Department of Veterinary Clinical Medicine, School of Veterinary Medicine, Faculty of Agriculture, Tottori University, 4-101 Koyama-Minami, Tottori, Japan, 680-8550.
Department of Veterinary Clinical Medicine, School of Veterinary Medicine, Faculty of Agriculture, Tottori University, 4-101 Koyama-Minami, Tottori, Japan, 680-8550.
J Dairy Sci. 2019 Nov;102(11):10105-10118. doi: 10.3168/jds.2018-15175. Epub 2019 Sep 11.
The goal of the present study was to determine the effect of sole horn thickness (SHT) and sole horn hardness (SHD) on ultrasonographic visualization of sole structures in the inner and outer claws of 150 Holstein-Friesian cows, and to evaluate different ultrasound frequencies for this purpose. Ultrasonographic views of the sole structure were considered complete when 3 echogenic lines, representing the ventral surface of the sole horn, the borders of the sole horn and soft-tissue layer, and the ventral surface of the distal phalanx, were seen. The proportion of complete ultrasonographic views of the sole structures, designated as the ultrasonographic visualization proportion (UVP), and the measurement errors of SHT were evaluated by comparing images from computed tomography (CT) and ultrasonography. The latter images were generated using 3 different probes, frequencies of 6.5 and 5.0 MHz, and 2 different ultrasound machines (#1 and #2) to assess the apex, middle, and heel regions of the claws. The UVP were 60.8 to 77.9% for the 6.5-MHz probe in ultrasound machine #1 (probe A), which were lower than those (>90%) for both the 5.0-MHz probe in ultrasound machine #1 (probe B) and the 5.0-MHz probe in ultrasound machine #2 (probe C). The UVP was significantly lower in claws with an SHD ≥50 units than in claws with an SHD <40 or 40 to <50 units (UVP: 77.1% compared with 93.7 and 91.4%, respectively) when measured with probe B. In claws with an SHT <10 mm, the UVP was significantly lower when SHD was ≥50 units compared with <40 or 40 to >50 units; the values were 69.0% versus 91.3 and 85.9%, respectively, for probe A, and 89.7% versus 100 and 100%, respectively, for probe B. When SHT were measured by either probes A or B in ultrasound machine #1, the proportions of claws in which ultrasonographic values were within a ±1 mm range compared with the values obtained by CT were 84.9 to 91.3% for CT-determined SHT <5 mm, 66.7 to 71.9% for CT-determined SHT 5 to <7 mm, 28.9 to 51.2% for CT-determined SHT 7 to <10 mm, and 6.2 to 19.7% for CT-determined SHT ≥10 mm. The data indicated that increased SHT was associated with a decrease in ultrasonographic measurement accuracy. In claws with an SHT <5 mm, the high proportion of ultrasonographic values that were accurate within a ±1 mm range suggests that this imaging modality would be useful in cows with thin soles.
本研究的目的是确定蹄角质厚度(SHT)和蹄角质硬度(SHD)对 150 头荷斯坦弗里森奶牛内外趾蹄下结构超声可视化的影响,并评估为此目的使用不同的超声频率。当看到 3 条回声线时,认为蹄下结构的超声图像完整,这 3 条回声线代表蹄角质的腹侧表面、蹄角质和软组织层的边界以及远跖骨的腹侧表面。将蹄下结构的完整超声图像比例(UVP)和 SHT 的测量误差通过比较计算机断层扫描(CT)和超声图像来评估。后者的图像是使用 3 种不同的探头(频率为 6.5 和 5.0 MHz)和 2 种不同的超声机(#1 和 #2)生成的,以评估趾的顶点、中部和跟部区域。在超声机#1 中,6.5 MHz 探头的 UVP 为 60.8%至 77.9%(探头 A),低于超声机#1 中 5.0 MHz 探头(探头 B)和超声机#2 中 5.0 MHz 探头(探头 C)的 UVP(>90%)。当使用探头 B 测量时,SHD≥50 单位的蹄与 SHD<40 或 40-50 单位的蹄相比,UVP 显著降低(UVP:77.1%比 93.7%和 91.4%)。在 SHT<10mm 的蹄中,当 SHD≥50 单位时,UVP 明显低于 SHD<40 或 40-50 单位;探头 A 的值分别为 69.0%、91.3%和 85.9%,探头 B 的值分别为 89.7%、100%和 100%。当 SHT 通过超声机#1 中的探头 A 或 B 进行测量时,与 CT 获得的值相比,超声值在±1mm 范围内的蹄的比例为 CT 确定的 SHT<5mm 为 84.9%至 91.3%,CT 确定的 SHT 为 5 至<7mm 为 66.7%至 71.9%,CT 确定的 SHT 为 7 至<10mm 为 28.9%至 51.2%,CT 确定的 SHT≥10mm 为 6.2%至 19.7%。数据表明,SHT 的增加与超声测量精度的降低有关。在 SHT<5mm 的蹄中,超声值在±1mm 范围内准确的比例很高,这表明这种成像方式在鞋底较薄的奶牛中很有用。
