小尾寒羊附红细胞体病的中药免疫治疗
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摘要
本项目探讨小尾寒羊附红细胞体病的发病机制,并研究羊附红细胞体病中药治疗的新方法。试验动物分为对照组和实验组,实验组又分为阳性对照组和治疗组,每组10只羊。治疗组共4组,分别为头翁四君子汤组、青蒿四君子汤组、丹皮生地散组(中药对照组)及土霉素组(西药对照组)。对照组、实验组在用药前1d,用药后第1d、第4d和第7d分别自颈静脉和耳静脉采血,检测红细胞C_(3b)受体花环率(C_(3b)RR)、免疫复合物花环率(ICR),外周血T淋巴细胞转化值及血清一氧化氮(NO)、超氧化物歧化酶(SOD)、丙二醛(MDA)、血清总蛋白(TP)、白蛋白(Alb)等指标,并观察记录每只羊的精神、食欲等临床症状及测量体温。结果表明实验组不但在临床症状上与对照组存在差异,而且在免疫、生化指标上有显著差别,表现在红细胞免疫功能降低,外周血T淋巴细胞转化值升高,血清NO含量异常升高,SOD活力下降,MDA含量升高等。治疗组用药后,头翁四君子汤组红细胞免疫功能明显增强,外周血T淋巴细胞值显著升高,血清NO明显下降,SOD活性增强,MDA含量降低等,且临床症状明显减轻,精神好转,食欲增强,体温明显下降。青蒿四君子汤组红细胞免疫功能明显增强,外周血T淋巴细胞值变化不明显,血清NO下降,SOD活性变化不显著,MDA含量显著降低等,临床症状改善,精神状况好转,食欲提高,体温下降。丹皮生地散组红细胞免疫功能、外周血T淋巴细胞值、血清NO变化不显著,SOD活力明显增强,MDA含量降低等,临床症状有所缓解,食欲增加。土霉素组红细胞免疫功能变化不明显,外周血T淋巴细胞值明显升高,血清NO在用药后先明显下降继而持续增高并超过用药前水平,SOD活力变化不明显,MDA用药后先急剧升高,第4d明显下降等,临床症状有所减轻,精神状况、食欲稍有改善。用药后,治疗组红细胞附红细胞体感染率均显著下降,但以头翁四君子汤组和青蒿四君子汤组下降程度最大,明显低于丹皮生地散组和土霉素组。结果表明:患附红细胞体病羊红细胞免疫功能显著降低,外周血T淋巴细胞转化值升高,血清NO含量异常升高,SOD活性增强,MDA含量升高等;治疗组用药后,以头翁四君子汤疗效最好,各血液指标基本恢复正常,临床症状明显减轻,其次是青蒿四君子汤,明显优于丹皮生地散和土霉素。
The aim of this project was to investigate the pathogenesis of eperythrozoonosis in Han sheep(small tail). Han sheep (small tail) were divided into normal control group and experiment groups, experiment groups were divided into positive control group and treatment groups, treatment groups included Touweng Sijunzi Tang group, Qinghao Sijunzi Tang group, Danpi Shengdi Tang group and terramycin group, every group had ten sheep, normal control group and experiment groups collected blood from jugular vein and scapha vein respectively the previous day of treatment and the 1st day, the 4th day and the 7th day after treatment, totally 4 times, examining erythrocyte immune function, T lymphoid cell value of peripheral blood and serum NO, SOD, MDA, TP, Alb, etc. and observing, recording the clinical symptoms and the general appearance, appetite condition, temperature of each sheep. The results of the experiment indicated that experiment group was different from normal control group not only in clinical symptoms, but also in blood parameters, such as descent of erythrocyte immune function and ascent of T-lymphoid cell value of peripheral blood, unusually high serum NO content, descent of activity of serum SOD, obvious ascent of MDA content, etc. After treatment, in Touweng Sijunzi Tang group, erythrocyte immune function rised, T lymphoid cell value of peripheral blood dramatically ascended, serum NO dramatically reduced, activity of SOD rised, MDA content descended, etc. and clinical symptoms obviously improved, the general appearance rised, the appetite enhanced, temperature descended dramatically. In Qinghao Sijunzi Tang group, erythrocyte immune function dramatically improved, T lymphoid cell value of peripheral blood changed unclearly, serum NO descended, activity of SOD came to decrease, MDA content dramatically descended, etc. clinical symptoms were ameliorative, the general appearance and the appetite condition builded up, the temperature reduced. In Danpi Shengdi Tang group, except that activity of SOD markedly increased, MDA content prominently descended,
the remaining parameters didn't change remarkably. Clinical symptoms improved only a little, the appetite enhanced. In terramycin group, erythrocyte immune function had no distinct change, T lymphoid cell value of peripheral blood markedly ascended, serum NO dramatically descended at first and ascended at 4th day and 7th day, activity of SOD had no distinct change, serum MDA dramatically ascended at first after treatment and dramatically descended in the 4th day, Clinical symptoms improved litter, the general appearance and the appetite were not ameliorative. After treatment, erythrocyte infection rate of eperythrozoon of the four treatment groups dramatically descended, but the descent extent of Touweng Sijunzi Tang group and Qinghao Sijunzi Tang group were greater than that of Danpi Shengdi Tang group and terramycin group. The results indicate that in affected eperythrozoonosis sheep erythrocyte immune function dramatically descend, T lymphoid cell value of peripheral blood rises, serum NO of eperythrozoonosis sheep unusually ascends, SOD activity descends, serum MDA content ascends, etc. After the therapy of treatment groups, curative effect of Touweng Sijunzi Tang was the best, it made immune parameters recover, clinical symptoms prominently improved. The second best was Qinghao Sijunzi Tang, superior to Danpi Shengdi Tang and terramycin.
