14 results on '"Mouiche, Moctar"'
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2. Author Correction: Predicting the potential for zoonotic transmission and host associations for novel viruses
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Pandit, Pranav S., Anthony, Simon J., Goldstein, Tracey, Olival, Kevin J., Doyle, Megan M., Gardner, Nicole R., Bird, Brian, Smith, Woutrina, Wolking, David, Gilardi, Kirsten, Monagin, Corina, Kelly, Terra, Uhart, Marcela M., Epstein, Jonathan H., Machalaba, Catherine, Rostal, Melinda K., Dawson, Patrick, Hagan, Emily, Sullivan, Ava, Li, Hongying, Chmura, Aleksei A., Latinne, Alice, Lange, Christian, O’Rourke, Tammie, Olson, Sarah, Keatts, Lucy, Mendoza, A. Patricia, Perez, Alberto, de Paula, Cátia Dejuste, Zimmerman, Dawn, Valitutto, Marc, LeBreton, Matthew, McIver, David, Islam, Ariful, Duong, Veasna, Mouiche, Moctar, Shi, Zhengli, Mulembakani, Prime, Kumakamba, Charles, Ali, Mohamed, Kebede, Nigatu, Tamoufe, Ubald, Bel-Nono, Samuel, Camara, Alpha, Pamungkas, Joko, Coulibaly, Kalpy J., Abu-Basha, Ehab, Kamau, Joseph, Silithammavong, Soubanh, Desmond, James, Hughes, Tom, Shiilegdamba, Enkhtuvshin, Aung, Ohnmar, Karmacharya, Dibesh, Nziza, Julius, Ndiaye, Daouda, Gbakima, Aiah, sajali, Zikankuba, Wacharapluesadee, Supaporn, Robles, Erika Alandia, Ssebide, Benard, Suzán, Gerardo, Aguirre, Luis F., Solorio, Monica R., Dhole, Tapan N., Nga, Nguyen T. T., Hitchens, Peta L., Joly, Damien O., Saylors, Karen, Fine, Amanda, Murray, Suzan, Karesh, William B., Daszak, Peter, Mazet, Jonna A. K., and Johnson, Christine K.
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- 2023
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3. Wildlife in Cameroon harbor diverse coronaviruses, including many closely related to human coronavirus 229E.
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Ntumvi, Nkom, Ndze, Valantine, Gillis, Amethyst, Le Doux Diffo, Joseph, Tamoufe, Ubald, Takuo, Jean-Michel, Mouiche, Moctar, Nwobegahay, Julius, LeBreton, Matthew, Rimoin, Anne, Schneider, Bradley, Monagin, Corina, McIver, David, Roy, Sanjit, Ayukekbong, James, Saylors, Karen, Joly, Damien, Wolfe, Nathan, Rubin, Edward, and Lange, Christian
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Coronavirus ,HCoV-229E ,bats ,cameroon ,seasonality ,wildlife - Abstract
Zoonotic spillover of animal viruses into human populations is a continuous and increasing public health risk. Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) highlights the global impact of emergence. Considering the history and diversity of coronaviruses (CoVs), especially in bats, SARS-CoV-2 will likely not be the last to spillover from animals into human populations. We sampled and tested wildlife in the Central African country Cameroon to determine which CoVs are circulating and how they relate to previously detected human and animal CoVs. We collected animal and ecological data at sampling locations and used family-level consensus PCR combined with amplicon sequencing for virus detection. Between 2003 and 2018, samples were collected from 6,580 animals of several different orders. CoV RNA was detected in 175 bats, a civet, and a shrew. The CoV RNAs detected in the bats represented 17 different genetic clusters, coinciding with alpha (n = 8) and beta (n = 9) CoVs. Sequences resembling human CoV-229E (HCoV-229E) were found in 40 Hipposideridae bats. Phylogenetic analyses place the human-derived HCoV-229E isolates closest to those from camels in terms of the S and N genes but closest to isolates from bats for the envelope, membrane, and RNA-dependent RNA polymerase genes. The CoV RNA positivity rate in bats varied significantly (P
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- 2022
4. Predicting the potential for zoonotic transmission and host associations for novel viruses
