilitates appropriate management and reduces the risk of severe disease. However, molecular detection of R. typhi in blood is insensitive due to low rickettsemia. Furthermore, the gold standard of sero-diagnosis by immunofluorescence assay (IFA) is cumbersome, subjective, impractical, and unavailable in many endemic areas. In an attempt to identify a practical diagnostic approach that can be applied in Indonesia, we evaluated the performance of commercial R. typhi IgM and IgG enzyme-linked immunosorbent assay (ELISA) and IFA using paired plasma from previously studied R. typhi PCR-positive cases and controls with other known infections. Sensitivity and specificity of combined ELISA IgM and IgG anti-R. typhi using paired specimens were excellent (95.0% and 98.3%, respectively), comparable to combined IFA IgM and IgG (97.5% and 100%, respectively); sensitivity of ELISA IgM from acute specimens only was poor (45.0%), but specificity was excellent (98.3%). IFA IgM was more sensitive (77.5%), but less specific (89.7%) for single specimens. [ABSTRACT FROM AUTHOR]

Published

2020

16. Detection and identification of coxsackievirus B3 from sera of an Indonesian patient with undifferentiated febrile illness

Author

Wiyatno, Ageng, primary, Antonjaya, Ungke, additional, Ma'roef, Chairin Nisa, additional, Riswari, Silvita Fitri, additional, Djauhari, Hofiya, additional, Artika, I Made, additional, Monagin, Corina, additional, Schneider, Bradley S., additional, Myint, Khin Saw, additional, Alisjahbana, Bachti, additional, Safari, Dodi, additional, and Kosasih, Herman, additional

Published

2016

17. Assessment of Point-of-Care Diagnostics for G6PD Deficiency in Malaria Endemic Rural Eastern Indonesia

Author

Satyagraha, Ari W., primary, Sadhewa, Arkasha, additional, Elvira, Rosalie, additional, Elyazar, Iqbal, additional, Feriandika, Denny, additional, Antonjaya, Ungke, additional, Oyong, Damian, additional, Subekti, Decy, additional, Rozi, Ismail E., additional, Domingo, Gonzalo J., additional, Harahap, Alida R., additional, and Baird, J. Kevin, additional

Published

2016

18. West Nile Virus Documented in Indonesia from Acute Febrile Illness Specimens

Author

Myint, Khin Saw Aye, primary, Powers, Ann M., additional, Ledermann, Jeremy P., additional, Antonjaya, Ungke, additional, Ma'roef, Chairin Nisa, additional, Puspita, Mita, additional, Alisjahbana, Bachti, additional, Perkasa, Aditya, additional, Artika, I. Made, additional, and Kosasih, Herman, additional

Published

2014

19. Rickettsial Infections of Fleas Collected From Small Mammals on Four Islands in Indonesia

Author

NAVY ENVIRONMENTAL AND PREVENTIVE MEDICINE UNIT NO 2 NORFOLK VA, Barbara, Kathryn A, farzeli, Arik, Ibrahim, Ima N, Antonjaya, Ungke, Yunianto, Andre, Winoto, Imelda, Ester, Perwitasari, Dian, Widjava, Susana, Richards, Allen L, NAVY ENVIRONMENTAL AND PREVENTIVE MEDICINE UNIT NO 2 NORFOLK VA, Barbara, Kathryn A, farzeli, Arik, Ibrahim, Ima N, Antonjaya, Ungke, Yunianto, Andre, Winoto, Imelda, Ester, Perwitasari, Dian, Widjava, Susana, and Richards, Allen L

Abstract

Ectoparasites were sampled from small mammals collected in West Java, West Sumatra North Sulawesi, and East Kalimantan, Indonesia, in 2007-2008 and were screened for evidence of infection from bacteria in the Rickettsaceae family. During eight trap nights at eight sites, 208 fleas were collected from 96 of 507 small mammals trapped from four orders (379 Rodentia; 123 Soricomorpha two Carnivora; three Scandentia). Two species of fleas were collected: Xenopsylla cheopis ( n = 204) and Nosopsyllus spp. ( n = 4). Among the 208 fleas collected, 171 X. cheopis were removed from rats (Rattus spp.) and 33 X. cheopis from shrews ( Suncus murinus). X. cheopis were pooled and tested for DNA from rickettsial agents Rickettsia typhi, Rickettsia felis, and spotted fever group rickettsiae. R. typhi, the agent of murine typhus, was detected in X. cheopis collected from small mammals in West Java and East Kalimantan. R.felis was detected in X. cheopis collected from small mammals in Manado, North Sulawesi. R. felis and spotted fever group rickettsiae were detected in a pool of X. cheopis collected from an animal in East Kalimantan. Sixteen percent of the X. cheopis pools were found positive for Rickettsia spp.; four (10.8%) R. typhi, one (2.7%) R. felis, and one (2.7%) codetection of R.felis and a spotted fever group rickettsia. These data suggest that rickettsial infections remain a threat to human health across Indonesia.

