RESUMO
Mycobacterial infections are significant issues in zoo animals, influencing animal welfare, conservation efforts, and the zoonotic potential of pathogens. Although tuberculosis is recognised to be highly dangerous, paratuberculosis can also lead to animal losses and is potentially dangerous for humans. The aim of the current study was to confirm whether Mycobacterium avium spp. paratuberculosis (MAP) infections are currently present in zoos in Poland. Faeces samples (n = 131) were collected from different animal species from eight zoos in Poland. The faeces were decontaminated and inoculated into Herrold's Egg Yolk Media. The species was determined using commercial DNA testing. The IS900 was checked using RT-PCR. The culture was positive in seven samples: five with M. avium, one with Mycobacterium fortiatum, and one without any identified Mycobacterium species. RT-PCR confirmed MAP genetic material in nine animals. Our findings represent the first confirmation of MAP in bongo (Tragelaphus eurycerus), indicating that it is present in Polish zoological gardens. Fortunately, the disease can be monitored more easily due to recent legislation (the Animal Health Law).
RESUMO
INTRODUCTION AND OBJECTIVE: Mycobacteriosis are diseases caused by acid-fast mycobacteria other than M. leprae and tuberculous mycobacteria. Animal mycobacteriosis is often caused by M. avium ssp. hominissuis. Many species of animals are susceptible to infection with this bacterium, even those kept in Zoological Gardens. The aim of the study was to determine the species of bacterium responsible for causing the disease in the tested animals. MATERIAL AND METHODS: Tissue samples of two male sitatunga antelopes (Tragelaphus spekii) were analyzed. Lymph node and lung samples were subjected to anatomical examination and Ziehl-Neelsen staining. Real-time PCR was performed to confirm or rule out tuberculosis mycobacteria infection. In order to isolate the bacterial strain, tissue samples were inoculated on both solid and liquid media. HainLifescience CM tests, mass spectrometry and New Generation Sequencing were used to determine the mycobacterial species. RESULTS: Results showed that atypical mycobacteria are responsible for the antelope disease. The results of the HainLifescience CM test and mass spectrometry indicated that the mycobacterium responsible for causing mycobacteriosis was M. avium. New Generation Sequencing helped to identified a subspecies that was M. avium ssp. hominissuis. CONCLUSIONS: The sitatunga antelope is an animal susceptible to infection by M. avium ssp. hominissuis. Considering the wide range of hosts and the easiness of interspecies transmission of the pathogen, as well as its zoonotic nature, the mycobacteriosis induced by this microorganism should not be underestimated.
Assuntos
Antílopes , Infecções por Mycobacterium não Tuberculosas , Mycobacterium tuberculosis , Tuberculose , Animais , Masculino , Mycobacterium avium/genética , Tuberculose/microbiologiaRESUMO
Blastocystis is a highly genetically diverse gut protist commonly found in humans and various animals. The role of animals in human infection is only partly understood. The aim of this study was to determine the host specificity and possibility of zoonotic transmission of this microorganism. Subtypes of Blastocystis isolated from 201 zoo animals and their 35 caregivers were identified by sequencing of the SSU rRNA gene. Blastocystis was found in 26.86% of animal and 17.14% of human samples. Both mammalian (ST1-ST3, ST5, ST8, ST10, ST13, ST14) and non-mammalian subtypes were detected. Of the subtypes found in non-human primates (ST1, ST2, ST3, and ST13), two subtypes (ST1 and ST3) were also detected in humans. The presence of identical ST1 sequences in three monkeys and their caregiver indicates the possibility of direct transmission of Blastocystis between these animals and humans. Detection of ST5 only in wild boars and peccaries, ST8 only in Marsupial, ST10 and ST14 only in Bovidae, and non-mammalian subtypes in reptiles suggests higher host specificity for these subtypes, and indicates that their transmission between animals and humans is unlikely. Additionally, this was probably the first time that ST5 was found in peccaries, ST2 in patas monkeys, and ST8 in red kangaroos.
RESUMO
The avian pineal is a directly photosensory organ taking part in the organization of the circadian and seasonal rhythms. It plays an important role in regulation of many behavior and physiological phenomena including migration. The aim of the study was to investigate morphology of the pineal organ in the common gull (Larus canus). The light and electron microscopic studies were performed on the pineals of juvenile birds living in natural conditions of the Baltic Sea coast, which have been untreatably injured during strong storms in autumn and qualified for euthanasia. The investigated pineals consisted of a wide, triangular, superficially localized distal part and a narrow, elongated proximal part, attached via the choroid plexus to the intercommissural region of the diencephalon. The accessory pineal tissue was localized caudally to the choroid plexus. Based on the histological criteria, the organ was classified as the solid-follicular type. Two types of cells of fotoreceptory line were distinguished: rudimentary-receptor pinealocytes and secretory pinealocytes. Both types of cells were characterized by unusual features, which have been not previously described in avian pinealocytes: the presence of paracrystalline structures in the basal processes and their endings, the storage of glycogen in the form of large accumulations and the arrangement of mitochondria in clusters. Further studies on other species of wild water birds dwelling in condition of cold seas are necessary to explain if the described features of pinealocytes are specific for genus Larus, family Laridae or a larger group of water birds living in similar environmental conditions.
