Exploring alternative anthelmintic compounds: Impact of peruvin, hentriacontane/1-nonacosanol and their synergistic effect on the health of Meriones unguiculatus infected with Haemonchus contortus.

Haemonchus contortus is a highly pathogenic blood-feeding parasite affecting sheep and goats, leading to significant economic losses. With increasing resistance to conventional anthelmintics, exploring plant-based alternatives is crucial. In vitro, studies suggest that peruvin and hentriacontane/1-nonacosanol, isolated from Artemisia cina (Asteraceae), may synergistically control Haemonchus contortus. However, their in vivo efficacy and safety are unestablished. This study evaluated these compounds' anthelmintic activity and health effects and their synergistic mixture in Meriones unguiculatus (gerbils). The compounds were isolated using open-column chromatography and identified by spectroscopic techniques. Gerbils were artificially infected with H. contortus following dexamethasone treatment to enhance infection. Anthelmintic activity was assessed by larval reduction in the stomach, blood biochemical parameters using a blood chemistry analyzer, and the anatomopathological changes in kidney and liver tissues. Peruvin (0.4 mg/kg) and hentriacontane/1-nonacosanol (2.60 mg/kg) achieved larvicidal reductions of 84.86 % and 74.05 %, respectively, while their synergistic mixture (0.08/0.0017 mg/kg) resulted in a 100 % reduction. Histopathological analysis revealed minor inflammation and albuminous degeneration, primarily affecting the liver. The peruvin-treated group showed notable kidney damage, while hepatic alterations were similar across both compounds. Although effective, further research is needed to optimize dosing and ensure safety.

Biochemical parameters, oxidative stress biomarkers, and anatomopathological changes in Wistar rats treated with 3'-demethoxy-6-O-demethylisoguaiacin and norisoguaiacin.

Artemisia cina (Ac) is a plant with anthelmintic compounds such as 3'-demethoxy-6-O-demethylisoguaiacin (D) and norisoguaiacin (N). Three major objectives were proposed: (1) To evaluate biochemical parameters in blood (2) to determine the tissue oxidative stress by biomarkers as TBARS and glutathione peroxidase activity, and (3) to evaluate anatomopathological changes in organs such as the brain, liver, kidney, and lung after oral administration of n-hexane extract of Ac and D and N. D and N were administrated following the OECD guides for acute oral toxicity evaluation (Guide 420). Fifty Wistar rats were distributed into ten groups as follows: Group 1 (G1): 4 mg/Kg; G2: 40 mg/Kg; G3: 240 mg/Kg; G4: 1600 mg/Kg of n-hexane extract of Ac. G5: 2 mg/Kg; G6: 20 mg/Kg; G7: 120 mg/Kg; G8: 800 mg/Kg of D and N, G9: water and G10: polyvinylpyrrolidone at 2000 mg/Kg. At 14 days, the rats were euthanized, and the blood, liver, brain, kidney, and lung were taken for biochemical analysis, anatomopathological changes, and TBARS and GSH evaluation. Glucose, cholesterol, and phosphorus were altered. Histopathological analysis showed multifocal neuronal degeneration in the brain (G2). The kidney and lungs had changes in G7. The GSH and TBARS increased in G6 and G7. The TBARS activity was higher in G1 and G2. In conclusion, extract and D and N of Ac did not have damage at therapeutic doses. D, N, and n-hexane extract of A. cina do not cause histopathological damage at pharmaceutical doses. Still, the brain, kidney, and liver are related to biochemical parameters at higher doses. However, compounds are proposed as antioxidant agents.

Isolation and identification of filamentous fungi and yeasts with zoonotic potential obtained from cattle egret (Bubulcus ibis) droppings.

The different microorganisms that make up the normal microbiota of birds can be present in different substrates such as the soil and other elements that make up the habitat. In the case of the cattle egret, the intestinal microbiota can change due to partially migratory habits. Thus, this study aimed to isolate and identified fungi and yeasts with zoonotic potential obtained from cattle egret (Bubulcus ibis) droppings settler in Tulancingo, Hidalgo, at Eastern economic zone of Mexico. Cattle egret droppings were collected for analysis, a total of 240 pool samples, which were spread on Sabouraud agar and incubated at 25.00 - 37.00 ˚C for 2 to 3 days. Filamentous fungi and yeast were identified by morphology and Lactophenol Blue staining or Chinese Ink stains. Filamentous fungi genera Mucor spp. (42.35%), Rhizopus spp. (26.71%); Penicillium spp. (13.35%); Paecilomyces spp. (11.40%); Scedosporium spp. (1.95%); and, from yeasts such as Cryptococcus spp. (2.29%); Rhodotorula spp. (1.95%) were identified. In this work, the presence of filamentous fungi genera and yeasts with zoonotic potential were isolated from droppings of cattle egret. The clinical presentation of fungal infections in humans can occur when immunosuppression is present or different predisposition factors are conjugated. The presence of birds and their dropping in anthropogenic activities is not a predisposing factor for the presentation of the disease in immunologically competent humans.