Identifying 3rd larval stages of common strongylid and non-strongylid nematodes (class: Nematoda) infecting Egyptian equines based on morphometric analysis.

Strongylid and non-strongylid nematodes are one of the most important parasites infecting equines. The traditional method to identify these nematodes is through coproscopy and fecal culture. Because of the scarcity of data published in Egypt discussing the morphometric features of infective 3rd larvae of these nematodes, this study aims to provide a morphometric key for L3 of common strongylid and non-strongylid nematodes infecting Egyptian equines. For this reason, we cultured fecal samples containing GINs eggs and 3rd larval stages were identified based on their morphology (i.e., shape and number of intestinal cells (IC), shape of the esophagus, and shape of the tail sheath) in addition to computing their dimensions (i.e., length of larvae with sheath, length of the esophagus, length of intestinal cells, and body breadth). We identified 3rd larval stages of four strongylid nematodes (Cyathostomum sensu lato, Strongylus vulgaris, Strongylus equinus, and Strongylus edentatus) as well as two non-strongylid nematodes (Strongyloides westeri, and Trichostrongylus axei). Statistically, our results revealed significant differences in terms of total length, body width, esophagus length, and gut length among 3rd larvae identified in the current study. The combination of both morphological and metric keys will allow the better identification of common strongylid and non-strongylid nematodes infecting equines.

Immunological and histopathological evaluation of Eimeria tenella oocysts Egyptian local isolate vaccine and its comparative efficacy with a commercial live vaccine.

Coccidiosis is the most important protozoan disease in broilers all over the world. Controlling of broilers coccidiosis via vaccination rather than chemicals is a new trend with promising results. Thus, the present work describes an evaluation of Eimeria tenella Lab-made vaccine of local Egyptian strain and its comparative efficacy with a commercial live vaccine "Fortegra®". Eighty broiler chickens one day old were used; they were divided in to 4 equal groups; 20 chicks each. Group 1 (G1) kept as control negative, G2 administrated orally with lab-made sporulated oocysts vaccine at 5 days old, the birds of G3 vaccinated orally with Fortegra® at day 6 of age, and G4 served as control positive. All birds were challenge by 50,000 sporulated oocysts of E. tenella at day 21. For testing the efficacy and comparison; OPG (oocyst per gram), serum Interleukin4 (IL4) levels, Immunoglobulin A (IgA) levels in both serum and ceca, cecal lesion score, as well as histopathological changes in ceca of tested groups were evaluated. The results demonstrated significantly elevated IL4 level in serum and IgA level in serum and cecum of G2 than G3. IgA in cecum significantly elevated in G2 than G3. OPG significantly decreased in both vaccinated groups (G2 and G3), and have lower lesion score than nonimmunized group. Cecal tissues of vaccinated groups had mild pathological changes. Conclusively, good immunization by the currently tested vaccine, against experimental E. tenella infection was observed.

Sarcocystis chloropusae (protozoa: Sarcocystidae) n. sp. from the common moorhen (Gallinula chloropus) from Egypt.

A new name Sarcocystis chloropusae is proposed for a parasite previously found in two of 25 common moorhen (Gallinula chloropus) from Brolos Lake, Egypt. Sarcocysts were microscopic, up to 650 µm long, the cyst wall was up to 4.5 µm thick, and contained villar protrusions that were up to 4 µm long and up to 2 µm wide. The villar protrusions were crowded, contained vesicles but lacked microtubules. The ground substance layer was smooth. The bradyzoites were up to 12 µm long and up to 2 µm wide. Molecular characterization and phylogenetic analysis of the (ITS-1) supported the conclusion that the Sarcocystis in G. chloropus is a distinct species.

Effects of curcumin on Cryptosporidium parvum in vitro.

Cryptosporidium parvum is a zoonotic protozoan parasite having peculiarities among the apicomplexa that could be responsible for its resistance to some drugs and disinfectants against coccidia. The awareness of Cryptosporidium as a health problem in man and animal is increasing and potent drugs are urgently needed. Curcumin, a natural polyphenolic compound, has been found to be active against a variety of diseases including anticarcinogenic, antimicrobial, and antiprotozoal effects. We investigated the effects of curcumin on infectivity and development of C. parvum in a recently established in vitro system combining infection of human ileocecal adenocarcinoma cell cultures with quantification of intracellular parasites by quantitative polymerase chain reaction. Curcumin was found to be effective (>95% inhibition of parasite growth) at 50 microM for 24 h when infected cultures were exposed for more than 12 h. Withdrawal of curcumin after 24 h of exposure did not result in a significant resumption of C. parvum growth. The invasion of host cells by sporozoites (infectivity) was found to be inhibited at least 65% in the presence of 200 microM curcumin. No significant reduction of viability of C. parvum oocysts after incubation with curcumin was recorded. Altogether, curcumin showed promising anticryptosporidial effects under in vitro conditions and deserves further exploration.