Browsing by Author "Kibiki, Gibson S."
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- ItemAfri-Can Forum 2(Biomed Central, 2016-07-12) Mukudu, Hillary; Martinson, Neil; Sartorius, Benn; Coetzee, Jenny; Dietrich, Janan; Mokgatswana, Kgaugelo; Jewkes, Rachel; Gray, Glenda E.; Dugas, Marylene; Behanzin, Luc; Guedou, Fernand A.; Gagnon, Marie-Pierre; Alary, Michel; Rutakumwa, Rwamahe; Mbonye, Martin; Kiwanuka, Thadeus; Nakamanya, Sarah; Muhumuza, Richard; Nalukenge, Winfred; Seeley, Janet; Atujuna, Millicent; Wallace, Melissa; Brown, Ben; Bekker, Linda G.; Newman, Peter A.; Harryparsad, Rushil; Olivier, Abraham J.; Jaspan, Heather B.; Wilson, Douglas; Dietrich, Janan; Martinson, Neil; Mukudu, Hillary; Mkhize, Nonhlanhla; Morris, Lynn; Cianci, Gianguido; Dinh, Minh; Hope, Thomas; Passmore, Jo-Ann S.; Gray, Clive M.; Henrick, Bethany M.; Yao, Xiao-Dan; Rosenthal, Kenneth L.; Henrick, Bethany M.; Yao, Xiao-Dan; Drannik, Anna G.; Rosenthal, Kenneth L.; Chanzu, Nadia; Mwanda, Walter; Oyugi, Julius; Anzala, Omu; Mbow, Moustapha; Jallow, Sabelle; Thiam, Moussa; Davis, Alberta; Diouf, Assane; Ndour, Cheikh T.; Seydi, Moussa; Dieye, Tandakha N.; Mboup, Souleymane; Goodier, Martin; Rilley, Eleanor; Jaye, Assan; Yao, Xiao-Dan; Omange, R. W.; Henrick, Bethany M.; Lester, Richard T.; Kimani, Joshua; Ball, T. B.; Plummer, Francis A.; Rosenthal, Kenneth L.; Behanzin, Luc; Guedou, Fernand A.; Geraldo, Nassirou; Mastetse, Ella G.; Sossa, Jerome C.; Zannou, Marcel D.; Alary, Michel; Osawe, Sophia; Okpokoro, Evaezi; Okolo, Felicia; Umaru, Stephen; Abimiku, Rebecca; Audu, Sam; Datong, Pam; Abimiku, Alashle; Nyange, Jacquelyn; Olenja, Joyce; Mutua, Gaudensia; Jaoko, Walter; Omosa-Manyonyi, Gloria; Farah, Bashir; Khaniri, Maureen; Anzala, Omu; Cockcroft, Anne; Tonkin, Kendra; Girish, Indu; Mhati, Puna; Cunningham, Ashley; Andersson, Neil; Farah, Bashir; Indangasi, Jackton; Jaoko, Walter; Mutua, Gaudensia; Khaniri, Maureen; Nyange, Jacquelyn; Anzala, Omu; Diphoko, Thabo; Gaseitsiwe, Simani; Maiswe, Victoria; Iketleng, Thato; Maruapula, Dorcas; Bedi, Keabetswe; Moyo, Sikhulile; Musonda, Rosemary; Wainberg, Mark; Makhema, Joseph; Novitsky, Vladimir; Marlink, Richard; Essex, Max; Okoboi, Stephen; Ssali, Livingstone; Kalibala, Sam; Birungi, Josephine; Egessa, Aggrey; Wangisi, Jonathan; Okullu, Lyavala J.; Bakanda, Celestin; Obare, Francis; Boer, I. M. S.; Semvua, Hadija H.; Van den Boogaard, Jossy; Kiwango, Krisanta W.; Ngowi, Kennedy M.; Nieuwkerk, Pythia T.; Aarnoutse, Rob E.; Kiwelu, Ireen; Muro, Eva; Kibiki, Gibson S.; Datiri, Ruth; Choji, Grace; Osawe, Sophia; Okpokoro, Evaezi; Okolo, Felicia; Umaru, Stephen; Abimiku, Rebecca; Datong, Pam; Abimiku, Alashle; Fomsgaard, A.; Karlsson, I.; Jensen, K. J; Jensen, S. S.; Leo-Hansen, C.; Jespersen, S.; Da Silva Te, D.; Rodrigues, C. M.; Da Silva, Z. J.; Janitzek, C. M.; Gerstoft, J.; Kronborg, G.; Okpokoro, Evaezi; Osawe, Sophia; Daitiri, Ruth; Choji, Grace; Umaru, Stephen; Okolo, Felicia; Datong, Pam; Emily, Nyariki; Joyce, Olenja; Robert, Lorway R.; Anzala, Anzala; Viljoen, Katie; Wendoh, Jerome; Kidzeru, Elvis; Karaoz, Ulas; Brodie, Eoin; Botha, Gerrit; Mulder, Nicola; Gray, Clive; Cameron, William; Stintzi, Alain; Jaspan, Heather; Levett, Paul N.; Alexander, David; Gulzar, Naveed; Grewal, Prabvir S.; Poon, Art F Y.; Brumme, Zabrina; Harrigan, P. R.; Brooks, James I.; Sandstrom, Paul A.; Calvez, Stryker; Sanche, Stephen E.; Scott, Jamie K.; Swartz, Leslie; Kagee, Ashraf; Lesch, Anthea; Kafaar, Zuhayr; De Wet, Anneliese; Okpokoro, Evaezi; Osawe, Sophia; Daitiri, Ruth; Choji, Grace; Umaru, Stephen; Okolo, Felicia; Datong, Pam; Abimiku, Alashle; Dietrich, Janan; Smith, Tricia; Cotton, Laura; Hornschuh, Stefanie; Van der Watt, Martin; Miller, Cari L.; Gray, Glenda; Smit, Jenni; Jaggernath, Manjeetha; Ndungu, Thumbi; Brockman, Mark; Kaida, Angela; Akolo, Maureen; Kimani, Joshua; Gelmon, Larry; Chitwa, Michael; Osero, Justus; Cockcroft, Anne; Marokoane, Nobantu; Kgakole, Leagajang; Maswabi, Boikhutso; Mpofu, Neo; Ansari, Umaira; Andersson, Neil; Nakinobe, Elizabeth; Miiro, George M.; Zalwango, Flavia; Nakiyingi-Miiro, Jessica; Kaleebu, Potiano; Semwanga, John