| Autor: |
Höger AC; Global and Tropical Health Division,Menzies School of Health Research,Charles Darwin University,Darwin,Northern Territory,Australia., Mayo M; Global and Tropical Health Division,Menzies School of Health Research,Charles Darwin University,Darwin,Northern Territory,Australia., Price EP; Global and Tropical Health Division,Menzies School of Health Research,Charles Darwin University,Darwin,Northern Territory,Australia., Theobald V; Global and Tropical Health Division,Menzies School of Health Research,Charles Darwin University,Darwin,Northern Territory,Australia., Harrington G; Global and Tropical Health Division,Menzies School of Health Research,Charles Darwin University,Darwin,Northern Territory,Australia., Machunter B; Global and Tropical Health Division,Menzies School of Health Research,Charles Darwin University,Darwin,Northern Territory,Australia., Choy JL; Global and Tropical Health Division,Menzies School of Health Research,Charles Darwin University,Darwin,Northern Territory,Australia., Currie BJ; Global and Tropical Health Division,Menzies School of Health Research,Charles Darwin University,Darwin,Northern Territory,Australia., Kaestli M; Global and Tropical Health Division,Menzies School of Health Research,Charles Darwin University,Darwin,Northern Territory,Australia. |
| Abstrakt: |
The Darwin region in northern Australia has experienced rapid population growth in recent years, and with it, an increased incidence of melioidosis. Previous studies in Darwin have associated the environmental presence of Burkholderia pseudomallei, the causative agent of melioidosis, with anthropogenic land usage and proximity to animals. In our study, we estimated the occurrence of B. pseudomallei and Burkholderia spp. relatives in faecal matter of wildlife, livestock and domestic animals in the Darwin region. A total of 357 faecal samples were collected and bacteria isolated through culture and direct DNA extraction after enrichment in selective media. Identification of B. pseudomallei, B. ubonensis, and other Burkholderia spp. was carried out using TTS1, Bu550, and recA BUR3-BUR4 quantitative PCR assays, respectively. B. pseudomallei was detected in seven faecal samples from wallabies and a chicken. B. cepacia complex spp. and Pandoraea spp. were cultured from wallaby faecal samples, and B. cenocepacia and B. cepacia were also isolated from livestock animals. Various bacteria isolated in this study represent opportunistic human pathogens, raising the possibility that faecal shedding contributes to the expanding geographical distribution of not just B. pseudomallei but other Burkholderiaceae that can cause human disease. |