The aim of this project was to investigate the pathogenesis of eperythrozoonosis in Han sheep(small tail). Han sheep (small tail) were divided into normal control group and experiment groups, experiment groups were divided into positive control group and treatment groups, treatment groups included Touweng Sijunzi Tang group, Qinghao Sijunzi Tang group, Danpi Shengdi Tang group and terramycin group, every group had ten sheep, normal control group and experiment groups collected blood from jugular vein and scapha vein respectively the previous day of treatment and the 1st day, the 4th day and the 7th day after treatment, totally 4 times, examining erythrocyte immune function, T lymphoid cell value of peripheral blood and serum NO, SOD, MDA, TP, Alb, etc. and observing, recording the clinical symptoms and the general appearance, appetite condition, temperature of each sheep. The results of the experiment indicated that experiment group was different from normal control group not only in clinical symptoms, but also in blood parameters, such as descent of erythrocyte immune function and ascent of T-lymphoid cell value of peripheral blood, unusually high serum NO content, descent of activity of serum SOD, obvious ascent of MDA content, etc. After treatment, in Touweng Sijunzi Tang group, erythrocyte immune function rised, T lymphoid cell value of peripheral blood dramatically ascended, serum NO dramatically reduced, activity of SOD rised, MDA content descended, etc. and clinical symptoms obviously improved, the general appearance rised, the appetite enhanced, temperature descended dramatically. In Qinghao Sijunzi Tang group, erythrocyte immune function dramatically improved, T lymphoid cell value of peripheral blood changed unclearly, serum NO descended, activity of SOD came to decrease, MDA content dramatically descended, etc. clinical symptoms were ameliorative, the general appearance and the appetite condition builded up, the temperature reduced. In Danpi Shengdi Tang group, except that activity of SOD markedly increased, MDA content prominently descended,
the remaining parameters didn't change remarkably. Clinical symptoms improved only a little, the appetite enhanced. In terramycin group, erythrocyte immune function had no distinct change, T lymphoid cell value of peripheral blood markedly ascended, serum NO dramatically descended at first and ascended at 4th day and 7th day, activity of SOD had no distinct change, serum MDA dramatically ascended at first after treatment and dramatically descended in the 4th day, Clinical symptoms improved litter, the general appearance and the appetite were not ameliorative. After treatment, erythrocyte infection rate of eperythrozoon of the four treatment groups dramatically descended, but the descent extent of Touweng Sijunzi Tang group and Qinghao Sijunzi Tang group were greater than that of Danpi Shengdi Tang group and terramycin group. The results indicate that in affected eperythrozoonosis sheep erythrocyte immune function dramatically descend, T lymphoid cell value of peripheral blood rises, serum NO of eperythrozoonosis sheep unusually ascends, SOD activity descends, serum MDA content ascends, etc. After the therapy of treatment groups, curative effect of Touweng Sijunzi Tang was the best, it made immune parameters recover, clinical symptoms prominently improved. The second best was Qinghao Sijunzi Tang, superior to Danpi Shengdi Tang and terramycin.
引文
[1]李秀敏.人畜共患附红细胞体病的研究现状[J].当代畜牧,1998,(1):3~4.
[2]尚德秋.附红细胞体病研究进展[J].中华流行病学杂志,1994,15(4):234~240.
[3]沈禹颐.新型人畜共患病—附红细胞体病[J].甘肃畜牧兽医,2002,(3):37~39.
[4]Gulland FM, Doxey DL, Scott GR. Changing morphology of eperythrozoon ovis[J]. Res Vet Sci.1987 Jul; 43(1): 88~91.
[5]赵丽颖,白建文.人附红细胞体的电镜观察及临床特征研究[J].内蒙古医学杂志,2001,33(2):108~110.
[6]吴雅玲.附红细胞体病[J].青海畜牧兽医杂志,2001,31(4):47~48.
