Fenbendazole resistance in Heterakis gallinarum, the vector of Histomonas meleagridis, on a broiler breeder farm in South Carolina.

Abstract

Parasites are highly prevalent in poultry; thus, the management of parasites is a key component in the profitable production of poultry. The most common nematode parasite of poultry, Heterakis gallinarum, typically causes no direct pathology but is the vector of Histomonas meleagridis, a highly pathogenic protozoan parasite that causes blackhead disease. There are no approved treatments for H. meleagridis, making control reliant on controlling the helminth vector. In the United States, the benzimidazole anthelmintic fenbendazole (FBZ) is the only approved treatment for H. gallinarum. We were contacted by an industry veterinarian regarding clinical problems with histomoniasis despite frequent anthelmintic treatments. Given that we had recently diagnosed FBZ resistance in the closely related parasite Ascaridia dissimilis, we were interested to determine if H. gallinarum had also evolved resistance. An initial on-farm pilot study using 20 birds suggested that FBZ was poorly effective, therefore a larger controlled study was initiated. Heterakis gallinarum eggs were isolated from litter at the farm and used to infect 118 chicks. Treatment groups included a non-treated control, a label-, and a 2×-label dose of FBZ, with 36 birds per group divided into two replicates of 18 birds. Three weeks post-hatch, birds were infected with 150 embryonated eggs. Two weeks post-infection treated birds were administered either a label- or 2× label-dose of FBZ in water for five days (SafeGuard® Aquasol, 1mg/kg BW). To increase the likelihood that all birds consumed the full intended dose, the dosage was calculated using 1.25 times the average body weight. One-week post-treatment, birds were euthanized, and parasites enumerated. There were no significant differences in worm numbers recovered from any of the three groups (p-value=0.3426), indicating that both dosages of FBZ failed to provide the expected levels of efficacy. These data provide strong evidence that H. gallinarum has developed resistance to FBZ on this farm. Consequently, on this farm, or any farm with FBZ-resistant H. gallinarum, H. meleagridis will continue to cycle in an unrestricted manner despite administration of anthelmintic treatments. Given recent evidence of increasing problems with histomoniasis, and the fact that resistance was documented on the first farm we investigated, further investigations are needed to determine the prevalence of resistance in H. gallinarum on poultry farms. These data, when viewed together with our recent findings of FBZ resistance in A. dissimilis on multiple farms, suggest that drug resistance in ascarid nematodes may be an emerging problem in the US poultry industry.