Department of Health Management, Atlantic Veterinary College, University of Prince Edward Island, Charlottetown, Prince Edward Island, Canada C1A 4P3; Department of Animal Medicine, Division of Infectious Diseases, Faculty of Veterinary Medicine, Zagazig University, Zagazig City 44511, Sharkia Province, Egypt.
Department of Health Management, Atlantic Veterinary College, University of Prince Edward Island, Charlottetown, Prince Edward Island, Canada C1A 4P3.
J Dairy Sci. 2019 Jan;102(1):567-577. doi: 10.3168/jds.2018-15070. Epub 2018 Nov 8.
The objectives of this study were (1) to determine the differences in IgG and total protein (TP) content of serum and plasma samples collected from the same calves; (2) to evaluate the correlation between calf serum and plasma IgG levels, Brix scores, and TP concentrations; (3) to determine whether different cut-off values should be used for plasma and serum to assess failure of transfer of passive immunity (FTPI) in dairy calves; and (4) to evaluate the level of agreement between results obtained from using serum and plasma samples of the same calves to assess FTPI using optimal cut-off values. Blood samples (n = 217) were collected from Holstein calves at 3 to 10 d of age on 30 commercial dairy farms in Nova Scotia and Newfoundland, Canada. Paired serum and plasma samples were analyzed for IgG concentration by the reference radial immunodiffusion assay, transmission infrared (TIR) spectroscopy, digital and optical Brix refractometers, and optical TP refractometer. The IgG concentrations measured by RID and TIR spectroscopy in serum were similar to those in plasma. However, the Brix and TP refractometer readings were significantly higher in plasma than in serum. The prevalence of FTPI in serum and plasma samples based on a RID-IgG concentration <10 g/L was 43.3 and 46.5%, respectively. The RID-IgG concentration was correlated with TIR-IgG (r = 0.92 and 0.89), digital Brix (r = 0.80 and 0.80), optical Brix (r = 0.77 and 0.77), and optical TP (r = 0.75 and 0.77) refractometers in serum and plasma, respectively. The correlations between paired serum and plasma IgG content were 0.85 by TIR spectroscopy, 0.80 by digital Brix, 0.77 by optical Brix, and 0.79 by optical TP refractometer. The optimal cut-off values for TIR spectroscopy, digital Brix, optical Brix, and TP refractometers to assess FTPI using serum were 13.1 g/L, 8.7% Brix, 8.4% Brix and 5.1 g/dL, respectively; and the optimal cut-off values with plasma were 13.4 g/L, 9.4% Brix, 9.3% Brix and 5.8 g/dL, respectively. When using these optimal cut-off values, the level of agreement (88.1%) between results derived from testing serum and plasma by TIR spectroscopy was substantial, with a kappa (κ) value of 0.76. The results derived from testing serum and plasma by digital Brix refractometer showed substantial agreement (83.4%), with a κ value of 0.65, which is higher than the agreement and κ value (74.7% and 0.51) reported for the optical Brix refractometer. Substantial agreement (81.6%) between serum and plasma TP was also obtained when using the optical TP refractometer, with a κ value of 0.63. In conclusion, serum or plasma samples can be used interchangeably for measuring IgG concentrations and assessing FTPI in dairy calves. However, different cut-offs must be used to assess FTPI depending on the sample matrix. Furthermore, results obtained from serum samples showed higher agreement with the reference RID assay than those obtained from plasma samples.
(1) 确定从同一头小牛采集的血清和血浆样本中 IgG 和总蛋白 (TP) 含量的差异;(2) 评估小牛血清和血浆 IgG 水平、比浊度和 TP 浓度之间的相关性;(3) 确定是否应使用不同的临界值来评估牛奶犊牛被动免疫转移失败 (FTPI) 时的血浆和血清;(4) 评估使用同一批小牛的血清和血浆样本评估 FTPI 时,使用最佳临界值获得的结果之间的一致性。在加拿大新斯科舍省和纽芬兰省的 30 个商业奶牛场,从 3 至 10 日龄的荷斯坦奶牛采集血液样本 (n = 217)。使用参考放射免疫扩散测定法、透射红外线 (TIR) 光谱、数字和光学比浊计以及光学 TP 折射计分析血清和血浆样品中的 IgG 浓度。RID 和 TIR 光谱测量的 IgG 浓度在血清和血浆中相似。然而,比浊计和 TP 折射计读数在血浆中明显高于血清。基于 RID-IgG 浓度 <10 g/L,血清和血浆样品中 FTPI 的患病率分别为 43.3%和 46.5%。RID-IgG 浓度与 TIR-IgG (r = 0.92 和 0.89)、数字比浊度 (r = 0.80 和 0.80)、光学比浊度 (r = 0.77 和 0.77) 和光学 TP 折射计 (r = 0.75 和 0.77) 分别在血清和血浆中相关。TIR 光谱的 IgG 含量的配对血清和血浆相关性为 0.85,数字比浊计为 0.80,光学比浊计为 0.77,光学 TP 折射计为 0.79。使用血清评估 FTPI 时,TIR 光谱、数字比浊计、光学比浊计和 TP 折射计的最佳临界值分别为 13.1 g/L、8.7%比浊度、8.4%比浊度和 5.1 g/dL;使用血浆的最佳临界值分别为 13.4 g/L、9.4%比浊度、9.3%比浊度和 5.8 g/dL。当使用这些最佳临界值时,TIR 光谱检测血清和血浆结果之间的一致性 (88.1%) 较高,kappa (κ) 值为 0.76。数字比浊计检测血清和血浆的结果显示出高度一致性 (83.4%),κ 值为 0.65,高于光学比浊计报告的一致性 (74.7%) 和 κ 值 (0.51)。使用光学 TP 折射计时,血清和血浆 TP 之间也获得了高度一致性 (81.6%),κ 值为 0.63。总之,血清或血浆样本可互换用于测量 IgG 浓度和评估奶牛犊牛的 FTPI。然而,取决于样本基质,必须使用不同的临界值来评估 FTPI。此外,与血浆样本相比,来自血清样本的结果与参考 RID 测定具有更高的一致性。
