Title: Effects of high fat diet and prednisolone treatment on femoral head separation in chickens Authors
Submitted to: British Poultry Science
Publication Type: Peer Reviewed Journal
Publication Acceptance Date: June 10, 2011
Publication Date: April 1, 2012
Citation: Durairaj, V., Clark, F.D., Coon, C., Huff, W.E., Okimoto, R., Huff, G.R., Rath, N.C. 2012. Effects of high fat diet and prednisolone treatment on femoral head separation in chickens. British Poultry Science. 53(2):198-203. Interpretive Summary: Broiler breeders sometimes, are affected with a leg problem called “femoral head separation (FHS)” where the upper leg bone separates from the pelvic joint. It causes infection and lameness. To determine whether high fat diet and growth can cause this problem, we fed chickens with diets containing high fat diet for 7 weeks which caused no FHS. On the other hand, if the birds were injected with a synthetic stress hormone, prednisolone for short duration, increased incidences of FHS were observed. The prednisolone induced FHS can be a good experimental model to understand the mechanism of FHS and its control.
Technical Abstract: The effects of high fat diets or transient treatment with cholesterol or a synthetic glucocorticoid, prednisolone, on femoral head fragility of broiler chickens was examined along with other production parameters such as growth, feed conversion, and blood chemistry. Three groups of broiler chicks consisting of 30 birds per group in two replicate pens were fed isonitrogenous diets containing 4 (control), 6 or 8% poultry fat. Two groups receiving control diets consisting of 4% fat were injected with either cholesterol or prednisolone by intramuscular route on days 30 and 32. All birds were killed and necropsied on day 37. They were examined for femoral head fragility by applying mild pressure on the pelvic joint that results in the separation of the femoral growth plate from its articular cartilage in case of arthropathy. High fat diets did not cause any discernible change in final body weights (BW) or other parameters including femoral head separation (FHS) index. Injection of cholesterol, a precursor compound of glucocorticoids, caused no significant change in the above parameters compared with prednisolone which caused decreased BW, decreased feed efficiency, increased FHS index, and elevated blood lipids. These results suggest that prednisolone induced FHS may serve as a good experimental model for studying femoral head separation and necrosis problems in poultry.