The use of ultrasonography in the transition period to estimate adipose tissue depots and their association with risk of early postpartum hyperketonemia in Holstein dairy cattle

IF 2.2 JDS communications Pub Date : 2025-01-01 DOI:10.3168/jdsc.2024-0602

T.A. Westhoff , M. Rodger , M. Wieland , L.A. Harper , A.J. Stabell , M.E. Van Althuis , S. Mann

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Abstract

An elevated prepartum BCS is a risk factor for postpartum hyperketonemia (HYK) and elevated nonesterified fatty acid (NEFA) concentrations in dairy cattle. The association between different adipose tissue depots, such as subcutaneous (SCAT) as well as visceral adipose tissue (VAT) depots, and HYK and elevated NEFA concentrations remains unknown. The objective of this 2-part study was to describe SCAT and VAT depots using ultrasonography during the transition period and to associate them with metabolic markers of negative energy balance in early postpartum dairy cows. Multiparous Holstein cows were enrolled in a prospective observational cohort study with 2 cohorts in subsequent study years (cohort 1: n = 31; cohort 2: n = 28). At −6, −4, −2, and 2 wk relative to calving (cohort 1) or −2 and 2 wk relative to calving (cohort 2) BCS was determined and cows were examined via transcutaneous ultrasound at 6 locations for prediction of adipose tissue mass in 5 depots: (1) abdominal adipose tissue (AAT), (2) retroperitoneal adipose tissue (RPAT), (3) omental adipose tissue (OMAT), (4) mesenteric adipose tissue (MAT), and (5) subcutaneous adipose tissue (SCAT). Postpartum serum NEFA and BHB concentrations were determined twice weekly from 1 to 14 DIM. Cows were categorized as having HYK or high NEFA concentrations (NEFA_H) if ≥1 sample resulted in a BHB ≥1.2 mmol/L or NEFA ≥720 µEq/L, respectively. Critical thresholds associated with HYK or NEFA_H for each depot at −2 wk relative to calving and the time of maximum estimated depot size were evaluated using logistic regression and a receiver operator characteristic analysis. Abdominal AT increased from −6 to −2 wk relative to calving in cohort 1 but did not differ from −2 to 2 wk relative to calving. Subcutaneous AT did not change from −6 to −2 wk but decreased from −2 to 2 wk relative to calving in cohort 1 and 2. Omental AT accurately (area under the curve [AUC] = 0.77) predicted HYK in cohort 1 but was noninformative for the prediction of HYK in cohort 2 (AUC = 0.49). Predicted AT depots were not informative for the prediction of NEFA_H (AUC ≤0.59) in either cohort. Results from this study suggest that AT can be monitored during the transition period using the described technique; however, estimated prepartum AT depots at −2 wk relative to expected calving were inaccurate in distinguishing between postpartum NEFA_H and non-NEFA_H or HYK and non-HYK.

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在荷斯坦奶牛过渡期使用超声波检查估计脂肪组织储量及其与产后早期高酮血症风险的关系

产前BCS升高是奶牛产后高酮血症（HYK）和非酯化脂肪酸（NEFA）浓度升高的危险因素。不同脂肪组织储存（如皮下脂肪组织（SCAT）和内脏脂肪组织（VAT）储存）与HYK和NEFA浓度升高之间的关系尚不清楚。本研究分为两部分，目的是利用超声技术描述产后早期奶牛过渡期的SCAT和VAT库，并将它们与产后早期奶牛负能量平衡的代谢标志物联系起来。将多产荷斯坦奶牛纳入前瞻性观察队列研究，在随后的研究年中有2个队列(队列1:n = 31；队列2:n = 28)。在相对于产犊的- 6、- 4、- 2和2周（队列1）或相对于产犊的- 2和2周（队列2）测定BCS，并在6个部位通过经皮超声检查奶牛，以预测5个部位的脂肪组织质量：(1)腹部脂肪组织（AAT），(2)腹膜后脂肪组织（RPAT），(3)网膜脂肪组织（OMAT），(4)肠系膜脂肪组织（MAT），(5)皮下脂肪组织（SCAT）。产后血清NEFA和BHB浓度在1 ~ 14 DIM期间每周检测两次。如果≥1份样品的BHB≥1.2 mmol/L或NEFA≥720µEq/L，则奶牛被归类为HYK或NEFA高浓度（NEFAH）。使用逻辑回归和接收算子特征分析评估了与产犊- 2周时每个仓库的HYK或NEFAH相关的临界阈值，以及最大估计仓库规模的时间。在队列1中，相对于产犊，腹部AT从- 6周增加到- 2周，但相对于产犊，从- 2周到2周没有差异。在队列1和队列2中，相对于产犊，皮下AT从- 6周到- 2周没有变化，但从- 2周到2周有所下降。网膜AT能准确预测队列1的HYK（曲线下面积[AUC] = 0.77），但不能预测队列2的HYK （AUC = 0.49）。预测的AT库对预测NEFAH没有帮助（AUC≤0.59）。本研究结果表明，使用上述技术可以在过渡时期监测AT；然而，在区分产后NEFAH和非NEFAH或HYK和非HYK时，相对于预期产犊的- 2周预估的产前AT库是不准确的。

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JDS communications Animal Science and Zoology

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