Department of Dairy and Food Sciences, South Dakota State University, Brookings 57007.
Department of Animal Sciences and Division of Nutritional Sciences, University of Illinois, Urbana 61801.
J Dairy Sci. 2018 Sep;101(9):8224-8235. doi: 10.3168/jds.2017-14254. Epub 2018 Jun 21.
A degree of negative energy balance is commonly experienced by cows during early lactation. This physiological state, if pronounced or prolonged, leads to partial oxidation of nonesterified fatty acids as an energy source and, consequently, increasing blood β-hydroxybutyrate (BHB) concentrations and potentially development of ketosis in postpartal dairy cows. Twenty-four multiparous Holstein cows received a common prepartal and postpartal diet. Cows were fitted with an accelerometer mounted laterally on the distal left hind leg using vet wrap from -30 to 15 d relative to parturition. A retrospective analysis was performed using the postpartal BHB data at 8 time points from 0 to 15 d in milk measured with the Precision Xtra (Abbott Diabetes Care, Alameda, CA). Cows with an average blood BHB <1.4 mmol/L were designated nonketotic (NONKET; n = 12), and those with ≥1.4 mmol/L were designated ketotic (KET; n = 12). A total of 8 samples per cow were used for this analysis. Subsequent analyses of behavioral patterns and blood biomarkers were performed using this group effect. On average, blood BHB reached subclinical levels (1.4 ± 0.3 mmol/L; mean ± standard error of the mean) at 3 d postpartum for all cows in this study. Behavioral patterns were obtained from accelerometer data, and correlation analysis was performed between these behaviors such as standing and lying time from -30 to 3 d relative to parturition and blood BHB concentration at 3 d postpartum. The strongest correlation was obtained between standing time at 3 d before calving and blood BHB at 3 d postpartum. Dry matter intake was greater (ca. 3 kg/d) in NONKET cows than in KET cows. An interaction of group × time for milk yield resulted in an overall increase of 5.7 kg/d in NONKET cows in comparison with KET. The blood concentrations of biomarkers for liver function (γ-glutamyltransferase and glutamic-oxaloacetic transaminase), inflammation (IL-6), and metabolism (nonesterified fatty acids) were increased at various time points in KET cows in comparison with NONKET during the transition period. Overall, lower bilirubin in NONKET cows than in KET further confirmed an impaired liver function in the latter group of cows. Our findings revealed the potential for establishing correlations between prepartal behavioral patterns derived from accelerometer data and postpartal subclinical ketosis, and further confirming the latter by physiological alterations in biomarkers related to inflammation and liver function. Our data also indicate that cows with a predisposition to postpartal subclinical or clinical ketosis will remain standing for fewer hours during the days leading to parturition, which decreased DMI, and this condition was further reflected in lower milk yield.
奶牛在泌乳早期通常会经历一定程度的负能量平衡。这种生理状态如果明显或持续存在,会导致非酯化脂肪酸部分氧化作为能量来源,从而导致产后奶牛血液β-羟丁酸(BHB)浓度升高,并可能发生酮病。24 头经产荷斯坦奶牛接受了常规产前和产后饮食。在分娩前-30 至 15 天,使用兽医绷带将加速度计横向安装在左后腿的远端。使用 Precision Xtra(雅培糖尿病护理,阿拉米达,CA)在产后 8 个时间点(0 至 15 天)测量血液 BHB 后,对产后 BHB 数据进行了回顾性分析。血液 BHB 平均值<1.4mmol/L 的奶牛被指定为非酮症(NONKET;n=12),血液 BHB 平均值≥1.4mmol/L 的奶牛被指定为酮症(KET;n=12)。每个牛使用 8 个样本进行此分析。使用该组效应对行为模式和血液生物标志物进行了后续分析。平均而言,在这项研究中的所有奶牛中,血液 BHB 在产后 3 天达到亚临床水平(1.4±0.3mmol/L;平均值±标准误差)。行为模式是从加速度计数据中获得的,并对从分娩前-30 天到分娩当天的站立和躺卧时间与产后 3 天的血液 BHB 浓度之间进行了相关性分析。在产前 3 天的站立时间与产后 3 天的血液 BHB 之间获得了最强的相关性。NONKET 奶牛的干物质摄入量比 KET 奶牛高(约 3kg/d)。产奶量的组×时间相互作用导致 NONKET 奶牛的产奶量每天增加 5.7kg,而 KET 奶牛则减少。与 NONKET 相比,KET 奶牛在过渡期间的各个时间点血液中肝功能(γ-谷氨酰转移酶和谷氨酸草酰乙酸转氨酶)、炎症(IL-6)和代谢(非酯化脂肪酸)的生物标志物浓度升高。总体而言,NONKET 奶牛的胆红素水平低于 KET 奶牛,进一步证实了后者肝功能受损。我们的研究结果表明,产前从加速度计数据中得出的行为模式与产后亚临床酮病之间存在相关性的潜力,并通过与炎症和肝功能相关的生物标志物的生理变化进一步证实了后者。我们的数据还表明,有产后亚临床或临床酮病倾向的奶牛在分娩前几天站立的时间会减少,这会降低干物质摄入量,这一情况进一步反映在产奶量下降上。