Published

2010

20. Evidence for Endemic Chikungunya Virus Infections in Bandung, Indonesia

Author

Kosasih, Herman, primary, de Mast, Quirijn, additional, Widjaja, Susana, additional, Sudjana, Primal, additional, Antonjaya, Ungke, additional, Ma'roef, Chairin, additional, Riswari, Silvita Fitri, additional, Porter, Kevin R., additional, Burgess, Timothy H., additional, Alisjahbana, Bachti, additional, van der Ven, Andre, additional, and Williams, Maya, additional

Published

2013

21. The Epidemiology, Virology and Clinical Findings of Dengue Virus Infections in a Cohort of Indonesian Adults in Western Java.

Author

Kosasih, Herman, Alisjahbana, Bachti, Nurhayati, null, de Mast, Quirijn, Rudiman, Irani F., Widjaja, Susana, Antonjaya, Ungke, Novriani, Harli, Susanto, Nugroho H., Jusuf, Hadi, van der Ven, Andre, Beckett, Charmagne G., Blair, Patrick J., Burgess, Timothy H., Williams, Maya, and Porter, Kevin R.

Subjects

DENGUE, EPIDEMIOLOGY, VIROLOGY, SYMPTOMS, DISEASES in adults

Abstract

Background: Dengue has emerged as one of the most important infectious diseases in the last five decades. Evidence indicates the expansion of dengue virus endemic areas and consequently the exponential increase of dengue virus infections across the subtropics. The clinical manifestations of dengue virus infection include sudden fever, rash, headache, myalgia and in more serious cases, spontaneous bleeding. These manifestations occur in children as well as in adults. Defining the epidemiology of dengue in a given area is critical to understanding the disease and devising effective public health strategies. Methodology/Principal Findings: Here, we report the results from a prospective cohort study of 4380 adults in West Java, Indonesia, from 2000–2004 and 2006–2009. A total of 2167 febrile episodes were documented and dengue virus infections were confirmed by RT-PCR or serology in 268 cases (12.4%). The proportion ranged from 7.6 to 41.8% each year. The overall incidence rate of symptomatic dengue virus infections was 17.3 cases/1,000 person years and between September 2006 and April 2008 asymptomatic infections were 2.6 times more frequent than symptomatic infections. According to the 1997 WHO classification guidelines, there were 210 dengue fever cases, 53 dengue hemorrhagic fever cases (including one dengue shock syndrome case) and five unclassified cases. Evidence for sequential dengue virus infections was seen in six subjects. All four dengue virus serotypes circulated most years. Inapparent dengue virus infections were predominantly associated with DENV-4 infections. Conclusions/Significance: Dengue virus was responsible for a significant percentage of febrile illnesses in an adult population in West Java, Indonesia, and this percentage varied from year to year. The observed incidence rate during the study period was 43 times higher than the reported national or provincial rates during the same time period. A wide range of clinical severity was observed with most infections resulting in asymptomatic disease. The circulation of all four serotypes of dengue virus was observed in most years of the study. [ABSTRACT FROM AUTHOR]

Published

2016

22. Evidence of Human Hantavirus Infection and Zoonotic Investigation of Hantavirus Prevalence in Rodents in Western Java, Indonesia

Author

Kosasih, Herman, primary, Ibrahim, Ima Nurisa, additional, Wicaksana, Rudi, additional, Alisjahbana, Bachti, additional, Hoo, Yumilia, additional, Yo, Iing H., additional, Antonjaya, Ungke, additional, Widjaja, Susana, additional, Winoto, Imelda, additional, Williams, Maya, additional, and Blair, Patrick J., additional

