Narasin is effective against all species of chicken coccidia when tested in short-term battery cage experiments. The efficacy of narasin at concentrations of 20, 40, 60, 80, and 100 ppm was evaluated in ten floor pen trials in which commercial broiler production conditions were simulated. To provide intentional exposure to different levels of coccidia challenge, the litter of some pens was seeded with oocysts of each of the pathogenic species of chicken coccidia, whereas some pens were left nonseeded. Weight gain, feed efficiency, and lesion score data from the ten trials were analyzed as one randomized block experiment. Medication with narasin resulted in a significant reduction in lesion scores and significant improvement in weight gain and feed:gain ratios when compared with scores and gain of nonmedicated controls for both seeded and nonseeded pens. Each increase in narasin concentration up to 100 ppm for the seeded pens and up to 80 ppm for the nonseeded pens resulted in a significant reduction in cecal lesion scores. Although maximum weight gain in the seeded pens was obtained with 40 ppm narasin, concentrations greater than or equal to 60 ppm narasin were significantly better than the 40 ppm concentration in improving feed:gain ratios. These results confirm the effectiveness of narasin in controlling coccidiosis in broilers exposed to oocysts in the litter of floor pens. Furthermore, a clear relationship between the response to narasin and the level of oocyst challenge was demonstrated.
Narasin is a polyether monocarboxylic acid antibiotic produced by Streptomyces aureofaciens. An extensive series of battery cage trials was conducted to evaluate the efficacy of narasin against recent field isolates of the pathogenic species of chicken coccidia. Statistical analyses of the results of these studies revealed that each successive increase in the concentration of narasin produced a significant reduction in the severity of cecal and intestinal lesions when compared with those in infected nonmedicated controls. Increasing the concentration of narasin also produced significant improvements in weight gain and feed efficiency when compared to gain and feed efficiency of infected nonmedicated controls. Maximum weight gain of birds infected with Eimeria tenella alone was obtained at a narasin concentration of 60 ppm, but birds infected with E. tenella plus intestinal species of coccidia, when medicated with 80 ppm narasin had weight gains significantly greater than those of birds medicated with 60 ppm narasin. Weight gain improvement decreased at narasin concentrations greater than or equal to 100 ppm. Results of these studies confirm the effectiveness of narasin in controlling coccidial infections produced by recent field isolates of the pathogenic species of chicken coccidia.
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