R.; Nyanzi, Emily; Musoke, Saidat N.; Nakinobe, Elizabeth; Miiro, George; Mbidde, Edward K.; Lutalo, Tom; Kaleebu, Pontiano; Handema, Ray; Chianzu, Graham P.; Thiam, Moussa; Diagne-Gueye, Diabou; Ndiaye, Mame K.; Mbow, Moustapha; Ndiaye, Birahim P.; Traore, Ibrahima; Dia, Mamadou C.; Thomas, Gilleh; Tour-Kane, Coumba; Mboup, Souleymane; Jaye, Assan; Nyanzi, Emily; Mbidde, Edward K.; Kaleebu, Pontiano; Mpendo, Juliet; Kimani, Joshua; Birungi, Josephine; Muyindike, Winnie; Kambugu, Andrew; Sebastian, Hachizovu; Ray, Handema; Mike, Chaponda; Bertin, Kabuya J.; Modest, Mulenga; Thiam, Moussa; Janha, Omar; Davis, Alberta; Amambua-Ngwa, Alfred; Nwakanma, Davis C.; Mboup, Souleymane; Jaye, Assan; Jespersen, Sanne; Hønge, Bo L.; Esbjornsson, Joakim; Medina, Candida; Te, David Da Silva; Correira, Faustino G.; Laursen, Alex L.; Ostergaard, Lars; Andersen, Andreas; Aaby, Peter; Erikstrup, Christian; Wejse, Christian; Dieye, Siry; Sarr, Moussa; Sy, Haby; Mbodj, Helene D.; Ndiaye, Marianne; Ndiaye, Amy; Moussa, Seydi; Jaye, Assan; Mboup, Souleymane; Nyombi, Balthazar M.; Shao, Elichilia R.; Chilumba, Innocent B.; Moyo, Sikhulile; Gaseitsiwe, Simani; Musonda, Rosemary; Datong, Pam; Inyang, Bucky; Osawe, Sophia; Izang, Abel; Cole, Chundung; Okolo, Felicia; Cameron, Bill; Rosenthal, Kenneth; Gray, Clive; Jaspan, Heather; Seraise, Boitumelo; Andrea-Marobela, Kerstin; Moyo, Sikhulile; Musonda, Rosemary; Makhema, Joseph; Essex, Max; Gaseitsiwe, SimaniENGLISH ABSTRACT: We are pleased to present peer reviewed forum proceedings of the 2nd synchronicity forum of GHRI/CHVIfunded Canadian and African HIV prevention and vaccine teams Forum objectives ∙GHRI-funded capacity building and HIV prevention research teams presented highlights of achievements ∙Teams discussed how to jointly build on achievements for sustainability ∙Provided an opportunity for inter-team collaboration, synchronize best approach to capacity building, mentoring of new researchers and building leadership ∙Provided opportunities for informal discussions and networking among the teams. ∙Teams learnt about recent advances in the area of African regulatory and ethics review process ∙The forum proceedings was a special supplement in an openaccess journal was produced
- ItemA new trial design to accelerate tuberculosis drug development : the Phase IIC Selection Trial with Extended Post-treatment follow-up (STEP)(BioMed Central, 2016-03-23) Phillips, Patrick P. J.; Dooley, Kelly E.; Gillespie, Stephen H.; Heinrich, Norbert; Stout, Jason E.; Nahid, Payam; Diacon, Andreas H.; Aarnoutse, Rob E.; Kibiki, Gibson S.; Boeree, Martin J.; Hoelscher, MichaelBackground: The standard 6-month four-drug regimen for the treatment of drug-sensitive tuberculosis has remained unchanged for decades and is inadequate to control the epidemic. Shorter, simpler regimens are urgently needed to defeat what is now the world’s greatest infectious disease killer. Methods: We describe the Phase IIC Selection Trial with Extended Post-treatment follow-up (STEP) as a novel hybrid phase II/III trial design to accelerate regimen development. In the Phase IIC STEP trial, the experimental regimen is given for the duration for which it will be studied in phase III (presently 3 or 4 months) and patients are followed for clinical outcomes of treatment failure and relapse for a total of 12 months from randomisation. Operating characteristics of the trial design are explored assuming a classical frequentist framework as well as a Bayesian framework with flat and sceptical priors. A simulation study is conducted using data from the RIFAQUIN phase III trial to illustrate how such a design could be used in practice. Results: With 80 patients per arm, and two (2.5 %) unfavourable outcomes in the STEP trial, there is a probability of 0.99 that the proportion of unfavourable outcomes in a potential phase III trial would be less than 12 % and a probability of 0.91 that the proportion of unfavourable outcomes would be less than 8 %. With six (7.5 %) unfavourable outcomes, there is a probability of 0.82 that the proportion of unfavourable outcomes in a potential phase III trial would be less than 12 % and a probability of 0.41 that it would be less than 8 %. Simulations using data from the RIFAQUIN trial show that a STEP trial with 80 patients per arm would have correctly shown that the Inferior Regimen should not proceed to phase III and would have had a high chance (0.88) of either showing that the Successful Regimen could proceed to phase III or that it might require further optimisation. Conclusions: Collection of definitive clinical outcome data in a relatively small number of participants over only 12 months provides valuable information about the likelihood of success in a future phase III trial. We strongly believe that the STEP trial design described herein is an important tool that would allow for more informed decision-making and accelerate regimen development.
- ItemPrevalence and risk factors for infection of bovine tuberculosis in indigenous cattle in the Serengeti ecosystem, Tanzania(BioMed Central, 2013-12) Katale, Bugwesa Z.; Mbugi, Erasto V.; Karimuribo, Esron D.; Keyyu, Julius D.; Kendall, Sharon; Kibiki, Gibson S.; Godfrey-Faussett, Peter; Michel, Anita L.; Kazwala, Rudovick R.; Van Helden, Paul; Matee, Mecky I.Bovine tuberculosis (bTB) is a chronic debilitating disease and is a cause of morbidity and mortality in livestock, wildlife and humans. This study estimated the prevalence and risk factors associated with bovine tuberculosis transmission in indigenous cattle at the human-animal interface in the Serengeti ecosystem of Tanzania. A total of 1,103 indigenous cattle from 32 herds were investigated for the presence of bTB using the Single Intradermal Comparative Tuberculin Test. Epidemiological data on herd structure, management and grazing system were also collected.The apparent individual animal prevalence of tuberculin reactors was 2.4% (95% confidence interval (CI), 1.7 – 3.5%), whereas the true prevalence was 0.6% CI, 0.6 – 0.7% as indicated by a reaction to avian tuberculin purified protein derivatives (PPD) which is more than 4 mm greater than the reaction to avian tuberculin PPD. The results showed that 10.6% (117/1,103) showed non-specific reactions (atypical mycobacterium). The herd prevalence of 50% (16/32) was found. Tuberculin skin test results were found to be significantly associated with age, location, size of the household and animal tested. Of 108 respondents, 70 (64.8%) individuals had not heard about bovine tuberculosis at all. Thirty five percent (38/108) of respondents at least were aware of bTB. About 60% (23/38) of respondents who were aware of bTB had some knowledge on how bTB is spread. Eighty one percent (87/108) of respondents were not aware of the presence of bTB in wildlife. There is regular contact between cattle and wild animals due to sharing of grazing land and water sources, with 99% (107/108) of households grazing cattle in communal pastures. The study has demonstrated a high reported interaction of livestock with wildlife and poor knowledge of most cattle owners concerning bTB and its transmission pathways among people, livestock and wildlife. Although the overall proportion of animals with bTB is relatively low, herd prevalence is 50% and prevalence within herds varied considerably. Thus there is a possibility of cross transmission of bTB at wildlife-livestock interface areas that necessitates use of genetic strain typing methods to characterize them accurately. The study has demonstrated a high reported interaction of livestock with wildlife and poor knowledge of most cattle owners concerning bTB and its transmission pathways among people, livestock and wildlife. Although the overall proportion of animals with bTB is relatively low, herd prevalence is 50% and prevalence within herds varied considerably. Thus there is a possibility of cross transmission of bTB at wildlife-livestock interface areas that necessitates use of genetic strain typing methods to characterize them accurately. A total of 1,103 indigenous cattle from 32 herds were investigated for the presence of bTB using the Single Intradermal Comparative Tuberculin Test. Epidemiological data on herd structure, management and grazing system were also collected.The