Published

2011

23. H5N1 Surveillance in Migratory Birds in Java, Indonesia

Author

Stoops, Arthur C., primary, Barbara, Katie A., additional, Indrawan, Mochamad, additional, Ibrahim, Ima N., additional, Petrus, Wicaksana B., additional, Wijaya, Susan, additional, Farzeli, Arik, additional, Antonjaya, Ungke, additional, Sin, Lim W., additional, Hidayatullah, N., additional, Kristanto, Ige, additional, Tampubolon, A.M., additional, Purnama, S., additional, Supriatna, Adam, additional, Burgess, Timothy H., additional, Williams, Maya, additional, Putnam, Shannon D., additional, Tobias, Steve, additional, and Blair, Patrick J., additional

Published

2009

24. Short Report: West Nile Virus Documented in Indonesia from Acute Febrile Illness Specimens.

Author

Khin Saw Aye Myint, Kosasih, Herman, Artika, I. Made, Perkasa, Aditya, Puspita, Mita, Ma'roef, Chairin Nisa, Antonjaya, Ungke, Ledermann, Jeremy P., Powers, Ann M., and Alisjahbana, Bachti

Published

2014

25. Rickettsial Infections of Fleas Collected from Small Mammals on Four Islands in Indonesia

Author

Barbara, Kathryn A., Farzeli, Arik, Ibrahim, Ima N., Antonjaya, Ungke, Yunianto, Andre, Winoto, Imelda, Ester, Perwitasari, Dian, Widjaya, Susana, Richards, Allen L., Williams, Maya, and Blair, Patrick J.

Published

2010

26. Seroprevalence of Chikungunya in an Asymptomatic Adult Population in North and South Sulawesi, Indonesia.

Author

A Jalloh M, Artika IM, P Dewi Y, Syafruddin D, Idris I, B B Bernadus J, Telew A, S Purwanto D, D Rosita Y, Antonjaya U, and S A Myint K

Subjects

Adult, Humans, Indonesia epidemiology, Seroepidemiologic Studies, Antibodies, Viral, Immunoglobulin G, Chikungunya Fever

Abstract

Chikungunya (CHIK) is an emerging and reemerging infectious disease of public health importance in Indonesia. Information on the asymptomatic and true burden of CHIK virus (CHIKV) infections is limited. We assayed 1,092 healthy population samples, collected in North and South Sulawesi between 2019 and 2020, for antibodies against CHIKV. Blood samples were screened by IgM and IgG ELISAs and quantitative real-time reverse transcription polymerase chain reaction (qRT-PCR) assay. CHIKV IgG seroprevalence in North and South Sulawesi was 53.2% and 53.9%, respectively. The overall prevalence of anti-CHIKV IgM antibody was 12.9%. Molecular testing of blood donors revealed 0.66% (2/300) were positive for CHIKV qRT-PCR. Our study provides new insights into the CHIKV endemicity situation in the eastern part of Indonesia and warrants the need for further systematic surveillance considering there is no treatment or vaccine for CHIK infection.

Published

2022

27. Comparison of Commercial Enzyme-Linked Immunosorbent Assay and Immunofluorescence Assay for Diagnosis of Acute Rickettsia typhi Infections.

Author

Lokida D, Sudarmono P, Kosasih H, Butar-Butar DP, Salim G, Antonjaya U, Sari RA, Aman AT, Parwati I, Arif M, Lau CY, and Karyana M

Subjects

Antibodies, Bacterial blood, Humans, Immunoglobulin G blood, Immunoglobulin M blood, Indonesia, Sensitivity and Specificity, Enzyme-Linked Immunosorbent Assay methods, Fluorescent Antibody Technique methods, Rickettsia typhi immunology, Typhus, Endemic Flea-Borne diagnosis

Abstract

Murine typhus is a tropical disease caused by Rickettsia typhi and is endemic in resource-limited settings such as Southeast Asian countries. Early diagnosis of R. typhi infection facilitates appropriate management and reduces the risk of severe disease. However, molecular detection of R. typhi in blood is insensitive due to low rickettsemia. Furthermore, the gold standard of sero-diagnosis by immunofluorescence assay (IFA) is cumbersome, subjective, impractical, and unavailable in many endemic areas. In an attempt to identify a practical diagnostic approach that can be applied in Indonesia, we evaluated the performance of commercial R. typhi IgM and IgG enzyme-linked immunosorbent assay (ELISA) and IFA using paired plasma from previously studied R. typhi PCR-positive cases and controls with other known infections. Sensitivity and specificity of combined ELISA IgM and IgG anti- R. typhi using paired specimens were excellent (95.0% and 98.3%, respectively), comparable to combined IFA IgM and IgG (97.5% and 100%, respectively); sensitivity of ELISA IgM from acute specimens only was poor (45.0%), but specificity was excellent (98.3%). IFA IgM was more sensitive (77.5%), but less specific (89.7%) for single specimens.

