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代谢产物是基因转录翻译为蛋白质后生命活动的最终执行者,因此,机体代谢产物的变化可以直接反映出生物体内各种生命活动的变化。运用代谢组学技术可以清晰并直观地对机体代谢物的变化进行检测。奶牛生产性疾病一直是畜牧兽医行业关注的重点疾病之一。奶牛出现生产性疾病会直接或间接导致奶牛生产性能下降,对养殖业造成危害。代谢组学技术的应用可以更加全面地了解疾病的发生发展过程,准确检测出参与疾病发生的物质和代谢通路,使兽医更加有针对性地开展疾病防控和治疗。综述了代谢组学技术在奶牛生产性疾病研究中的应用,以期为今后奶牛生产性疾病的防控和治疗提供思路。 相似文献
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王勇卫 《河南畜牧兽医(综合版)》2022,(5):46-47
在奶牛饲养生产过程中,奶牛脂肪肝是一种经常发生的肝脏病理变化,是营养代谢性疾病之一,对奶牛的健康影响很大.在做好疫病防控的同时,要重视奶牛脂肪肝病的发生,如果有奶牛患病就要对症下药,加以治疗,减少损失.本文主要从奶牛脂肪肝的病因人手,剖析危害,加强防治措施进行探讨,供参考. 相似文献
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《畜牧兽医科技信息》2020,(8)
在奶牛饲养生产过程中,脂肪肝属于比较常见且易患的疾病,是营养代谢性疾病中的一种,会对奶牛健康造成比较大的影响。所以在实际生产中应该重视对于脂肪肝的预防措施,一旦有奶牛患病要采取有效的方式加以治疗,减少饲养场不必要的损失。本文主要针对奶牛患脂肪肝的原因入手分析,介绍病牛的患病表现,并且总结相应的有效防控措施,供参考。 相似文献
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奶牛养殖过程中,围产期被认为是最重要的时期之一,在该时期奶牛从干奶状态转为泌乳状态,生理上所受的应激造成奶牛泌乳早期采食量降低,易发生能量负平衡.此外,奶牛生产性能和繁殖性能也会降低,并常常伴有一些围产期疾病的发生,如脂肪肝、酮症、乳房炎等.胆碱能影响奶牛的生产与繁殖性能,参与奶牛的脂肪代谢,可降低脂肪肝发生率,提高免疫性能.对围产期奶牛饲喂过瘤胃保护胆碱(rumen protected choline,RPC),可改善奶牛机体代谢,增加小肠胆碱供应,进而提高奶产量、改善乳成分、缓解脂肪肝、减少围产期疾病的发生.本文综述了RPC对围产期奶牛干物质采食量、生产性能、乳成分以及健康状况的影响,旨在为围产期奶牛的养殖提供理论参考依据. 相似文献
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Tomoya TAKAHASHI Akihiro MORI Hitomi ODA Isao MURAYAMA Mitsuhiko KOUNO Toshinori SAKO 《The Journal of veterinary medical science / the Japanese Society of Veterinary Science》2021,83(2):260
Changes in lipoprotein profiles occur in dairy cows during the periparturient period and in cows with transition cow disease. Here, the lipoprotein profiles of Holstein–Friesian dairy cows during the periparturient period were obtained by anion-exchange, high-performance liquid chromatography to evaluate the usefulness of lipoprotein profile evaluation during the periparturient period and in cows with fatty liver and milk fever. Lipoprotein levels (including total and high- (HDL-C) and low-density lipoprotein (LDL-C) cholesterol) in 10 healthy cows were low 4 weeks prepartum, with the lowest values at calving or within 1 week of calving; the values increased at 8 weeks postpartum. The lipoprotein levels were measured in 16 cows diagnosed with fatty liver (n=10) or milk fever (n=6) and compared to 10 healthy dairy cows. A significant difference was observed in HDL-C between healthy cows (at calving and 1 week postpartum), and the fatty liver and milk fever cows. Cows with fatty liver and milk fever had a lower mean HDL-C than the 10 healthy dairy cows at calving and 1 week postpartum. HDL-C might be a good indicator of energy balance for differentiating healthy cows from those with transition cow disease. 相似文献
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Summary In dairy cows, overfeeding during the dry period leads to overcondition at calving and to depression of appetite after calving. As a consequence, at calving overconditioned high‐producing dairy cows inevitably go into a more severe negative energy balance (NEB) postpartum than cows that have a normal appetite. During the period of NEB, the energy requirements of the cow are satisfied by lipolysis and proteolysis. Lipolysis results in an increased concentration of non esterified fatty acids (NEFA) in the blood. In the liver, these NEFA are predominantly esterified to triacylglycerols (TAG) that are secreted in very low density lipoproteins (VLDL). In early lactation in cows with a severe NEB, the capacity of the liver to maintain the export of the TAG in the form of VLDL in balance with the hepatic TAG production is not always adequate. As a result, the excess amount of TAG accumulates in the liver, leading to fatty infiltration of the liver (hepatic lipidosis or fatty liver). The NEB and/or fatty liver postpartum are frequently associated with postparturient problems. In general, a severe NEB induces changes in biochemical, endocrinological, and metabolic pathways that are responsible for production, maintenance of health, and reproduction of the postparturient dairy cow. These changes include a decrease in blood glucose and insulin concentrations, and an increase in blood NEFA concentrations. High NEFA concentrations caused by intensive lipolysis are accompanied by impairment of the immune system, making the cows more vulnerable to infections. Metabolic diseases such as ketosis, milk fever, and displaced abomasum are related to overcondition at calving. The changes in biochemical, endocrinological, and metabolic pathways are associated with delay of the first visible signs of oestrus, an increase in the interval from calving to first ovulation, a decrease in conception rate, and a prolonged calving interval. It is possible that the increased blood NEFA concentration directly impairs ovarian function. 相似文献
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腺苷酸活化蛋白激酶在奶牛疾病中的作用研究进展 《畜牧与饲料科学》2022,43(6):6-13
随着奶牛养殖规模化、集约化程度的不断提高,奶牛养殖过程中乳腺炎、酮病和脂肪肝等疾病的发病率也逐年增加。腺苷酸活化蛋白激酶(AMP-activated protein kinase,AMPK)作为一种能量感受器可以反映细胞能量状态。AMPK在葡萄糖、脂质和蛋白质代谢以及线粒体生物发生和自噬等过程中发挥重要调控作用。AMPK被认为是多种疾病潜在的干预或治疗靶点,在奶牛代谢性疾病中的研究也较为广泛。综述了AMPK在奶牛乳腺炎、酮病、脂肪肝中的调控作用研究进展,以期为这些疾病的靶向治疗提供参考。 相似文献
