Department of Animal and Food Sciences, Texas Tech University, Lubbock 79409.
Department of Animal and Food Sciences, Texas Tech University, Lubbock 79409; USDA-Agricultural Research Service Livestock Issues Research Unit, Lubbock, TX 79401.
J Dairy Sci. 2017 Sep;100(9):7154-7164. doi: 10.3168/jds.2016-12509. Epub 2017 Jul 19.
This study was designed to investigate the effects of supplementing SmartCare (SC; Diamond V, Cedar Rapids, IA) in milk replacer and Original XPC (XPC; Diamond V) in calf starter on performance and health of preweaned calves following an oral challenge with Salmonella enterica. The study was performed in two 35-d periods with 30 Holstein bull calves (2 ± 1 d of age) per period. In each period, calves were blocked by location in the barn and randomly assigned to treatments that included control, base milk replacer and calf starter with no added Saccharomyces cerevisiae fermentation products; SC, milk replacer with 1 g of SC/calf per day and base calf starter; and SC+XPC, milk replacer with 1 g of SC/calf per day and calf starter with 0.5% XPC on a dry matter basis. Calves were fed 350 g of milk replacer solids at 14% dry matter twice daily at 0700 and 1700 h. Calf starter and water were offered ad libitum and intakes were recorded daily. Calves were challenged with 108 cfu of sulfamethazine-resistant Salmonella enterica serotype Typhimurium orally on d 14 of the study. Fecal Salmonella shedding was determined on d 14 to 21 (daily), 24, 28, and 35 using selective media. Blood samples were collected on d 0, 7, 14, 16, 18, 21, 24, 28, and 35 and analyzed for hematology; plasma were analyzed for haptoglobin concentrations. All data were reported as CON, SC, and SC+XPC, respectively. Calf starter intake was increased from d 22 to 35 among SC+XPC calves and from d 29 to 35 among SC calves. The SC+XPC calves had a lower neutrophil-to-lymphocyte ratio (0.81, 0.83, and 0.69 ± 0.051) throughout the study. The SC+XPC calves also had lower hematocrits (35.1, 35.3, and 33.4 ± 0.54%) and hemoglobin concentrations (10.8, 10.6, and 10.1 ± 0.16 mg/dL) throughout the study. We found a tendency for calves fed SC and SC+XPC to have more solid fecal scores during the week after the challenge. We observed no treatment or treatment × time differences on plasma haptoglobin concentrations (63, 48, and 60 ± 0.5 μg/mL). No treatment differences were observed in the fecal shedding of the Salmonella; however, we noted a tendency for a treatment difference in the percentage of calves positive for Salmonella present in the ileal tissue at d 21 after the challenge (25, 50, and 60%). Supplementing preweaned Holstein calves with both SC in milk replacer and XPC in calf starter improved starter intake and improved fecal consistency immediately after a mild Salmonella enterica challenge, but more data are needed to further understand how these yeast fermentation products influence the immune responses to Salmonella enterica.
本研究旨在调查在代乳中补充 SmartCare(SC;Diamond V,爱荷华州锡达拉皮兹)和在犊牛开食料中补充 Original XPC(XPC;Diamond V)对口服沙门氏菌挑战后未断奶犊牛的性能和健康的影响。该研究在两个 35 天的时期内进行,每个时期有 30 头荷斯坦公牛犊(2 ± 1 日龄)。在每个时期,犊牛按牛舍位置分组,并随机分配到以下处理中:对照、基础代乳和不含酿酒酵母发酵产品的犊牛开食料;SC,每天每头犊牛 1 克 SC 的代乳和基础犊牛开食料;和 SC+XPC,每天每头犊牛 1 克 SC 的代乳和犊牛开食料,基础上添加 0.5%XPC(以干物质为基础)。犊牛每天两次在 14%干物质的基础上摄入 350 克代乳固体,分别在 0700 和 1700 时摄入。犊牛开食料和水自由采食,每天记录摄入量。在研究的第 14 天,用 108 个磺胺嘧啶抗性沙门氏菌血清型 Typhimurium 对犊牛进行口服攻毒。在第 14 至 21 天(每天)、24、28 和 35 天,使用选择性培养基确定粪便中沙门氏菌的脱落情况。在第 0、7、14、16、18、21、24、28 和 35 天采集血液样本,并进行血液学分析;分析血浆中的触珠蛋白浓度。所有数据分别报告为 CON、SC 和 SC+XPC。在 SC+XPC 犊牛中,从第 22 天到第 35 天,在 SC 犊牛中,从第 29 天到第 35 天,犊牛开食料的摄入量增加。在整个研究过程中,SC+XPC 犊牛的中性粒细胞与淋巴细胞比值(0.81、0.83 和 0.69 ± 0.051)较低。在整个研究过程中,SC+XPC 犊牛的红细胞压积(35.1、35.3 和 33.4 ± 0.54%)和血红蛋白浓度(10.8、10.6 和 10.1 ± 0.16mg/dL)较低。我们发现,在攻毒后的一周内,饲喂 SC 和 SC+XPC 的犊牛粪便评分更高。我们没有观察到处理或处理×时间对血浆触珠蛋白浓度(63、48 和 60 ± 0.5μg/mL)的影响。在粪便中沙门氏菌的脱落方面没有观察到处理差异;然而,我们注意到在攻毒后第 21 天,在回肠组织中存在沙门氏菌的犊牛百分比方面存在处理差异的趋势(25、50 和 60%)。在代乳中补充 SC 和在犊牛开食料中补充 XPC 可提高开食料的摄入量,并在轻度沙门氏菌攻毒后立即改善粪便稠度,但需要更多的数据来进一步了解这些酵母发酵产品如何影响对沙门氏菌的免疫反应。
