共查询到19条相似文献,搜索用时 203 毫秒
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益生菌在健康硬骨鱼肠道中不仅起到抑制致病微生物的作用,而且更重要的是,益生菌能够刺激和增强肠道黏膜免疫系统,在肠道免疫中起重要作用。近年来,硬骨鱼黏膜免疫因其多样性及其不明确的定义,已成为热门的研究课题。硬骨鱼与水生环境直接接触,使肠道黏膜表面易受各种病原体的侵袭。免疫调节是硬骨鱼中有效的预防性措施,而益生菌能够提高肠道黏膜表面固有的免疫活性细胞和因子,对病原体起颉颃作用。益生菌主要通过口服方式进入鱼体,而肠道作为其主要靶器官,对鱼体产生特异性免疫应答。因此,关于益生菌影响肠道黏膜免疫系统的研究值得关注。相比于哺乳动物,硬骨鱼具有更加弥散的肠淋巴系统。局部免疫应答所必需的免疫细胞大量存在于肠道黏膜中,并且可以在免疫后的鱼体肠道中监测到局部免疫应答。文章综述了近年来硬骨鱼肠道黏膜免疫系统以及益生菌对硬骨鱼肠道黏膜免疫的影响,并对鱼类益生菌的进一步研究进行了展望,以期为后续研究益生菌与硬骨鱼之间相互作用提供参考。 相似文献
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仔猪肠黏膜营养与肠道修复 总被引:1,自引:0,他引:1
肠道不仅是营养物质消化和吸收的重要场所,而且是营养物质代谢的重要器官。本文从仔猪肠道生理特点出发,综述了仔猪肠道黏膜结构与功能、黏膜营养、黏膜修复,为断奶仔猪生长发育及生产应用提供参考。 相似文献
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肠道是营养物质消化、吸收的主要场所以及营养物质代谢的重要器官,同时也是仔猪免疫的第一道屏障,其发育对动物生长具有重要意义。文章从肠道结构与功能、黏膜免疫和微生物区系等方面综述了仔猪肠道发育与内环境调控技术的研究现状,为调控仔猪生长发育及养猪生产提供参考。 相似文献
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肠道黏膜免疫是动物对外界抗原进入动物体内产生的局部特异性免疫.精氨酸能在一定程度上修复黏膜损伤,维护动物肠黏膜结构与功能的完整性.本文综述了动物黏膜免疫系统,精氨酸对肠道黏膜免疫的调节作用以及断奶仔猪的精氨酸营养. 相似文献
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In modern pig production,early weaning is a bottleneck problem which are restricting the development of pig industry.It can lead to early weaning syndrome in piglet,such as low appetite,growth inhibition,diarrhea and so on.One of the reasons induced these symptoms is impairment of intestinal mucosal barrier in piglets.The intestinal microflorais is one of the important parts of intestinal mucosal barrier.Therefore,study on the intestinal microflora of weaning piglets and nutritional regulations have been attracted more and more attentions,and it has an important influence on avoiding diarrhea,promoting the healthy growth and improving growth performance.The change of intestinal microflora in weaning piglets and research development of some common feed additives(microecologics,plant polysaccharide,acidulant,microelement,Chinese herbal medicine and plant extracts)for intestinal microflora were reviewed in this paper. 相似文献
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早期断奶是现代养猪生产中的瓶颈问题。早期断奶易造成仔猪早期断奶综合征,仔猪断奶后会出现采食量下降、生长阻滞和腹泻等一系列症状。引起这些症状的主要原因之一是断奶应激引起的仔猪肠道屏障受损。鉴于肠道微生态区系为肠道第一道防御屏障,因此,研究仔猪肠道微生态区系及其营养调控技术,对于防制仔猪早期断奶综合征、促进仔猪肠道健康、提高生产性能具有重要意义。文章针对断奶仔猪肠道微生物菌群变化及几种常用饲料添加剂(微生态制剂、植物多糖、酸化剂、微量元素、中草药及植物提取物)对肠道微生态区系调控的研究进展进行了综述。 相似文献
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There are a large number of microorganisms in the porcine intestinal tract. These microorganisms and their metabolites contribute to intestinal mucosal immunity, which is of great importance to the health of the host. The host immune system can regulate the distribution and composition of intestinal microorganisms and regulate the homeostasis of intestinal flora by secreting a variety of immune effector factors, such as mucin, secretory immunoglobulin A (sIgA), regenerating islet-derived III (RegIII)γ, and defensin. Conversely, intestinal microorganisms can also promote the differentiation of immune cells including regulatory T cells (Treg) and Th17 cells through their specific components or metabolites. Studies have shown that imbalances in the intestinal flora can lead to bacterial translocation and compromised intestinal barrier function, affecting the health of the body. This review focuses on the composition of the pig intestinal flora and the characteristics of intestinal mucosal immunity, discusses the interaction mechanism between the flora and intestinal mucosal immunity, as well as the regulation through fecal microbiota transplantation (FMT), dietary nutritional composition, probiotics and prebiotics of pig intestinal microecology. Finally, this review provides insights into the relationship between intestinal microorganisms and the mucosal immune system. 相似文献
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为了促进食品安全和养猪业的健康发展,禁止在饲料中使用促生长抗生素势在必行。随着我国的饲料禁抗相关法规的推行,饲料企业被严格禁止在饲料生产过程中加入抗生素,这也导致了猪场疾病尤其是肠道疾病的高发,而仔猪肠道发育未完全,免疫系统未发育成熟,更容易发生严重的腹泻甚至死亡。文章对几种常见的仔猪细菌性腹泻疾病进行了回顾,病原包括大肠杆菌、沙门氏菌、魏氏梭菌,讨论了它们的临床症状与防控措施,为猪场在防控这些细菌性腹泻提供参考。 相似文献
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