高剂量日粮添加苏氨酸对周期性热应激肉鸡生长性能、健康生物标志物及肠道组织学的影响。
Effects of high dietary threonine supplementation on growth performance, health biomarkers, and intestinal histology in cyclic heat-stressed broilers.
作者信息
Khalid Abia, Bashir Sania, Kalsoom Asma, Ur Rehman Hafiz Faseeh, Rashid Muhammad Afzal, Sandhu Mansur Abdullah, Rehman Habib Ur, Yousaf Muhammad Shahbaz
机构信息
Department of Physiology, University of Veterinary and Animal Sciences, Lahore, 54000, Pakistan.
Department of Anatomy and Histology, University of Veterinary and Animal Sciences, Lahore, 54000, Pakistan.
出版信息
Vet World. 2025 Mar;18(3):646-657. doi: 10.14202/vetworld.2025.646-657. Epub 2025 Mar 18.
BACKGROUND AND AIM
Heat stress (HS) negatively impacts poultry production by reducing growth performance and compromising physiological health. Nutritional strategies, particularly amino acid supplementation, are explored to mitigate these adverse effects. This study evaluates the impact of high dietary threonine supplementation on growth performance, health biomarkers, oxidative status, meat quality, and intestinal histology in cyclic HS broilers.
MATERIALS AND METHODS
A total of 288 1-day-old Hubbard broilers were randomly allocated to six treatment groups: Thermoneutral, HS control, and HS supplemented with 125% (HS-125), 150% (HS-150), 175% (HS-175), and 200% (HS-200) of NRC-recommended threonine. Birds in the HS groups were exposed to cyclic HS (35°C, 75% relative humidity) from day 22 to day 42. Growth performance was recorded weekly, while physiological parameters, oxidative stress markers, and jejunal histology were analyzed post-exsanguination.
RESULTS
HS significantly reduced body weight gain and feed intake, while threonine supplementation did not improve these parameters. However, liver weight, serum albumin, and cholesterol levels improved at higher threonine doses (175%-200%). Threonine also reduced serum corticosterone and malondialdehyde levels, suggesting enhanced stress resilience. Superoxide dismutase activity, an indicator of oxidative defense, improved in threonine-supplemented groups. In jejunal histology, acidic goblet cells increased, and intraepithelial lymphocyte infiltration decreased in birds supplemented with 175%-200% threonine, indicating enhanced gut integrity. Meat quality attributes, including crude protein and oxidative stability, showed minor but inconsistent variations across treatments.
CONCLUSION
Although high dietary threonine supplementation (175%-200%) improved stress resilience by enhancing oxidative status, intestinal health, and selected physiological biomarkers in HS broilers, however, it failed to enhance growth performance. These findings suggest that while threonine supports physiological adaptations under HS, its use as a growth promoter under HS conditions may not be economically viable. Further studies are warranted to optimize amino acid balance in HS broilers for improved productivity.
背景与目的
热应激(HS)通过降低生长性能和损害生理健康对家禽生产产生负面影响。人们探索了营养策略,特别是补充氨基酸,以减轻这些不利影响。本研究评估了高剂量日粮苏氨酸补充对周期性热应激肉鸡生长性能、健康生物标志物、氧化状态、肉质和肠道组织学的影响。
材料与方法
总共288只1日龄的哈伯德肉鸡被随机分配到六个处理组:热中性组、热应激对照组以及补充125%(HS - 125)、150%(HS - 150)、175%(HS - 175)和200%(HS - 200)NRC推荐量苏氨酸的热应激组。热应激组的鸡从第22天到第42天暴露于周期性热应激(35°C,75%相对湿度)环境中。每周记录生长性能,放血后分析生理参数、氧化应激标志物和空肠组织学。
结果
热应激显著降低了体重增加和采食量,而补充苏氨酸并未改善这些参数。然而,在较高苏氨酸剂量(175% - 200%)时,肝脏重量、血清白蛋白和胆固醇水平有所改善。苏氨酸还降低了血清皮质酮和丙二醛水平,表明应激恢复能力增强。补充苏氨酸的组中,作为氧化防御指标的超氧化物歧化酶活性有所提高。在空肠组织学方面,补充175% - 200%苏氨酸的鸡酸性杯状细胞增加,上皮内淋巴细胞浸润减少,表明肠道完整性增强。包括粗蛋白和氧化稳定性在内的肉质属性在各处理组间有微小但不一致的变化。
结论
虽然高剂量日粮苏氨酸补充(175% - 200%)通过增强氧化状态、肠道健康和选定的生理生物标志物提高了热应激肉鸡的应激恢复能力,然而,它未能提高生长性能。这些发现表明,虽然苏氨酸有助于热应激条件下的生理适应,但其在热应激条件下作为生长促进剂使用在经济上可能不可行。有必要进一步研究优化热应激肉鸡的氨基酸平衡以提高生产性能。
Zotero 插件