Department of Animal & Poultry Sciences, Virginia Tech, Blacksburg, VA 24061, USA.
Department of Animal Production, Faculty of Agriculture, Cairo University, Giza 12613, Egypt.
Poult Sci. 2018 Aug 1;97(8):2713-2721. doi: 10.3382/ps/pey148.
Coccidiosis is a costly parasitic disease to the poultry industry with multiple prevention methods being explored to control its impact. This study evaluated the feeding effects of β-glucans on performance and responses of chickens during a coccidiosis challenge. Cobb 500 male broilers (n = 1280) were assigned to 1 of 8 treatment groups (8 replicate pens; 20 birds/pen) in a 2 × 4 factorial arrangement, including non-infected and Eimeria-infected birds fed for 28 d a control diet, control + BG (150 g/MT Algamune 50), control + BGZn (100 g/MT Algamune 50 Zn), and control + 0.01% Salinomycin (Sal). On d15, birds in the challenge groups received a mixed Eimeria inoculum. Birds and feed were weighed weekly on a per pen basis to evaluate body weight gain (BWG), feed intake (FI), and feed conversion ratios (FCR). Lesion scores were assessed 6 d post infection (d21) on 3 birds per pen. Performance data were subjected to ANOVA and differences were established using the LS-MEANS statement with significance reported at P ≤ 0.05. There were minor differences in lesion scores among the dietary treatments in the infected groups with reduced duodenal and cecal scores in the Sal group compared to the BGZn and BG groups, respectively. The coccidiosis challenge main effect resulted in a significant reduction in 0-28 d BW and FI. Dietary treatment resulted in non-significant effect on BWG, but Sal addition resulted in increased FI. A significant diet X challenge interaction resulted in higher FCR in the Eimeria-challenged birds supplemented with Sal and BGZn in comparison to the other challenged groups, likely due to reduced mortality in the challenged Sal and BGZn groups. Body composition analysis at d28 revealed that the Eimeria challenge reduced both fat and lean tissue contents, where the β-glucans and Sal birds had lower fat percent than control birds.
球虫病是家禽养殖业中一种代价高昂的寄生虫病,人们正在探索多种预防方法来控制其影响。本研究评估了β-葡聚糖对球虫病攻毒期间鸡只生产性能和反应的影响。将 1280 只科宝 500 雄性肉鸡(n = 1280)分配到 8 个处理组(8 个重复栏,每栏 20 只鸡)的 2 × 4 析因设计中,包括未感染和感染艾美耳球虫的鸡,分别饲喂基础日粮 28 天、基础日粮+BG(150 g/MT Algamune 50)、基础日粮+BGZn(100 g/MT Algamune 50 Zn)和基础日粮+0.01%盐霉素(Sal)。攻毒第 15 天,攻毒组的鸡只接受混合艾美耳球虫接种。每周以栏为单位对鸡只和饲料进行称重,以评估体重增重(BWG)、采食量(FI)和饲料转化率(FCR)。攻毒后第 6 天(第 21 天),每个栏随机选取 3 只鸡进行病变评分。对试验数据进行方差分析,使用 LS-MEANS 语句进行差异显著性检验,P ≤ 0.05 表示差异显著。感染组中不同日粮处理的病变评分差异较小,与 BGZn 组和 BG 组相比,Sal 组十二指肠和盲肠病变评分降低。球虫病攻毒的主要作用导致 0-28 天 BW 和 FI 显著降低。日粮处理对 BWG 无显著影响,但 Sal 添加导致 FI 增加。日粮×攻毒的交互作用显著导致添加 Sal 和 BGZn 的攻毒鸡的 FCR 升高,这可能是因为攻毒 Sal 和 BGZn 组的死亡率降低。第 28 天的体组成分析表明,球虫病攻毒降低了脂肪和瘦肉组织含量,而β-葡聚糖和 Sal 组的鸡只脂肪百分比低于对照组。
