Little is known on how hematozoan infection changes reptile hematology. The lizard Ameiva ameiva is widely distributed in the Americas and is infected by hematozoan parasites. Previous studies on this lizard have shown that the parasite of monocytes causes a variety of ultrastructural changes in infected host cells. The present study reports that this infection does not cause any change to the erythrocytic values. However, a marked increase in the number of leukocytes (especially monocytes) was detected. This indicates that the hemogregarine not only modulates the infected monocyte, but also increases the blood pool of this leukocyte. A Plasmodium sp was also found infecting erythrocytes of one lizard.
SummaryThe morphology of the eggs and miracidia of Eurytrema coelomaticum was analyzed. The eggshell presented different composition according to the maturation stage of the egg, as seen by distinct birefringence after polarized light microscopic analysis. Detailed morphology of the brownish eggs, measuring 44.97±3.83 (38.67 -51.40) μm in length and 30. 71±2.54 (25.79 -34.47) μm in width, and the different electrondensities of the inner, middle and outer layers of the eggs were determined using light (bright fi eld and DIC) and electronic microscopy (scanning and transmission). The morphometry of the eggs is in accordance to those measures presented in previous studies. The miracidia were observed using light microscopy, inside and outside the egg. It was possible to observe the terebratorium at the anterior end of the body, the ciliated epidermal plates, placed according the formula E=2E 1 + 2E 2 , and the interepidermal ridge, but eyespots were not observed. The excretory vesicle was laterally placed in the posterior middle of the body and the germ balls were observed. The miracidium inside the egg was observed by routine techniques, but the miracidium was not well preserved. Thus, the eggs were processed using high pressure-freeze substitution technique and reasonable preservation was achieved. The cilia covering the larval body, with a typical ciliary organization, the terebratorium with folds and the junction of the epidermal ciliated cell with the larval body were seen. For the fi rst time detailed information on the eggs and miracidia of E. coelomaticum is given, which can be the basis for new studies.
Approximately one-third of the human population is estimated to be chronically infected with the obligate intracellular parasite
Toxoplasma gondii
. Humans are accidental hosts that are infected with
T. gondii
after consumption of undercooked meat or contaminated water.
Malaria is a serious infectious disease caused by parasites of the Plasmodium genus that affect different vertebrate hosts. Severe malaria leads to host death and involves different pathophysiological phenomena such as anemia, thrombocytopenia and inflammation. Nitric oxide (NO) is an important effector molecule in this disease, but little is known about its role in avian malaria models. Plasmodium gallinaceum- infected chickens were treated with aminoguanidine (AG), an inhibitor of inducible nitric oxide synthase, to observe the role of NO in the pathogenesis of this avian model. AG increased the survival of chickens, but also induced higher parasitemia. Treated chickens demonstrated reduced anemia and thrombocytopenia. Moreover, erythrocytes at different stages of maturation, heterophils, monocytes and thrombocytes were infected by Plasmodium gallinaceum and animals presented a generalized leucopenia. Activated leukocytes and thrombocytes with elongated double nuclei were observed in chickens with higher parasitemia; however, eosinophils were not involved in the infection. AG reduced levels of hemozoin in the spleen and liver, indicating lower inflammation. Taken together, the results suggest that AG reduced anemia, thrombocytopenia and inflammation, explaining the greater survival rate of the treated chickens.
Toxoplasma gondii causes toxoplasmosis, a worldwide disease. Experimentation with
pigs is necessary for the development of new therapeutic approaches to human
diseases. BR-1 mini pigs were intramuscularly infected with T. gondii with
tachyzoites (RH strain) or orally infected with cysts (ME-49 strain). Haematology and
serum biochemistry were analysed and buffy coat cells were inoculated in mice to
determine tachyzoite circulation. No alterations were observed in erythrocyte and
platelet values; however, band neutrophils increased seven days after infection with
ME-49. Serology of the mice inoculated with pig blood leucocytes revealed circulating
ME-49 or RH strain tachyzoites in the pigs' peripheral blood at two and seven or nine
days post-infection. The tachyzoites were also directly observed in blood smears from
the infected pigs outside and inside leucocytes for longer periods.
Alanine-aminotransferase was high at days 21 and 32 in the RH infected pigs. After 90
days, the pigs were euthanised and their tissue samples were processed and inoculated
into mice. The mice serology revealed the presence of parasites in the hearts, ileums
and mesenteric lymph nodes of the pigs. Additionally, cysts in the mice were only
observed after pig heart tissue inoculation. The infected pigs presented similar
human outcomes with relatively low pathogenicity and the BR-1 mini pig model infected
with ME-49 is suitable to monitor experimental toxoplasmosis.
Raising ostriches became an important economic activity after their products became commodities. The health of farm animals is of paramount importance, so assessing basic immunological responses is necessary to better understand health problems. We developed a method to obtain ostrich thrombocytes and macrophages. The thrombocytes died by apoptosis after 48 h in culture, and the macrophages expanded in size and increased the number of acidic compartments. Macrophages were activated by chicken interferon-γ, producing high levels of nitric oxide. Toxoplasma gondii was able to infect these macrophages, and activation controlled parasitic reproduction. T. gondii, however, persisted in these cells, and infection reduced the production of nitric oxide. These results are important for the future assessment of the basic cellular and immunobiology of ostriches and demonstrate T. gondii suppression of nitric oxide production.
Hematological evaluation, important for the diagnostic by the small domestic animal clinician, has become common in wildlife clinic, and for handling and study of the physiology of various species. Given the increased demand for drug production of pharmaceutical importance, the breeding of venomous snakes has become common and is already recognized as production. Knowledge of the management and clinics of snakes is still insufficient and their mortality is high. Although some hematological studies have already been conducted in the rattlesnake (Crotalus durissus), the analyzed data are still insufficient, especially with respect to the characterization of blood cells, and few electron microscopy studies have been performed on snakes. In order to characterize morphologically blood cells with light and ultrastructural microscopy, blood samples from 52 individuals of subspecies of Crotalus durissus terrificus were collected to perform blood smears and ultrastructural evaluation. It was concluded that hematologic Giemsa staining allows morphological evaluation and differentiation of the blood cells as well as of snake hemoparasites. The ultrastructural evaluation will highlight the cell organelles and differentiation between cells, including leukocyte types; although still further studies are needed to elucidate the hypothesis of eosinophils in the species studied as also is necessary a better characterization of azurophilic beads to confirm a possible difference between the typical monocyte and the azurophilic.
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