[7]Zachary JF, Basgall EJ. Erythrocyte mcmbrance alterations associated with the attachment and rephcation of eperythrozoon suis: A light and electron microscopic study[J]. Vet Pathol. 1985 Mar;22(2): 164~170.
[8]Brown JE, Hidalgo RJ, Jones EW, et al. Blood magnesium values in healthy cattle and in cattle affected with anaplasmosis and eperythrozoonsis[J]. Am J Vet Res. 1986 Jan; 47(1): 158~162.
[9]Heinritzi K, Plank G, Peteranderl W, et. al. The acid-base equilibrium and carbohydrate metabolism during infection with eperythrozoon suis[J]. Zentralbl Veterinarmed B. 1990 Aug; 37(6): 412~417.
[10]Smith JE, Cipriano JE, Hall SM. In vitro and in vivo glucose cinsumption in swine eperythrozoonosis[J]. J Zentralbl Veterinarmed B, 1990, 37(8): 587.
[11]Oberst RD, Hall SM, Schoneweis DA. Detection of eperythrozoon suis DNA from swine blood by whole organism DNA hybridizations[J]. Vet Microb, 1990, 24(2): 127~134.
[12]Oberst RD, Hall SM, Jasso RA, et al. Recombinant DNA probe detecting eperythrozoon suis in swine blood[J]. Am J Vet Res, 1990, 51(11): 1760~1764.
[13]Gwaltney SM, Hays MP, Oberst RD. Detection of eperythrozoon suis using the polymerase chain reaction[J]. J Vet Diag Invest, 1993, 5(1): 40~46.
[14]Oberst RD, Gwaltney SM, Hays MP, et al. Experimental infections and natural outbreaks of eperythrozoonosis in pigs identified by PCR-DNA hybridizations[J]. J Vet Diagn Invest. 1993 Jul; 5(3): 351~358.
[15]刘兴发,田红,侯顺利,等.附红细胞体人畜感染及传播途径的调查[J].中国兽医杂志,1997,(10):23~24.
[16]崔君兆等.在人和动物血液中发现一种不明微生物[J].兽医科技杂志,1982,2:53.
[17]Martin BJ, Chrisp CE, Averill Dr Jr, et al. The identification of eperythrozoon ovis in anemic sheep[J]. Lab Anim Sci. 1988 Apr; 38(2): 173~177.
[18]Zachary JF, Smith AR. Experimental porcine eperythrozoonosis: T-lymphocyte suppression and misdirected immune responses[J]. Am J Vet Res. 1985 Apr; 46(4): 821~830.
[19]Smith JA, Thrall MA, Smith JL, et al. Eperythrozoon wenyonii infection in dairy cattle[J]. J Am Vet Med Assoc. 1990 Apt 15; 196(8): 1244~1250.
[20]许耀成等.红皮病猪血液内发现大量附红细胞体初报[J].兽医科技杂志,1982’2:32.
[21]Reagan WJ, Garry F, Thrall MA, et al. The clinicopathologic, light and scanning electron microscopic features of eperthrozoonosis in four naturally infected llamas[J]. Vet Pathol. 1990 Nov; 27(6): 426~431.
[22]赵洪明等.家畜附红细胞体研究现状[J].中国兽医杂志,1987,13:43.
[23]Daddow KN.The protection of lambs from eperythrozoon infection while suckling Eperythrozoon ovis carcer ewes[J].Vet Parasitol.1982 Mar;10(1):41~45.
[24]Hung AL Lloyd S.Humoral immune response of sheep to infection with eperythrozoon ovis[J].Res Vet Sci.1985 Nov;39(3):275~278.
[25]裴标,尚德秋,高峻,等.人类附红细胞体感染流行病学特征调查[J].中国人兽共患病杂志,1996,12(5):59~61.
[26]Hung AL, Lloyd S. Role of the spleen and ressette-formation response in experimental Eperythrozoon ovis infection[J]. Vet Parasitol. 1989 Jul 15; 32(2-3): 119~126.
[27]饶家荣,王旭东,钱光云.番鸭红细胞免疫功能研究及其意义[J].畜禽业,1999,105(1):15~16.
[28]Siegel I,Liu TL,Gieicher N.The red-cell immune system[J].Lancet.1981 Sep 12;2(8246):556~559.
[29]郭峰,虞紫茜,赵中平.红细胞免疫功能的初步研究[J].中华医学杂志,1982,62(12):715.
[30]闫智勇,王宇,骆永珍.中医药与肿瘤红细胞免疫研究概况[J].中医杂志,2000,41(8):502~504.
[31]刘瑞田.动物的红细胞免疫功能及其影响因素[J].畜牧与兽医,1991,23(4):183~184.
[32]冯来坤.红细胞免疫功能及其检测方法[J].中国兽医杂志,1991,17(1):49~50.