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Pandit, Pranav S, Anthony, Simon J, Goldstein, Tracey, Olival, Kevin J, Doyle, Megan M, Gardner, Nicole R, Bird, Brian, Smith, Woutrina, Wolking, David, Gilardi, Kirsten, Monagin, Corina, Kelly, Terra, Uhart, Marcela M, Epstein, Jonathan H, Machalaba, Catherine, Rostal, Melinda K, Dawson, Patrick, Hagan, Emily, Sullivan, Ava, Li, Hongying, Chmura, Aleksei A, Latinne, Alice, Lange, Christian, O’Rourke, Tammie, Olson, Sarah, Keatts, Lucy, Mendoza, A Patricia, Perez, Alberto, de Paula, Cátia Dejuste, Zimmerman, Dawn, Valitutto, Marc, LeBreton, Matthew, McIver, David, Islam, Ariful, Duong, Veasna, Mouiche, Moctar, Shi, Zhengli, Mulembakani, Prime, Kumakamba, Charles, Ali, Mohamed, Kebede, Nigatu, Tamoufe, Ubald, Bel-Nono, Samuel, Camara, Alpha, Pamungkas, Joko, Coulibaly, Kalpy J, Abu-Basha, Ehab, Kamau, Joseph, Silithammavong, Soubanh, Desmond, James, Hughes, Tom, Shiilegdamba, Enkhtuvshin, Aung, Ohnmar, Karmacharya, Dibesh, Nziza, Julius, Ndiaye, Daouda, Gbakima, Aiah, Sajali, Zikankuba, Wacharapluesadee, Supaporn, Robles, Erika Alandia, Ssebide, Benard, Suzán, Gerardo, Aguirre, Luis F, Solorio, Monica R, Dhole, Tapan N, Nga, Nguyen TT, Hitchens, Peta L, Joly, Damien O, Saylors, Karen, Fine, Amanda, Murray, Suzan, Karesh, William B, Daszak, Peter, Mazet, Jonna AK, and Johnson, Christine K
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Biological Sciences ,Biomedical and Clinical Sciences ,Infectious Diseases ,2.2 Factors relating to the physical environment ,2.1 Biological and endogenous factors ,Infection ,Africa ,Animals ,Animals ,Wild ,Host Specificity ,Humans ,Viruses ,Zoonoses ,PREDICT Consortium ,Biological sciences ,Biomedical and clinical sciences - Abstract
Host-virus associations have co-evolved under ecological and evolutionary selection pressures that shape cross-species transmission and spillover to humans. Observed virus-host associations provide relevant context for newly discovered wildlife viruses to assess knowledge gaps in host-range and estimate pathways for potential human infection. Using models to predict virus-host networks, we predicted the likelihood of humans as hosts for 513 newly discovered viruses detected by large-scale wildlife surveillance at high-risk animal-human interfaces in Africa, Asia, and Latin America. Predictions indicated that novel coronaviruses are likely to infect a greater number of host species than viruses from other families. Our models further characterize novel viruses through prioritization scores and directly inform surveillance targets to identify host ranges for newly discovered viruses.
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- 2022
5. Evaluation of bat adenoviruses suggests co-evolution and host roosting behaviour as drivers for diversity.
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Ntumvi, Nkom, Diffo, Joseph, Tamoufe, Ubald, Ndze, Valantine, Takuo, Jean-Michel, Mouiche, Moctar, Nwobegahay, Julius, LeBreton, Matthew, Gillis, Amethyst, Rimoin, Anne, Schneider, Bradley, Monagin, Corina, McIver, David, Joly, Damien, Wolfe, Nathan, Rubin, Edward, and Lange, Christian
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Africa ,adenovirus ,bat ,diversity ,evolution ,species barrier ,Adenoviridae ,Animals ,Biodiversity ,Biological Evolution ,Chiroptera ,Host Specificity ,Humans ,Phylogeny - Abstract
Adenoviruses (AdVs) are diverse pathogens of humans and animals, with several dozen bat AdVs already identified. Considering that over 100 human AdVs are known, and the huge diversity of bat species, many bat AdVs likely remain undiscovered. To learn more about AdV prevalence, diversity and evolution, we sampled and tested bats in Cameroon using several PCR assays for viral and host DNA. AdV DNA was detected in 14 % of the 671 sampled animals belonging to 37 different bat species. There was a correlation between species roosting in larger groups and AdV DNA detection. The detected AdV DNA belonged to between 28 and 44 different, mostly previously unknown, mastadenovirus species. The novel isolates are phylogenetically diverse and while some cluster with known viruses, others appear to form divergent new clusters. The phylogenetic tree of novel and previously known bat AdVs does not mirror that of the various host species, but does contain structures consistent with a degree of virus-host co-evolution. Given that closely related isolates were found in different host species, it seems likely that at least some bat AdVs have jumped species barriers, probably in the more recent past; however, the tree is also consistent with such events having taken place throughout bat AdV evolution. AdV diversity was highest in bat species roosting in large groups. The study significantly increased the diversity of AdVs known to be harboured by bats, and suggests that host behaviours, such as roosting size, may be what limits some AdVs to one species rather than an inability of AdVs to infect other related hosts.
