Effectiveness of benzimidazole treatments against Haemonchus contortus in sheep and goats – Do they produce similar responses?

The primary aim of this study was to compare the in vivo responses to orally administered doses of albendazole (5 mg/kg body weight) between experimentally infected sheep and goats. Fifty-four Improved Valachian lambs and 54 Saanen goat kids were split into six groups of nine animals. The sheep and goats were infected with larvae of the gastrointestinal nematode parasite Haemonchus contortus containing 10, 20, 30, 40, 60, and 80 % of the isotype-1 β-tubulin gene codon 200 alleles previously shown to be associated with benzimidazole (BZ)-resistance. All groups of goats generally had higher mean eggs per gram (EPG) before treatment, which was significant (p<0.05) only for the group with 80 % resistance alleles. An in vivo faecal egg reduction test (FECRT) was used to determine the efficacy of albendazole (ABZ) eight days after treatment. Anthelmintic treatment significantly reduced the EPGs in the groups with 10, 20, and 80 % resistance alleles in sheep and with 10, 20, 30, and 40 % resistance alleles in goats. Differences in efficacy between the sheep and goats after the application of doses of ABZ recommended for sheep mostly ranged from 2 % to 10 %. The largest variation was in the group infected with worms containing 60 % resistance alleles, where the efficacy was 13 % higher in goats. Our secondary aims were to evaluate the data obtained from an in vitro egg hatch test (EHT) in sheep and goats and to compare these data with the results from the isotype-1 β-tubulin gene codon 200 pyrosequencing and the FECRT. The percentages of the BZ-resistance alleles were comparable with the mean hatching obtained in the EHT and were also supported by the FECRT data for all groups. The results of the in vivo tests should be verified in the future using in vivo surveys conducted in mixed breeds and infections in multiple species

Resistência anti-helmíntica em nematoides gastrintestinais de pequenos ruminantes: avanços e limitações para seu diagnóstico

A seleção e a crescente disseminação de nematoides resistentes aos anti-helmínticos mais comumente utilizados, benzimidazóis (BZs), imidazotiazóis e lactonas macrocíclicas (LMs), constituem um sério entrave na produção de pequenos ruminantes em todo o mundo. O uso de métodos eficientes e sensíveis para a detecção e o monitoramento da resistência anti-helmíntica no campo torna-se urgente, especialmente para os grupos de BZs e LMs, devido aos constantes relatos de resistência. A obtenção de um diagnóstico preciso e precoce da resistência é extremamente importante para auxiliar a tomada de decisão em programas de controle parasitário, com o objetivo de preservar a vida útil dos produtos e limitar o desenvolvimento da resistência nas populações de nematoides. Os testes in vivo e, mais recentemente, os testes in vitro têm sido desenvolvidos para a detecção de nematoides resistentes aos principais grupos de anti-helmínticos. No entanto, a disponibilidade de testes in vitro validados e o seu uso prático ainda são muito limitados. Embora o teste de redução na contagem de ovos nas fezes (TRCOF, in vivo - indireto) seja o principal método de escolha para a detecção de resistência no campo, vem recebendo críticas quanto à validade dos resultados, e passa por significativas modificações. Além disso, o desenvolvimento de técnicas moleculares a partir de alterações genômicas gerou avanços consideráveis nessa área de investigação, com o uso de mutações nos códons 167, 198 e 200 do gene da β-tubulina como principais SNPs (polimorfismos de nucleotídeo único; do inglês Single Nucleotide Polymorphisms) associados à resistência aos BZs. A presente revisão tem o objetivo de discutir os métodos de diagnóstico disponíveis para a detecção de resistência anti-helmíntica em nematoides de pequenos ruminantes, destacando progressos e obstáculos para seu uso na rotina laboratorial e no campo

Removal of amoxicillin and ampicillin using manganese dioxide/montmorillonite composite

BACKGROUND Clay-based materials represent great potential for the development of efficient and environmentally friendly sorbents. The study focuses on a laboratory-obtained manganese dioxide/montmorillonite (MnO2/MMT) composite for removal of two types of antibiotics - amoxicillin (AMX) and ampicillin (AMP) - from aqueous solution. RESULTS The composite was successfully prepared using a reduction procedure involving the reaction between potassium permanganate (KMnO4) and hydrochloric acid (HCl) to form MnO2 followed by the addition of MMT. X-ray analysis, scanning electron microscopy, X-ray fluorescence and Fourier transform infrared spectroscopy were performed for characterization of physicochemical and structural properties, simultaneous thermogravimetry and differential scanning calorimetry for estimation of thermal stability and high-performance liquid chromatography for determination of antibiotic equilibrium concentrations in aqueous solution. The precipitated MnO2 component, manifested by long fibers, corresponded to the tunnel structure of cryptomelane. In the case of MnO2/MMT it is evident that MnO2 developed short fibers with the participation of the MMT matrix. The thermal data suggested that the MnO2 phase upon contact with the clay support showed better thermal stability. The final decomposition of Mn2O3 was shifted to higher temperature of 985 degrees C. Adsorption procedure in a batch regimen showed sufficient sorption ability for both antibiotics with over 90% efficiency. For AMP the value of q(max) was about 45 mg g(-1) and for AMX it was only 21 mg g(-1). CONCLUSIONS The results provided valuable information for the design of a potentially inexpensive clay-based adsorbent and demonstrated the removal of two types of broad-spectrum beta-lactam antibiotics from aqueous solution to a sufficient degree.Web of Scienc

Immunoglobulins as Biomarkers for Gastrointestinal Nematodes Resistance in Small Ruminants: A systematic review

The rise of anthelmintic resistance worldwide has led to the development of alternative control strategies for gastrointestinal nematodes (GIN) infections, which are one of the main constraints on the health of grazing small ruminants. Presently, breeding schemes rely mainly on fecal egg count (FEC) measurements on infected animals which are time-consuming and requires expertise in parasitology. Identifying and understanding the role of immunoglobulins in the mechanisms of resistance could provide a more efficient and sustainable method of identifying nematode-resistant animals for selection. In this study we review the findings on immunoglobulin response to GIN in the literature published to date (june 2019) and discuss the potential to use immunoglobulins as biomarkers. The literature review revealed 41 studies which measured at least one immunoglobulin: 35 focused on lamb immune response (18 used non-naive lambs) and 7 on yearlings. In this review we propose a conceptual model summarizing the role of immunoglobulins in resistance to GIN. We highlight the need for more carefully designed and documented studies to allow comparisons across different populations on the immunoglobulin response to GIN infection