apparent individual animal prevalence of tuberculin reactors was 2.4% (95% confidence interval (CI), 1.7 – 3.5%), whereas the true prevalence was 0.6% CI, 0.6 – 0.7% as indicated by a reaction to avian tuberculin purified protein derivatives (PPD) which is more than 4 mm greater than the reaction to avian tuberculin PPD. The results showed that 10.6% (117/1,103) showed non-specific reactions (atypical mycobacterium). The herd prevalence of 50% (16/32) was found. Tuberculin skin test results were found to be significantly associated with age, location, size of the household and animal tested. Of 108 respondents, 70 (64.8%) individuals had not heard about bovine tuberculosis at all. Thirty five percent (38/108) of respondents at least were aware of bTB. About 60% (23/38) of respondents who were aware of bTB had some knowledge on how bTB is spread. Eighty one percent (87/108) of respondents were not aware of the presence of bTB in wildlife. There is regular contact between cattle and wild animals due to sharing of grazing land and water sources, with 99% (107/108) of households grazing cattle in communal pastures. The study has demonstrated a high reported interaction of livestock with wildlife and poor knowledge of most cattle owners concerning bTB and its transmission pathways among people, livestock and wildlife. Although the overall proportion of animals with bTB is relatively low, herd prevalence is 50% and prevalence within herds varied considerably. Thus there is a possibility of cross transmission of bTB at wildlife-livestock interface areas that necessitates use of genetic strain typing methods to characterize them accurately. The study has demonstrated a high reported interaction of livestock with wildlife and poor knowledge of most cattle owners concerning bTB and its transmission pathways among people, livestock and wildlife. Although the overall proportion of animals with bTB is relatively low, herd prevalence is 50% and prevalence within herds varied considerably. Thus there is a possibility of cross transmission of bTB at wildlife-livestock interface areas that necessitates use of genetic strain typing methods to characterize them accurately.
- ItemTuberculosis cross-species transmission in Tanzania : towards a One-Health concept(AOSIS Publishing, 2012-07-02) Mbugi, Erasto V.; Katale, Bugwesa Z.; Kendal, Sharon; Good, Liam; Kibiki, Gibson S.; Keyyu, Julius D.; Godfrey-Faussett, Peter; Van Helden, Paul D.; Matee, Mecky I.For centuries, tuberculosis, which is a chronic infection caused by the bacillus Mycobacterium tuberculosis has remained a global health problem. The global burden of tuberculosis has increased, particularly in the Southern African region, mainly due to HIV, and inadequate health systems which has in turn given rise to emergent drug resistant tuberculosis (TB) strains. Bovine tuberculosis (BTB) has also emerged as a significant disease with the tendency for inter-species spread. The extent of interspecies BTB transmission both in urban and rural communities has not been adequately assessed. The phenomenon is of particular importance in rural communities where people share habitats with livestock and wildlife (particularly in areas near national parks and game reserves). Aerosol and oral intake are the major routes of transmission from diseased to healthy individuals, with health care workers often contracting infection nosocomially. Although TB control has increasingly been achieved in high-income countries, the disease, like other poverty-related infections, has continued to be a disaster in countries with low income economies. Transmission of infections occurs not only amongst humans but also between animals and humans (and occasionally vice versa) necessitating assessment of the extent of transmission at their interface. This review explores tuberculosis as a disease of humans which can cross-transmit between humans, livestock and wildlife. The review also addresses issues underlying the use of molecular biology, genetic sequencing and bioinformatics as t tools to understand the extent of inter-species cross-transmission of TB in a ‘One Health’ context.