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- 2021
6. Market characteristics and zoonotic disease risk perception in Cameroon bushmeat markets
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Saylors, Karen E., Mouiche, Moctar M., Lucas, Ashley, McIver, David J., Matsida, Annie, Clary, Catherine, Maptue, Victorine T., Euren, Jason D., LeBreton, Matthew, and Tamoufe, Ubald
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- 2021
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7. Clinical Manifestations of an Outbreak of Monkeypox Virus in Captive Chimpanzees in Cameroon, 2016
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Brien, Stephanie C, primary, LeBreton, Matthew, additional, Doty, Jeffrey B, additional, Mauldin, Matthew R, additional, Morgan, Clint N, additional, Pieracci, Emily G, additional, Ritter, Jana M, additional, Matheny, Audrey, additional, Tafon, Bibila G, additional, Tamoufe, Ubald, additional, Missoup, Alain D, additional, Nwobegahay, Julius, additional, Takuo, Jean Michel, additional, Nkom, Felix, additional, Mouiche, Moctar M M, additional, Feussom, Jean Marc K, additional, Wilkins, Kimberly, additional, Wade, Abel, additional, and McCollum, Andrea M, additional
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- 2024
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8. DNA of diverse adenoviruses detected in Cameroonian rodent and shrew species
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Diffo, Joseph, Ndze, Valantine Ngum, Ntumvi, Nkom Felix, Takuo, Jean-Michel, Mouiche, Moctar M. M., Tamoufe, Ubald, Nwobegahay, Julius, LeBreton, Matthew, Gillis, Amethyst, Schneider, Bradley S., Fair, Joseph M., Monagin, Corina, McIver, David J., Joly, Damien O., Wolfe, Nathan D., Rubin, Edward M., and Lange, Christian E.
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- 2019
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9. Predicting the potential for zoonotic transmission and host associations for novel viruses
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Pandit, Pranav, primary, Anthony, Simon, additional, Goldstein, Tracey, additional, Olival, Kevin, additional, Doyle, Megan, additional, Gardner, Nicole, additional, Bird, Brian, additional, Smith, Woutrina, additional, Wolking, David, additional, Gilardi, Kristen, additional, Monagin, Corina, additional, Kelly, Terra, additional, Uhart, Marcela, additional, Epstein, Jonathan, additional, Machalaba, Catherine, additional, Rostal, Melinda, additional, Dawson, Patrick, additional, Hagan, Emily, additional, Sullivan, Ava, additional, Li, Hongying, additional, Chmura, Aleksei, additional, Latinne, Alice, additional, Lange, Christian, additional, O'Rourke, Tammie, additional, Olson, Sarah, additional, Keatts, Lucy, additional, Mendoza, A. Patricia, additional, Perez, Alberto, additional, de Paula, Catia Dejuste, additional, Zimmerman, Dawn, additional, Valitutto, Marc, additional, LeBreton, Matthew, additional, McIver, David, additional, Islam, Ariful, additional, Duong, Veasna, additional, Mouiche, Moctar, additional, Shi, Zheng-Li, additional, Mulembakani, Prime, additional, Kumakamba, Charles, additional, Ali, Mohamed, additional, Kebede, Nigatu, additional, Tamoufe, Ubald, additional, Bel-Nono, Samuel, additional, Camara, Alpha, additional, Pamungkas, Joko, additional, Coulibaly, Julien Kalpy, additional, Abu-Basha, Ehab, additional, Kamau, Joseph, additional, Silithammavong, Soubanh, additional, Desmond, James, additional, Hughes, Tom, additional, Shiilegdamba, Enkhtuvshin, additional, Aung, Ohnmar, additional, Karmacharya, Dibesh, additional, Nziza, Julius, additional, Ndiaye, Daouda, additional, Gbakima, Aiah, additional, Sijali, Zikankuba, additional, Wacharapluesadee, Supaporn, additional, Robles, Erika Alandia, additional, Ssebide, Benard, additional, Suzán, Gerardo, additional, Aguirre, Luis, additional, Solorio, Monica, additional, Dhole, Tapan, additional, Hitchens, Peta, additional, Joly, Damien, additional, Saylors, Karen, additional, Fine, Amanda, additional, Murray, Suzan, additional, Karesh, William, additional, Daszak, Peter, additional, Mazet, Jonna, additional, Consortium, PREDICT, additional, and Johnson, Christine, additional
