Aschenborn O, Aschenborn J, Kern P, Mackenstedt U, Romig T, Wassermann M
School of Veterinary Medicine, University of Namibia, Neudamm Campus, Windhoek, Namibia.
University of Hohenheim, Department of Parasitology, Emil-Wolff-Str. 34, 70599 Stuttgart, Germany.
Helminthologia. 2023 Sep 22;60(2):117-124. doi: 10.2478/helm-2023-0012. eCollection 2023 Jun.
The present study was conducted in the isolated desert town of Oranjemund in the far south of Namibia. It is an extremely arid region where no livestock husbandry is practiced and only animals adapted to the desert can be found. However, in and around the city, artificial irrigation maintains lush green patches of grass that attract wild animals, in particular oryx antelopes (). In 2015 four oryx antelopes were euthanised due to poor conditions and a post-mortem examination was conducted. Two were found positive for cystic echinococcosis and 16 cysts were collected for molecular analyses. In addition, faecal samples from black-backed jackals (n=5) and domestic dogs (n=9), which were regularly observed to feed on oryx carcasses, were collected and taeniid eggs isolated. Parasite species identification of the cysts and eggs was done by amplifying and sequencing the mitochondrial gene. Both oryx antelopes were found infected with and one co-infected with G6/7. Both species were able to develop fertile cysts in oryx, making oryx antelopes competent hosts for these parasites. Therefore, the analysis of faecal samples was of high interest and although the numbers were quite small, taeniid eggs were found in three out of five faecal samples of jackals and in all nine dog samples. However, species determination was only successful with two jackal and one dog sample. All three were positive for G6/7. The absence of may be due to the low number of faecal samples examined. In our small study, we discovered a rather unique lifecycle of spp. between jackals and domestic dogs as definitive hosts and oryx antelopes as intermediate hosts. Here, the presence of G6/7 is of particular concern, as it is the second most important causative agent of CE in humans.
本研究在纳米比亚最南部偏远的沙漠小镇奥兰治蒙德进行。这是一个极度干旱的地区,没有畜牧业,只能找到适应沙漠的动物。然而,在城镇及其周边地区,人工灌溉维持着郁郁葱葱的绿色草地,吸引着野生动物,特别是大羚羊()。2015年,由于状况不佳,四只大羚羊被实施安乐死,并进行了尸检。其中两只被发现患有囊型包虫病,收集了16个囊肿用于分子分析。此外,还收集了经常观察到以大羚羊尸体为食的黑背胡狼(n = 5)和家犬(n = 9)的粪便样本,并分离出带绦虫卵。通过扩增和测序线粒体基因对囊肿和虫卵进行寄生虫种类鉴定。发现两只大羚羊均感染了 ,其中一只同时感染了G6/7。两种 物种都能够在大羚羊体内发育出有繁殖能力的囊肿,这使得大羚羊成为这些寄生虫的适宜宿主。因此,粪便样本的分析备受关注,尽管数量相当少,但在五份胡狼粪便样本中有三份以及所有九份家犬样本中都发现了带绦虫卵。然而,仅对两份胡狼样本和一份家犬样本成功进行了物种鉴定。所有三份样本对G6/7均呈阳性。未发现 可能是由于所检查的粪便样本数量较少。在我们的小型研究中,我们发现了 在胡狼和家犬作为终末宿主以及大羚羊作为中间宿主之间相当独特的生命周期。在这里,G6/7的存在尤其令人担忧,因为它是人类囊型包虫病的第二大重要病原体。
