Search Results (5)

This study aimed to evaluate the performance, nutrient digestibility, intestinal health, and duodenum gene expression of broilers challenged with Eimeria spp. supplemented with or without monensin sodium. A total of 144 male chicks were used, distributed in a completely randomized design with three treatments: unchallenged control (UN), challenged control (CC), and CC + 100 mg/kg of monensin sodium (MON). Six replicates of eight birds each were used. At 14 days of age, the challenged groups were inoculated with a mixture of Eimeria oocysts, 12,500 E. maxima, 62,500 E. acervulina, and 12,500 E. tenella oocysts/chick. Coccidial challenge impaired growth performance and nutrient digestibility and induced intestinal damage, as evidenced by reduced body weight gain and feed intake (p < 0.001), lower apparent digestibility coefficients (p < 0.001), and altered intestinal morphometry and ISI score in the jejunum and cecum (p < 0.001). Monensin supplementation partially alleviated these negative effects, improving performance and nutrient digestibility (p < 0.001) and delaying oocyst excretion (p = 0.006) when compared with the CC group. However, the duodenal expression of tight junction-related genes, as well as intestinal integrity and health parameters, remained impaired despite monensin supplementation. It is concluded that monensin preserves nutrient digestibility and attenuates performance loss in broilers challenged with Eimeria spp. but not reduced intestinal damage. Full article

Coccidiosis, caused by an obligate intracellular parasite of the genus Eimeria, is the most economically parasitic disease in poultry. Long-term reliance on synthetic anticoccidials and ionophores has accelerated the emergence of drug resistance and intensified the need for effective, residue-free alternatives. This narrative review synthesizes findings from peer-reviewed studies published between 1998 and 2025, summarizing advances in non-antibiotic control strategies encompassing five domains: (i) phytochemicals and botanicals, (ii) functional nutrition and mineral modulators, (iii) microbial and gut modulators, (iv) host-directed immunological and biotechnological approaches, and (v) precision and omics-guided biotherapeutic platforms. These approaches consistently reduce lesion severity, oocyst shedding, oxidative stress, and mortality while improving growth parameters in a variety of Eimeria models. However, translation to field settings remains constrained by variable bioactive composition, limited standardization, inadequate pharmacokinetic data, and the scarcity of large-scale, multi-farm validation studies. This review provides a concise summary of current evidence and delineates critical knowledge gaps to guide the development, optimization, and deployment of next-generation anticoccidial strategies. Together, natural products and emerging biotechnologies provide a promising foundation for sustainable, high-welfare, antibiotic-independent coccidiosis control. Full article

Salinomycin is a polyether ionophore natural product widely studied for its anticancer stem cell properties and well established anti-coccidial activity. However, its complex structure and tendency to isomerise in solution complicates its mass spectrometric analysis. In this study, a combination of high-resolution accurate mass electrospray sequential mass spectrometry, ion mobility spectrometry and computational modelling was employed to analyse salinomycin and its isomers for the first time. Product ions generated from salinomycin and its isomer in the MSⁿ analysis are distinguished, and detailed fragmentation mechanisms are proposed. The novel application of ion mobility mass spectrometry to separate isomeric salinomycins provides revolutionary insight into the chelation positions of sodium by salinomycin (‘ionoforms’). The cation position has a fundamental effect on the fragmentation routes observed. These observations were supported by Gaussian modelling and collision cross-section calculations. The relationship between collision energy and peak intensity of all identifiable forms of salinomycin and respective product ions was visualised by a 3D energy breakdown graph. Results from this study provided firm grounding for understanding complex structures such as salinomycin. The methodology demonstrated here could be applied to a wide range of natural products and in other drug development or metabolomic studies. Full article

The objective of this study was primarily to assess the different performance impacts of two ionophore coccidiostats (narasin and salinomycin) used to manage coccidiosis. While both products may be efficacious in controlling disease challenges, previous literature has suggested that some ionophores are less well tolerated by the broiler chickens. In this study, we were particularly interested to know how the use of different coccidiostat programs translates into broiler health and performance, as measured by zootechnical parameters such as the feed conversion ratio, average daily gain, and final body weight. A total of 352 male Ross 308 one-day-old broilers were randomly divided into two treatment groups (T1 and T2). Treatment 1 included a basal diet (BD) + nicarbazin/narasin (Maxiban^®, Elanco) at 100 ppm 0–24 days, narasin at 70 ppm 25–42 days, and (2) Treatment 2 included basal diet + nicarbazin/narasin at 100 ppm 0–24 days, salinomycin (Sacox^®, Huvepharma) at 70 ppm 25–42 days. Efficacy and performance parameters, slaughter analysis, dry matter (DM) in litter, and intestinal integrity (I²) were measured for the broilers from both treatment groups. The findings demonstrated more favorable results for broilers reared in the group diet fed with narasin (in the finisher phase), including higher daily body weight gain, higher final body weight, lower feed conversion ratio value (improved feed efficiency), and higher European Production Efficiency Factor value, compared with the salinomycin-supplemented group. Full article

Coccidiosis poses a significant challenge in poultry production and is typically managed with ionophores and chemical anticoccidials. However, the emergence of drug resistance and limitations on their use have encouraged the exploration of alternative solutions, including botanical compounds and improvements in in vitro screening methods. Prior research focused only on the impact of these alternatives on Eimeria invasion, with intracellular development in cell cultures receiving limited attention. This study assessed the impact of thyme (Thymus vulgaris), oregano (Origanum vulgare), and garlic (Allium sativum) essential oils, as well as their bioactive compounds, on the initial phase of schizogony in Madin–Darby bovine kidney cells, comparing their effectiveness to two commercially used anticoccidial drugs. Using image analysis and quantitative PCR, the study confirmed the efficacy of commercial anticoccidials in reducing invasion and schizont formation, and it found that essential oils were equally effective. Notably, thymol and carvacrol exhibited mild inhibition of intracellular replication of the parasite but significantly reduced schizont numbers, implying a potential reduction in pathogenicity. In conclusion, this research highlights the promise of essential oils and their bioactive components as viable alternatives to traditional anticoccidial drugs for mitigating coccidiosis in poultry, particularly by disrupting the intracellular development of the parasites. Full article