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- 2022
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10. Socializing One Health: an innovative strategy to investigate social and behavioral risks of emerging viral threats
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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
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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. Wildlife in Cameroon harbor diverse coronaviruses including many isolates closely related to human coronavirus 229E
- Author
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Ntumvi, Nkom F., primary, Ndze, Valantine Ngum, additional, Gillis, Amethyst, additional, Doux Diffo, Joseph Le, additional, Tamoufe, Ubald, additional, Takuo, Jean-Michel, additional, Mouiche, Moctar M. M., additional, Nwobegahay, Julius, additional, LeBreton, Matthew, additional, Rimoin, Anne W., additional, Schneider, Bradley S., additional, Monagin, Corina, additional, McIver, David J., additional, Roy, Sanjit, additional, Ayukekbong, James A., additional, Saylors, Karen, additional, Joly, Damien O., additional, Wolfe, Nathan D., additional, Rubin, Edward M., additional, and Lange, Christian E., additional
- Published
- 2021
- Full Text
- View/download PDF
12. Evidence of Low-Level Dengue Virus Circulation in the South Region of Cameroon in 2018
- Author
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Mouiche, Moctar M.M., primary, Ntumvi, Nkom F., additional, Maptue, Victorine T., additional, Tamoufe, Ubald, additional, Albert, Bisse, additional, Ngum Ndze, Valantine, additional, Nwobegahay, Julius, additional, Gillis, Amethyst, additional, LeBreton, Matthew, additional, McIver, David J., additional, Ayukekbong, James A., additional, Saylors, Karen, additional, Rubin, Edward M., additional, and Lange, Christian E., additional
- Published
- 2020
- Full Text
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13. Hazard assessment of Staphylococcus with positive coagulase in meat produced and distributed in the Northern regions of Cameroon
- Author
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Afnabi, Raoul Bakari, primary, Sambo, Jean Jacques Nenba, additional, Mouiche, Moctar Mohamed Mouliom, additional, and Namegni, Rodrigue Simonet Poueme, additional
- Published
- 2019
- Full Text
- View/download PDF
14. Evidence of Low-Level Dengue Virus Circulation in the South Region of Cameroon in 2018.
- Author
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Mouiche MMM, Ntumvi NF, Maptue VT, Tamoufe U, Albert B, Ngum Ndze V, Nwobegahay J, Gillis A, LeBreton M, McIver DJ, Ayukekbong JA, Saylors K, Rubin EM, and Lange CE
- Subjects
- Adolescent, Adult, Cameroon epidemiology, Dengue blood, Dengue Virus genetics, Female, Humans, Male, Polymerase Chain Reaction, Prevalence, RNA, Viral isolation & purification, Risk Factors, Young Adult, Dengue epidemiology, Dengue transmission, Dengue Virus isolation & purification
- Abstract
Dengue fever is an understudied disease in many parts of Africa and little is known about its prevalence in Cameroon. We tested blood from 629 individuals from the South Region of Cameroon, collected over the course of one year, for flavivirus RNA using conventional broad range PCR. Flavivirus RNA corresponding to dengue virus (DENV) serotype 1 was identified in two individuals who were also diagnosed with malaria. This finding confirms previous reports that indicate the presence of low-level circulation of DENV in Cameroon and supports the concern that dengue fever may be underdiagnosed due to more prevalent diseases that have similar symptomology and insufficient diagnostic capacity.
- Published
- 2020
- Full Text
- View/download PDF
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