共查询到19条相似文献,搜索用时 65 毫秒
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为了研究硒与免疫的关系,选择健康雏鸭通过人工复制硒中毒模型,应用放射免疫法分别测定血清中IL-1β、IL-2β、IL-8β、IGF-2和GM-CSF的含量。试验结果表明,中毒组与对照组相比,血清中细胞因子均有程度不同的降低。从而说明,硒中毒影响动物的免疫功能,这一结果对研究硒与免疫的关系具有重要的指导意义。 相似文献
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北京雏鸭硒和/或维生素E缺乏症初报 总被引:1,自引:1,他引:0
<正> 皱鸭的硒/维生素E缺乏或不足曾被称为地方性肌营养不良,雏鸭肌营养不良。国内虽然有石发庆等、曲鸿章等、金月英等对该病分别进行了实验性研究。但在集约化饲养条件下大批田间病例的暴发尚无正式报道。 相似文献
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缺锌对雏鸭免疫功能影响的研究 总被引:11,自引:1,他引:11
1日龄天府肉鸭 10 0只分为 2组 ,喂以缺锌 (Zn 2 2 9mg)和对照 (Zn 10 0mg)日粮 7周 ,观察缺锌对免疫功能的影响。缺锌组免疫器官的绝对重量、生长指数和淋巴细胞生长周期以及外周血T淋巴细胞ANAE+阳性率、血清免疫球蛋白含量和红细胞C3b受体花环、免疫复合物花环率显著降低 (P <0 0 1或P <0 0 5 ) ;病理组织学观察 ,免疫器官淋巴细胞显著减少并呈退行性变 ,网状细胞变性坏死 ,电镜下淋巴细胞胞核固缩或溶解 ,细胞器消失 ,网状细胞粗面内质网扩张 ,线粒体肿胀 ,出现大小不等的溶酶体、吞噬体和自噬体。结果表明 ,缺锌严重抑制免疫器官生长发育和外周血T淋巴细胞活化 ,显著降低血清免疫球蛋白含量和红细胞免疫功能 ,并对免疫器官造成明显的病理损伤 ,导致免疫功能下降。 相似文献
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雏鸭实验性镉中毒的病理学研究 总被引:5,自引:0,他引:5
用114只3日龄肉鸭作急性、亚急性镉中毒的病理学观察。急性镉中毒的LD50为289mg/kg体重。灌服1/10、1/20、1/30LD50剂量作亚急性毒性试验,每日服药一次,试验期6周,其发病率分别为11/11、11/11和3/11,死亡率分别为10/11、7/11和3/11。中毒鸭表现为生长缓慢,Hb、RBC和PCV显著降低,死前多呈现呼吸困难。尸体剖检和病理组织学变化主要是纤维素性心外膜炎、心肌变性、间质性心肌炎,纤维素性肝周围炎、肝细胞严重脂变、间质性肝炎,纤维素性肺浆膜炎、支气管肺炎,气囊积液、气囊壁水肿和钙化,卡他性肠炎以及脑充血、出血等。透射电镜观察,心肌纤维、肝细胞和肾曲管上皮细胞内线粒体严重肿胀,嵴断裂、溶解。肝细胞还可见糖元颗粒明显减少,脂滴增多等。测得亚急性组织肝脏和肾脏的镉含量,试验组与对照组之间有极显著差异(P<0.01)。试验组口服镉含量高的与镉含量低的之间亦有显著或极显著差异(P<0.05或P<0.01)。 相似文献
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为观察黄曲霉毒素B1(aflatoxin B1,AFTBl)对试验雏鸭肾组织抗氧化功能的影响及亚硒酸钠对AFTBl的颉颃效应.本试验以雏鸭为试验动物,7日龄雏鸭90只,共分为3组,每组各30只.第Ⅰ组设为空白对照组,灌胃同等量二甲基哑砜;第Ⅱ、Ⅲ组为试验组.每天分别按0.1 mg/kg体重剂量给第Ⅱ、Ⅲ组雏鸭灌胃AFTB11次,连续投药21 d,试验期间给第Ⅲ组雏鸭每天按1 mg/kg体重剂量灌胃亚硒酸钠(Na2 SeO3)1次.分别在给雏鸭投药后7、14、21d,检测雏鸭肾组织总抗氧化能力(T-AOC)、超氧化物歧化酶(SOD)、过氧化氧酶(CAT)、谷胱甘肽过氧化物酶(GSH-Px)、谷胱甘肽还原酶(GR)及丙二醛( MDA)等抗氧化指标.试验结果显示,第Ⅱ、Ⅲ组雏鸭肾组织SOD、CAT、GSH-Px及GR活性与T-AOC均显著低于第Ⅰ组(P<0.05),而MDA显著高于第Ⅰ组(P<0.05);与第Ⅱ组相比,经灌胃投用亚硒酸钠的第Ⅲ组雏鸭肾组织各项抗氧化指标均得到明显的改善(P<0.05).结果表明,黄曲霉毒素B1导致雏鸭肾组织抗氧化功能发生显著的变化,而亚硒酸钠能明显改善其变化. 相似文献
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P. N. BANKS 《The Journal of small animal practice》1963,4(5):349-350
Abstract— A case of Thyroid poisoning by the ingestion by a puppy of 20 grains of Thyroid sicc. and its treatment with barbiturates is described. 相似文献
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张冬野 《兽药与饲料添加剂》2008,13(5)
微量元素硒是一种天然的抗氧化剂。缺硒可引起鸡白肌病、渗出性素质等疾病。常用的补硒方法是用亚硒酸钠或亚硒酸钠—维生素E拌料给药。但由于无机硒的安全范围较窄,补硒方法不当造成硒中毒的事件常有发生。现将2例硒中毒的病例报告如下,以供参考。 相似文献
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The authors compared the thyroid function of cows with primary ketosis and clinically healthy cows in the same stage of lactation by a method based on the in vitro erythrocyte uptake of L-3,5,3′- triiodothyronine labelled with I131. This method (EU) proved to be affected by, among other factors, the content of total protein in the blood plasma, which was lower in ketotic than in normal cows. This caused difficulties in interpretation of the measured EU, but the authors consider that the experiments indicated an elevated thyroid activity in ketosis. The importance of continued research into the probable relation between thyroid function and ketosis is stressed. 相似文献
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B.A. Breuhaus 《Journal of veterinary internal medicine / American College of Veterinary Internal Medicine》2009,23(1):168-173
