RESUMO
Three hemoplasma species, Mycoplasma haemofelis, Candidatus Mycoplasma haemominutum, and Candidatus Mycoplasma turicensis, have been identified in domestic and wild felids. M. haemofelis may cause severe clinical manifestations in domestic cats, whereas others can lead to mild infections. Identification of these pathogens is done using molecular diagnostic tools like conventional-PCR or real-time PCR. However, these have disadvantages, such as the failure to differentiate species or high cost. This study aimed to develop a triplex-PCR method for the diagnosis and discrimination of feline hemoplasma species. Furthermore, it is aimed at providing molecular data on the epidemiology of feline hemoplasma species in Türkiye, where there is a paucity of information on these pathogens. Triplex-PCR primers amplifying the 16S rRNA gene regions of M. haemofelis (1022 bp), Ca. Mycoplasma haemominutum (607 bp), and Ca. Mycoplasma turicensis (456 bp) species were designed and optimized. Moreover, the detection limits of the method were also determined and it was found that the primers could detect 0.001 ng/µL amount of DNA for M. haemofelis, 0.0001 ng/µL for Ca. Mycoplasma haemominutum, and 0.0002 ng/µL for Ca. Mycoplasma turicensis in the sample. 286 cat blood samples obtained from Sivas province were researched for feline hemoplasma species. Feline hemoplasma species were detected in samples of 29 out of 286 cats (10.23 %). Five samples (1.74 %) were infected with only M. haemofelis, whereas 22 (7.69 %) were only infected with Ca. Mycoplasma haemominutum. Two samples (0.69 %) were found to be infected with both M. haemofelis and Ca. Mycoplasma haemominutum. Ca. Mycoplasma turicensis was not detected in this study. A triplex-PCR method that can be used for the identification and species differentiation of feline hemoplasma species in hosts was developed. Moreover, hemoplasma species were found to be circulating in cats in the study area, and it is recommended that veterinarians and animal owners take the necessary precautions to protect themselves and their cats from these pathogens.
RESUMO
Contrary to its widespread use in human cases, the use of Doppler ultrasonography is only recently becoming prevalent in farm animals. This study aimed to determine the effects of maternal metabolic and clinical changes on fetal hemodynamics during pregnancy toxemia with the doppler examination of umbilical cord. In the study twenty ewes with a single healthy fetus were included in the study. At the end of the 120th day of pregnancy, 20 single-bearing pregnant ewes were randomly categorized into two groups. Ewes in the control group were fed to meet all nutritional requirements. On the other contrary, the experimental ewes were fed to meet equivalent to 50 % of the daily needs and then fasted for 96 h. Doppler ultrasonographic examinations of umbilical cord were performed once every two days and once a day during fasting. Beta hydroxybutyric acid (BHBA) concentration was measured by taking blood from sheep on examination days. Pulse systolic velocity (PSV), end diastolic velocity (EDV), PSV/EDV, pulsatility index (PI), resistance index (RI), and fetal heart rate (FHR) as well as BHBA values and how those parameters has changed over time (time by treatment effect) due to energy deprivation during pregnancy were evaluated using repeated measure analysis of variance. No clinical signs were observed in both toxemia and control groups during restricted feeding. BHBA concentration increased and there was a significant time, time by treatment and main effect of treatment effect between groups. No significant main effect of treatment and time by treatment interaction was observed in the changes of PI, RI, FHR, and systolic/diastolic velocity values over time in both groups. FHR was reduced over time, and there was a significant time effect in FHR in both groups. Although doppler indices didn't increase, both PSV and EDV values increased significantly in the pregnancy toxemia group compared with the controls (Time P = 0.03, time by treatment interaction P < 0.05) and the main effect of treatment P < 0.05). The marked increase in blood velocities (PSV and EDV) in the umbilical cord is probably due to the compensatory functioning for excessive energy deprivation of the fetus. Therefore, PSV and EDV might be a valuable indicator for evaluating the fetus's health status during the management of the PT.