Browsing by Author "Hugho, Ephrasia"

Now showing 1 - 4 of 4
  • Thumbnail Image
    Item
    Complete genome sequence of Brucella abortus isolated from a human blood culture sample in Tanzania
    (American society for microbiology, 2024-01-30) Mbwambo, Gershom; Zwetselaar, Marco; Sonda, Tolbert; Lukambagire, AbdulHamid; Njau, Judith; Wadugu, Boaz; Ignass, Ignass; Amani, Nelson; Hugho, Ephrasia; Rubach, Matthew; Sakasaka, Philoteus; Oisso, Rose; Mkenda, Nestory; Shirima, Gabriel; Ashford, Roland; Haydon, Daniel; Maro, Venance; Kazwala, Rudovick; Kumburu, Happiness; Mmbaga, Blandina; Halliday, Jo E.
    Brucella abortus causes infections in humans and livestock. Bacterial isolates are challenging to obtain, and very little is known about the genomic epidemiology of this species in Africa. Here, we report the complete genome sequence of a Brucella abortus isolate cultured from a febrile human in northern Tanzania
  • Thumbnail Image
    Item
    Draft genome sequences of six Brucella melitensis isolates collected from humans and livestock in Tanzania
    (American Society for Microbiology, 2025-06) Middlebrook, Earl; Hugho, Ephrasia; Lyimo, Beatus; Mathew, Coletha; Mayenga, Charles; Li, Lingling; Amani, Nelson; Lukambagire, AbdulHamid; Kumburu, Happiness; Munuo, Lidia; Lyimo, Samson; Shirima, Gabriel; Kazwala, Rudovick; Byukusenge, Maurice; Mmbaga, Blandina; Makondo, Zachariah; Kapur, Vivek; Buza, Joram; Fair, Jeanne; Katani, Robab
    We present genome assemblies of six Brucella melitensis strains isolated from goats and humans in Tanzania’s Kagera region. These sequences provide insight into circulating Brucella strains in Tanzania and East Africa. These data will support future comparative genomics, epidemiological investigations, and regional brucellosis control strategies.
  • Thumbnail Image
    Item
    Molecular detection and genetic characterization of Bartonella species from rodents and their associated ectoparasites from northern Tanzania
    (PLOS ONE, 2019-10-15) Theonest, Ndyetabura; Carter, Ryan; Amani, Nelson; Doherty, Siaˆn; Hugho, Ephrasia; Keyyu, Julius; Mable, Barbara; Shirima, Gabriel; Tarimo, Rigobert; Thomas, Kate; Haydon, Daniel; Buza, Joram; Allan, Kathryn; Halliday, Jo
    Background Bartonellae are intracellular bacteria, which can cause persistent bacteraemia in humans and a variety of animals. Several rodent-associated Bartonella species are human pathogens but data on their global distribution and epidemiology are limited. The aims of the study were to: 1) determine the prevalence of Bartonella infection in rodents and fleas; 2) identify risk factors for Bartonella infection in rodents; and 3) characterize the Bartonella genotypes present in these rodent and flea populations. Methods and results Spleen samples collected from 381 rodents representing six different species were tested for the presence of Bartonella DNA, which was detected in 57 individuals (15.0%; 95% CI 11.3–18.5), of three rodent species (Rattus rattus n = 54, Mastomys natalensis n = 2 and Paraxerus flavovottis n = 1) using a qPCR targeting the ssrA gene. Considering R. rattus individuals only, risk factor analysis indicated that Bartonella infection was more likely in reproductively mature as compared to immature individuals (OR = 3.42, p <0.001). Bartonella DNA was also detected in 53 of 193 Xenopsylla cheopis fleas (27.5%: 95% CI 21.3– 34.3) collected from R.rattus individuals. Analysis of ssrA and gltA sequences from rodent spleens and ssrA sequences from fleas identified multiple genotypes closely related (� 97% similar) to several known or suspected zoonotic Bartonella species, including B. tribocorum, B. rochalimae, B. elizabethae and B. quintana. Conclusions The ssrA and gltA sequences obtained from rodent spleens and ssrA sequences obtained from fleas reveal the presence of a diverse set of Bartonella genotypes and increase our understanding of the bartonellae present in Tanzanian. Further studies are needed to fully characterise the prevalence, genotypes and diversity of Bartonella in different host populations and their potential impacts on human health.
  • Thumbnail Image
    Item
    Seroprevalence and risk factors for brucellosis amongst livestock and humans in a multi-herd ranch system in Kagera, Tanzania
    (Frontiers, 2024-11-01) Lyimo, Beatus; Hugho, Ephrasia; Mathew, Coletha; Mayenga, Charles; Lyimo, Samson; Munuo, Lidia; Byukusenge, Maurice; Withall, Jodie; Mmbaga, Blandina; Bartlow, Andrew; Fair, Jeanne; Shirima, Gabriel; Cattadori, Isabella; Buza, Joram; Katani, Robab
    Background: Brucellosis remains a significant health and economic challenge for livestock and humans globally. Despite its public health implications, the factors driving the endemic persistence of Brucella at the human-livestock interface in Tanzania remain poorly elucidated. This study aimed to identify the seroprevalence of Brucella infection in livestock and humans within a ranching system and determine associated risk factors for disease endemicity. Methods: A cross-sectional sero-epidemiological study was conducted in 2023 in Tanzania’s Karagwe District, involving 725 livestock (cattle, goats, sheep) from 10 herds and 112 humans from associated camps. Seroprevalence was assessed using competitive ELISA while epidemiological data were collected via questionnaires. Generalized Linear Models and Contrast Analysis were used to identify risk factors for infection. Results: Overall seroprevalence was 34% in livestock and 41% in humans. Goats exhibited the highest prevalence (69.2%), while cattle had the lowest (22.6%). Mixed-species herds (Odds Ratio, OR = 2.96, CI [1.90–4.60]) and small ruminants-only herds (OR = 6.54, CI [3.65–11.72]) showed a significantly higher risk of seropositivity compared to cattle-only herds. Older cattle (OR = 5.23, CI [2.70–10.10]) and lactating females (OR = 2.87, CI [1.78–4.63]) represented significant risks for brucellosis in livestock. In humans, close contact with animals (OR = 7.20, CI [1.97–36.31]) and handling animals during parturition or aborted fetuses (OR = 2.37, CI [1.01–5.58]) were significant risk factors. Notably, no spatial association was found in seroprevalence between herds and nearby human communities. Conclusion: The lack of spatial correlation between livestock and human seroprevalence suggests complex transmission dynamics, potentially involving endemic circulation in livestock and human infections from multiple sources of exposure to livestock. This study highlights the need for comprehensive zoonotic risk education and targeted intervention strategies. Further research is crucial to elucidate transmission pathways and improve Brucella infection control. This includes developing robust methods for identifying infective species and implementing effective strategies to mitigate Brucella infection in endemic regions.