Background: This study was performed to determine whether anhidrotic horses have altered thyroid function compared with horses that sweat normally.
Hypothesis: Anhidrotic horses have normal thyroid function.
Animals: Ten client-owned horses with clinical signs of anhidrosis were paired with 10 horses living in the same environment that had normal sweat production.
Methods: Horses were diagnosed as having normal sweat production or being anhidrotic based on responses to intradermal injections of terbutaline and physiologic responses to lunging exercise. Control horses were selected from the same environment and matched as closely as possible to anhidrotic horses in terms of age, sex, breed, and athletic condition. Thyrotropin-releasing hormone (TRH) stimulation tests were performed in both horses at the same time, once in the summer or fall, and once again in winter.
Results: Anhidrotic horses produced less sweat in response to intradermal injections of terbutaline and exercise than did control horses. They also had greater increases in body temperature and respiratory rate in response to exercise. Resting concentrations of thyroid hormones and thyroid-stimulating hormone (TSH) were not different between anhidrotic and control horses. Thyroid hormone responses to TRH also were not different between the 2 groups of horses. However, anhidrotic horses had a significantly different TSH response to TRH compared with control horses, particularly in the winter.
Conclusions and Clinical Importance: The biologic relevance of the altered TSH response to TRH in anhidrotic horses is uncertain, considering that TSH concentrations remained within previously reported normal ranges and thyroid hormone responses were not different between anhidrotic and control horses. 相似文献
Hypothesis: Anhidrotic horses have normal thyroid function.
Animals: Ten client-owned horses with clinical signs of anhidrosis were paired with 10 horses living in the same environment that had normal sweat production.
Methods: Horses were diagnosed as having normal sweat production or being anhidrotic based on responses to intradermal injections of terbutaline and physiologic responses to lunging exercise. Control horses were selected from the same environment and matched as closely as possible to anhidrotic horses in terms of age, sex, breed, and athletic condition. Thyrotropin-releasing hormone (TRH) stimulation tests were performed in both horses at the same time, once in the summer or fall, and once again in winter.
Results: Anhidrotic horses produced less sweat in response to intradermal injections of terbutaline and exercise than did control horses. They also had greater increases in body temperature and respiratory rate in response to exercise. Resting concentrations of thyroid hormones and thyroid-stimulating hormone (TSH) were not different between anhidrotic and control horses. Thyroid hormone responses to TRH also were not different between the 2 groups of horses. However, anhidrotic horses had a significantly different TSH response to TRH compared with control horses, particularly in the winter.
Conclusions and Clinical Importance: The biologic relevance of the altered TSH response to TRH in anhidrotic horses is uncertain, considering that TSH concentrations remained within previously reported normal ranges and thyroid hormone responses were not different between anhidrotic and control horses. 相似文献