Published

2020

28. Evidence of human hantavirus infection and zoonotic investigation of hantavirus prevalence in rodents in western Java, Indonesia.

Author

Kosasih H, Ibrahim IN, Wicaksana R, Alisjahbana B, Hoo Y, Yo IH, Antonjaya U, Widjaja S, Winoto I, Williams M, and Blair PJ

Subjects

Adult, Animals, Antibodies, Viral blood, Hantavirus Infections immunology, Humans, Immunoglobulin G blood, Immunoglobulin M blood, Indonesia epidemiology, Male, Population Surveillance, Prevalence, Hantavirus Infections epidemiology, Rodentia virology, Zoonoses epidemiology

Abstract

During febrile surveillance in the western Java City of Bandung, Indonesia, a patient with clinical symptoms consistent with hantavirus infection was found to have elevated titers of hantavirus-specific immunoglobulin M (IgM) and IgG antibodies. A subsequent epizoological investigation demonstrated a higher prevalence of hantavirus IgG antibodies in rodents trapped in the vicinity of the patient's home compared with rodents from a control area (13.2% vs. 4.7%, p = 0.036). The Old World Seoul hantavirus was detected by reverse transcriptase-polymerase chain reaction in the organs of 71% of the seropositive rodents tested. This is the first report of a Seoul virus infection in Indonesia supported by clinical, serological, and epizoological evidences. These findings suggest that hantavirus infection should be on the clinical differential diagnosis when acutely ill febrile patients report for care in western Java.

Published

2011

29. H5N1 surveillance in migratory birds in Java, Indonesia.

Author

Stoops AC, Barbara KA, Indrawan M, Ibrahim IN, Petrus WB, Wijaya S, Farzeli A, Antonjaya U, Sin LW, Hidayatullah N, Kristanto I, Tampubolon AM, Purnama S, Supriatna A, Burgess TH, Williams M, Putnam SD, Tobias S, and Blair PJ

Subjects

Animal Migration, Animals, Birds virology, Cloaca virology, Databases, Nucleic Acid, Enzyme-Linked Immunosorbent Assay veterinary, Indonesia, Influenza A Virus, H5N1 Subtype genetics, Influenza A Virus, H5N1 Subtype immunology, Influenza in Birds blood, Pharynx virology, Phylogeny, Population Surveillance, Prevalence, Reverse Transcriptase Polymerase Chain Reaction veterinary, Antibodies, Viral analysis, Influenza A Virus, H5N1 Subtype isolation & purification, Influenza in Birds epidemiology, Influenza in Birds virology

Abstract

We sought to elucidate the role of migratory birds in transmission of H5N1 in an enzoonotic area. Resident, captive, and migratory birds were sampled at five sites in Java, Indonesia. Mist nets were used to trap birds. Birds were identified to species. RNA was extracted from swabs and reverse transcriptase polymerase chain reaction (RT-PCR) conducted for the HA and M genes of H5N1. Antibodies were detected by enzyme-linked immunosorbent assay and hemagglutination inhibition test. Between October 2006 and September 2007, a total of 4,067 captive, resident, and migratory birds comprising 98 species in 23 genera were sampled. The most commonly collected birds were the common sandpiper (6% of total), striated heron (3%), and the domestic chicken (14%). The overall prevalence of H5N1 antibodies was 5.3%. A significantly higher percentage of captive birds (16.1%) showed antibody evidence of H5N1 exposure when compared to migratory or resident birds. The greatest number of seropositive birds in each category were Muschovy duck (captive), striated heron (resident), and the Pacific golden plover (migratory). Seven apparently well captive birds yielded molecular evidence of H5N1 infection. Following amplification, the HA, NA, and M genes were analyzed. Phylogenetic analysis of the HA gene showed that the isolates were 97% similar to EU124153.1 A/chicken/West Java/Garut May 2006, an isolate obtained in a similar region of West Java. While no known markers of neuraminidase inhibitor resistance were found within the NA gene, M segment analysis revealed the V27A mutation known to confer resistance to adamantanes. Our results demonstrate moderate serologic evidence of H5N1 infection in captive birds, sampled in five sites in Java, Indonesia, but only occasional infection in resident and migratory birds. These data imply that in an enzoonotic region of Indonesia the role of migratory birds in transmission of H5N1 is limited.

Published

2009