Coccidiosis, caused by protozoan parasites of the genus Eimeria, is perhaps the most widespread and difficult to manage poultry disease, resulting in considerable economic losses especially in the broiler sector.
Coccidiosis is ubiquitous and it is generally accepted that, under current production systems, coccidiosis control remains necessary. Coccidiosis is also one of the main triggers for other gastrointestinal disorders like necrotic enteritis and dysbacteriosis.
Prevention and control of coccidiosis is managed by optimizing disinfection protocols and applying the most suitable coccidiostat to prevent damage to the intestinal tract. Rotation between different coccidiostat active ingredients over time is good practice.
Thorough disinfection is always an important step in the prevention of any disease, but it is accepted that the omnipresence and extreme resistance of sporulated oocysts (infective stage of Eimeria parasites) makes eradication impossible. Some molecules, like chlorocresols, have proven efficacy against Eimeria oocysts and are therefore the preferred products used for the disinfection of poultry houses. Eradication might not be achievable, but the benefit of a significant reduction in the number of oocysts at the start of the new flock will result in lower infection pressure throughout the grow-out stage of production.
Preventative chemotherapy or using synthetic and/or ionophore coccidiostats continuously in the feed is the most common practice to control coccidiosis worldwide. Ionophores have a different mode of action from synthetic drugs since they can kill Eimeria early in their life cycle (motile stages or sporozoites and merozoites). To be effective, the ionophore must be present in the intestinal lumen at the time that these motile stages are present. It is therefore important to avoid interrupted medication programs since birds kept on litter ingest oocysts continuously.
Currently, Huvepharma is the only company marketing salinomycin in Europe (Sacox) and the US (Bio-Cox). Coccidiosis control is our core business and we are the only company able to offer the full toolbox for coccidial control in the poultry sector which includes:
This portfolio, and our associated expertise, makes us a unique partner for coccidiosis control. As part of our service, we regularly perform sensitivity testing of different coccidiostats. This post-marketing monitoring gives us insights into the sensitivities of recent field strains and the efficacy of coccidiostats.
A meta-analysis was performed using data from 18 different anticoccidial sensitivity tests (ASTs) conducted over a 7-year period (2013 - 2019) to compare the efficacy of salinomycin with narasin. The Eimeria isolates were collected from commercial farms in 13 different countries all using different coccidiosis control programs. The results show that, on average, birds treated with salinomycin had a higher average daily gain (ADG) and a higher average daily feed intake (ADFI) compared with birds treated with narasin. The (non-corrected) feed conversion rate (FCR) of the salinomycin group was lower compared with the narasin group (Table 1).
Table 1. Meta-analysis results from 18 different ASTs run between 2013 and 2019
Controlling coccidiosis is a key factor to ensure the best possible performance in broiler production. Salinomycin is the world's most widely used ionophore and is considered to be the gold standard for coccidiosis control.