羊支原体性肺炎两标准株对抗菌药物敏感性的研究

本实验测定了环丙沙星、氧氟沙星、单诺沙星、红霉素、罗红霉素、泰勒菌素、泰妙菌素、四环素等8种药物对羊肺炎支原体两个标准株Y98和Y-goat的体外抑菌浓度以及红霉素与氧氟沙星、泰勒菌素对Y-goat和四环素与氧氟沙星、泰勒菌素对Y98的联合药敏作用。对羊肺炎支原体两个标准株对抗菌药物的敏感性进行了分析。     

一种新型微生态保健品在兽医临床中的应用研究

利用一种微生态保健品和3种抗菌素药物，即氟哌酸、氯霉素、庆大霉素在兽医临床上用于治疗仔猪黄白痢，断奶猪的应激性腹泻，肥猪及母猪的腹泻作了对比试验，结果表明：微生态保健品对仔猪黄痢的治愈率为93％，对仔猪白痢的治愈率为95％，对断奶仔猪的应激性腹泻治愈率为94％，对肥猪及母猪的腹泻治愈率为100％。与氟哌酸、庆大霉素的疗效比较，差异显著（P＜0．05）；与氯霉素比较差异极显著（P＜0．01）．     

氟砜霉素和氯霉素与抗菌增效剂的体外联合抑菌效果比较

应用试管二倍稀释法测定了氟砜霉素、氯霉素、TMP和OMP对15株畜禽常见病原菌的最小柳菌浓度（MIC）。结果表明，氟砜霉素的体外抗菌活性强，优于或等于氯霉素；TMP和OMP的体外抗菌活性偏低，但OMP优于TMP。氟砜霉素和氯霉素与TMP、OMP对14株细菌的联合药敏试验经肉汤稀释棋盘法测定，结果表明，氟砜霉素和氯霉素分别与TMP、OMP体外联合，抑菌效果相同，呈协同作用的均占50%与28.6%，即TMP或OMP对氟砜霉素和氯霉素的增效作用相等，但TMP优于OMP。在14株细菌对氟砜霉素和氯霉素分别与TMP、OMP的总共56组体外联合试验中，呈协同作用的占39.3%，主要为大肠杆菌、多杀性巴氏杆菌、沙门氏菌及金黄色葡萄球菌；无关作用的点60.7%；无拮抗现象。故临床联合用药前，仍需进行联合药敏试验，呈协同作用者才可联用。     

拮抗细菌Enterobacter cloaeae B8的一株抗菌素抗性突变体(英文)

为了研究拮抗细菌Enterobacter cloacae B8在野外水稻叶面上的定殖情况及拮抗作用,由自然选择和Tn5诱变从B8产生了一株抗菌素抗性突变体BX8.BX8能在含利福平达400μg/ml或卡那霉素达300μg/ml的LB培养基中生长.实验表明该抗菌素抗性的产生没有降低BX8的拮抗活性.该抗性比较稳定,在无抗菌素培养基中培养.BX8至少分裂生长60代内抗性不变.     

寄生虫的抗药性管理

抗药性在畜禽寄生虫中普遍存在，且具有一些共同的特征。了解这些共同特征将会为寄生虫的抗药性管理提供一些新观点、新思路。本文着重讨论了寄生虫的抗药性问题，并对其共同特征做了描述；同时也论述了寄生虫综合管理方案，旨在通过总结一种寄生虫的综合管理方案，为其他寄生虫病的控制开辟一条新途径。     

Resident Dendritic Cells in the Epidermis: Langerhans Cells, Merkel Cells and Melanocytes

