膳食水飞蓟素通过改变后期蛋鸡的肝脏脂质代谢和盲肠微生物群功能及其代谢产物来提高其生产性能。

IF 6.3 Q1 AGRICULTURE, DAIRY & ANIMAL SCIENCE
Yanghao Guo, Yudong Xu, Derun Wang, Shihao Yang, Zehe Song, Rui Li, Xi He
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引用次数: 0

摘要

背景:肝脏脂质失调是导致后期蛋鸡生产性能下降的主要因素之一。水飞蓟素(SIL)是从奶蓟草中提取的一种天然黄酮木脂素,具有保护肝脏和降低血脂的作用。本研究评估了水飞蓟素是否能为后期蛋鸡带来类似的益处。研究人员将 480 只 68 周龄的 Lohmann 粉红蛋鸡随机分为 5 组,每组 6 个重复,每个重复 16 只母鸡。在为期 12 周的时间里,这些鸡分别接受不含水飞蓟素(对照组)或添加水飞蓟素浓度为 250、500、750 或 1000 毫克/千克(SIL250、SIL500、SIL750、SIL1000)的基础日粮:与最初的4周相比,CON组在第9周至第12周的产蛋率明显下降(P = 0.042),而补充SIL组在整个研究期间保持了稳定的产蛋率(P > 0.05)。值得注意的是,在第 5 至 8 周期间,SIL500 和 SIL750 组的平均蛋重高于 CON 组(P = 0.049)。在整个研究期间,SIL750 组的平均日采食量明显高于 CON 组(P 结论:SIL750 组的平均日采食量明显高于 CON 组):我们的研究表明,日粮中补充 SIL 可改善后期蛋鸡的产蛋率,从机理上讲,这种效果是通过改善肝脏脂质代谢和盲肠微生物群功能实现的。揭示了 SIL 作为饲料添加剂调节肝脂代谢失调的潜力。总的来说,日粮中添加500 mg/kg的SIL效果最好。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Dietary silymarin improves performance by altering hepatic lipid metabolism and cecal microbiota function and its metabolites in late laying hens.

Background: Liver lipid dysregulation is one of the major factors in the decline of production performance in late-stage laying hens. Silymarin (SIL), a natural flavonolignan extracted from milk thistle, is known for its hepatoprotective and lipid-lowering properties in humans. This study evaluates whether SIL can provide similar benefits to late-stage laying hens. A total of 480 68-week-old Lohmann Pink laying hens were randomly assigned into 5 groups, each group consisting of 6 replicates with 16 hens each. The birds received a basal diet either without silymarin (control) or supplemented with silymarin at concentrations of 250, 500, 750, or 1,000 mg/kg (SIL250, SIL500, SIL750, SIL1000) over a 12-week period.

Results: The CON group exhibited a significant decline in laying rates from weeks 9 to 12 compared to the initial 4 weeks (P = 0.042), while SIL supplementation maintained consistent laying rates throughout the study (P > 0.05). Notably, the SIL500 and SIL750 groups showed higher average egg weight than the CON group during weeks 5 to 8 (P = 0.049). The SIL750 group had a significantly higher average daily feed intake across the study period (P < 0.05), and the SIL500 group saw a marked decrease in the feed-to-egg ratio from weeks 5 to 8 (P = 0.003). Furthermore, the SIL500 group demonstrated significant reductions in serum ALT and AST levels (P < 0.05) and a significant decrease in serum triglycerides and total cholesterol at week 12 with increasing doses of SIL (P < 0.05). SIL also positively influenced liver enzyme expression (FASN, ACC, Apo-VLDL II, FXR, and CYP7A1; P < 0.05) and altered the cecal microbiota composition, enhancing species linked to secondary bile acid synthesis. Targeted metabolomics identified 9 metabolites predominantly involved in thiamin metabolism that were significantly different in the SIL groups (P < 0.05).

Conclusions: Our study demonstrated that dietary SIL supplementation could ameliorate egg production rate in late stage laying hens, mechanistically, this effect was via improving hepatic lipid metabolism and cecal microbiota function to achieve. Revealed the potentially of SIL as a feed supplementation to regulate hepatic lipid metabolism dysregulation. Overall, dietary 500 mg/kg SIL had the best effects.

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