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In dairy cows, overfeeding during the dry period leads to overcondition at calving and to depression of appetite after calving. As a consequence, at calving overconditioned high-producing dairy cows inevitably go into a more severe negative energy balance (NEB) postpartum than cows that have a normal appetite. During the period of NEB, the energy requirements of the cow are satisfied by lipolysis and proteolysis. Lipolysis results in an increased concentration of non esterified fatty acids (NEFA) in the blood. In the liver, these NEFA are predominantly esterified to triacylglycerols (TAG) that are secreted in very low density lipoproteins (VLDL). In early lactation in cows with a severe NEB, the capacity of the liver to maintain the export of the TAG in the form of VLDL in balance with the hepatic TAG production is not always adequate. As a result, the excess amount of TAG accumulates in the liver, leading to fatty infiltration of the liver (hepatic lipidosis or fatty liver). The NEB and/or fatty liver postpartum are frequently associated with postparturient problems. In general, a severe NEB induces changes in biochemical, endocrinological, and metabolic pathways that are responsible for production, maintenance of health, and reproduction of the postparturient dairy cow. These changes include a decrease in blood glucose and insulin concentrations, and an increase in blood NEFA concentrations. High NEFA concentrations caused by intensive lipolysis are accompanied by impairment of the immune system, making the cows more vulnerable to infections. Metabolic diseases such as ketosis, milk fever, and displaced abomasum are related to overcondition at calving. The changes in biochemical, endocrinological, and metabolic pathways are associated with delay of the first visible signs of oestrus, an increase in the interval from calving to first ovulation, a decrease in conception rate, and a prolonged calving interval. It is possible that the increased blood NEFA concentration directly impairs ovarian function. 相似文献
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Fatty liver or hepatic lipidosis is a major metabolic disorder of high-producing dairy cows that occurs rather frequently in early lactation and is associated with decreased health, production and fertility. A background section of the review explores reasons why high-producing dairy cows are prone to develop fatty liver post partum. Hepatic lipidosis and coinciding health and fertility problems seriously endanger profitability and longevity of the dairy cow. Results from a great number of earlier epidemiological and clinical studies made it clear that a different approach was needed for elucidation of pathogenesis and etiology of this complex of health problems. There was a need for an adequate animal model in which hepatic lipidosis and production, health and fertility problems could be provoked under controlled conditions. It was hypothesized that overconditioning ante partum and feed restriction post partum might induce lipolysis in adipose tissue and triacylglycerol accumulation in the liver following calving. This consideration formed the basis for the experiments, which resulted in the "Utrecht fatty liver model of dairy cows". In this model, post partum triacylglycerol-lipidosis as well as the whole complex of health and fertility problems are induced under well-controlled conditions. The experimental protocol based on this hypothesis produced in all cases (10 feeding trials with over 150 dairy cattle) the intended result, i.e. all experimental cows developed post partum higher hepatic triacylglycerol concentrations than did control cows. The model was evaluated in biochemical, clinical pathology, immunological, clinical and fertility terms. It turned out that in this model, post partum triacylglycerol-lipidosis as well as the whole complex of health and fertility problems were induced under well-controlled conditions. 相似文献
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围产期奶牛脂肪肝等营养代谢性疾病的防治和调控是提高生产性能和效益的关键.胆碱作为一种动物生长发育必需的营养素,在奶牛肝脏脂肪代谢调控方面发挥着重要的作用.饲粮中适当补充胆碱可以有效降低肝脏脂肪含量和预防脂肪肝,并维持肝脏的正常生理功能.胆碱主要通过上调脂肪分解和下调脂肪生成途径的基因和蛋白的表达水平来调节脂肪代谢,从而减少脂肪沉积,缓解脂肪肝.本研究在已有文献报道基础上,阐述了胆碱的特性和功能,围绕胆碱对动物肝脏脂肪代谢的调节作用及机制进行了综述,旨在为奶牛维持机体健康、提高反刍动物生产性能提供理论依据. 相似文献
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Glucagon as a potential therapy for ketosis and fatty liver. 总被引:4,自引:0,他引:4
A R Hippen 《Veterinary Clinics of North America: Food Animal Practice》2000,16(2):267-282
An experiment demonstrating the usefulness of glucagon as a treatment for fatty liver and ketosis in early-lactation dairy cows has been described. This is the first report of the ability of glucagon, or any agent, to promote clearance of lipid from livers of animals suffering hepatic lipidosis. The development and use of glucagon as a therapeutic agent for the fatty-liver complex in dairy cows may provide a powerful management tool to enhance the profitability of the high-producing dairy cow. 相似文献