Résumé— En plus des kératinocytes, l'épiderme contient des cellules résidentes de morphologie dendritique. Ce sont principalement la cellule de Langerhans, la cellule de Merkel et le mélanocyte. Ces cellules ont des fonctions diverses dans le tégument. Le mélanocyte assure la pigmentation cutanée et la protection contre les radiations U.V., et pourrait intervenir également dans la modulation de l'inflammation cutanée. La cellule de Langerhans intervient dans la surveillance immunologique des surfaces corporelles ecternes. La cellule de Merkel a des fonctions neuroendocrines. Cet article donne un aperçu de la structure et de la fonction de ces trois importantes populations cellulaires dans la peau. [Resident dentritic cells in the epidermis: Langerhans cells, Merkel cells and melanocytes (Cellules dentritiques résidentes de l'épiderme: cellules de Langerhans, cellules de Merkel et mélanocytes). Resumen— La epidermis contiene, además de los queratinocitos, células résidentes de morfologia dendria dendritica. Estas son principalmente las células de Langerhans, las células de Merkel y los melanocitos. Estas células tienen varias funciones en el integumento. Los melanocitos se encargan de la pigmentación y protección de la piel contra la radiación ultravioleta y tarrtbién participan en la regulación de la inflamación cutánea. Las células de Langerhans ayudan en la regulación inmunológica en la superficie externa. Las células de Merkel tienen funciones neuroendocrinas. Esta revisión da un repaso general a la estructura y función de tres importantes células de la piel. [Resident dendsuitic cells in the epidermis: Langerhans cells, Merkel cells and Melanocytes (Células résidentes en la epidermis: células de Langerhans, células de Merkel y melanocitos). Abstract— In addition to the keratinocytes, the epidermis contains resident cells of dendritic morphology. These are principally the Langerhans cell, Merkel cell and melanocyte. These cells have a number of different functions in the integument. The melanocyte is responsible for skin pigmentation and protection against UV radiation, and may also play a role in the modulation of cutaneous inflammation. The Langerhans cell aids in the immunological monitoring of the body's external surfaces. The Merkel cell has neuroendocrine functions. This review gives an overview of the structure and function of these three important cells of the skin.     

实验猴志贺氏菌检出、血清分型及药物敏感性试验

采用实验动物国家标准(GB/T 14926.47-2001)的检验方法,对144份待出口实验猴粪便样品检测,检出志贺氏菌2株,阳性检出率1.39%。血清学分型,均属于B群志贺氏菌,血清型分别为X变种和Y变种。药敏试验结果表明,2株分离菌对先锋V、氟哌酸和环丙沙星高度敏感,而对青霉素、红霉素和复方新诺明耐药。     

影响水产动物药代动力学的因素

对影响水产动物药代动力学的机体因素、药理因素和环境因素进行了综述。影响药动学的因素很多，尤其对于所处环境因素复杂的水产动物来说，除了遗传种属、性别等生理因素和病理、药理等因素外，环境因子尤其是水温能显著影响药代动力学过程。研究不同条件下的药动学，对于合理、正确地使用药物有重要的指导作用。     

The antimicrobial susceptibility of Staphylococcus species isolated from canine dermatitis

In a retrospective study, 1538 strains of -haemolysin-producing Staphylococcus species isolated from dermatitis in dogs at three veterinary clinical microbiology laboratories in Norway during 1986–87 and 1993–94 were investigated for their antimicrobial susceptibility. None of the strains was resistant to cloxacillin, cephalexin or the quinolones enrofloxacin and ciprofloxacin. More than 96% of the strains were susceptible to trimethoprim-sulphonamide, bacitracin and fucidic acid. Between 67% and 89% of the strains were susceptible to erythromycin, lincosamides, tetracycline, neomycin and chloramphenicol. Only 37.9% of the strains were susceptible to penicillin. The frequency of penicillin resistance increased significantly between the first and second periods, from 46.0% to 58.6%. The frequency of resistance to lincomycin, clindamycin and erythromycin also increased significantly between the first and second periods, from 3.0%, 2.1% and 3.3% to 25.5%, 19.5% and 24.8%, respectively. A moderate increase in resistance to tetracycline was also noted, from 20.4% in the first to 27.6% in the second period. On the other hand, the frequency of resistance to trimethoprim-sulphonamide decreased significantly from 4.1% in the first to 0.9% in the second period. Many different resistance patterns were observed in each period. However, the proportion of multiresistant strains increased from 2.1% in the first to 10.2% in the second period. There was a decrease in resistance to the combination of trimethoprim-sulphonamide and penicillin from the first to the second period. Resistance to the combination of lincosamides and pencillin increased. For the combinations penicillin-tetracycline-lincosamides, pencillin-lincosamides-erythromycin, and pencillin-tetracycline-lincosamides-erythromycin, there was a striking increase in resistance between the first and the second periods.Abbreviations CVL Central Veterinary Laboratory - NCVM Norwegian College of Veterinary Medicine - NVL Norwegian Veterinary Laboratory