[33]张书霞,陈万芳,宋大鲁.淫羊藿—蜂胶合剂对鸡马立克氏病抵抗力的影响及红细胞CR1的变化[J].畜牧兽医学报,1996,27(3):254~259.
[34]尚德秋,李兰玉.应用RBC—酵母花环试验检测布鲁氏菌感染或免疫机体的RBC免疫功能的观察[J].中国人畜共患病杂志,1987,3(3):20~22.
[35]刘聚祥,胡维华,刘建明.鸡包涵体肝炎病毒(IBVM)对雏鸡淋巴细胞和红细胞免疫功能的影响[J].中国兽医学报,1999,19(4):330~332.
[36]杨再昌,景诗韵,谢百炼.鸡球虫病红细胞免疫功能检测[J].中国兽医杂志,2000,26(10):10~11
[37]Culotta E, Koshland, DE Jr. NO news is good news [J]. Science. 1992 Dec 18; 258(5090):1862~1865.
[38]申兆菊,蒋金书,朱蓓蕾.一氧化氮与寄生虫感染的关系[J].中国农业科学,2000,33(4):82~90.
[39]林潘平.一氧化氮的病理生理与畜禽疾病[J].福建畜牧兽医,2001,23(1):47~51.
[40]Ramaswamy K, He YX, Salafsky B. ICAM-1 and iNOS expression increased in the skin of mice
after vaccination with gamma-irradiated cercariae of Sehistosoma mansoni [J]. Exp Parasitol.1997 Jun; 86(2): 118~132.
[41]James SL, Glaven J. Macrophage cytotoxity against sehistosoma of Schistosoma mansoni involves arginine-dependent production of reactive nitrogen intermediates[J]. J Immunol, 1989,143: 4208~4212.
[42]Klotz FW, Scheller LF, Seguin MC, et al. Co-cocalization of inducible-nitric oxide synthase and Piasmodium berghei in hepatocytes from rats immunized with irradiated sporozoite[J]. J Immunol, 1995, 154: 3391~3395.
[43]Stevenson MM, Tam MF, Wolf SF, et al. IL-12-indueed protection against blood-stage Plasmodium chabaudi as requires IFN- γ and TNF- α and occurs via a nitric oxide-dependent mechanism[J]. J Immunol, 1995, 155: 2545~2556.
[44]Taylor-Robinson AW. Nitric oxide can be released as well as scavenged by hemoglobin: relevance to its antimalarial activity[J]. Parasite Immunol, 1998, 20(1): 49~50.
[45]Mccabe RE, Luft B J, Remington JS. Effect of murine interferon gamma on murine toxoplasmosis[J]. J Infect Dis, 1984, 150: 961~962.
[46]Subauste CS, Remington JS. Role of gamma-interferon in Toxoplasma gondii infection[J]. Eur J Clin Microbiol Infect Dis, 1991, 10: 58~67.
[47]Roehett KA, Awbum MM, Aggarwal BB, et al. Metabolic cardiac imaging in servere coronary disease: assessment of viability with iodine-123-iodophenyl pentadec anoie acid and multierystal gamma camera, and correlation with biopsy[J]. Infect Immun, 1992, 60(9): 3725~3730.
[48]王丙云,朱祖康,陈龙,等.实验感染肝片吸虫山羊血浆中一氧化氮和肿瘤坏死因子的动态变化[J].中国兽医科技,2000,30(2):9~11.
[49]Vespa GN, Cunha FQ, Silva JS. Nitric oxide is involved in control of T-rypanosoma cruzi-induced parasitemia and directly kills the parasite in vitro[J]. Infect Immun, 1994, 62(11):5177~5182.
[50]Allen PC. Nitric oxide production during Eimeria tenella infections in chickens[J]. Poultry Science, 1997, 76: 810~813.
[51]Sun Y. Free radical, antioxidant enzymes and carcinogenesis[J]. Free Biol Med. 1990, 8: 583~599.
[52]李国平,周伦江,邵良平,等.日粮中添加复合菌制剂对雏鸡盲肠大肠杆菌数肠道PH值,血液SOD和GSH-Px影响的研究[J].中国兽医杂志,1999,25(8):7~8.
[53]迟玉杰,李庆章.马立克氏病病毒感染雏鸡的SOD活性变化[J].中国兽医学报,1997,17(4):323~325.
[54]薛春宜,毕英佐.鸡胚成纤维细胞感染IBVD后SOD活性的变化[J].中国兽医杂志,1999,25(1):3~5.
[55]迟玉杰,李庆章,于洪样.黄芪多糖对vAMV感染雏鸡SOD活性的影响[J].黑龙江畜牧兽医,1998(2):3~5.
[56]郭定宗,杨世锦,吴建光,等.ND野毒感染病鸡MDA含量和SOD活性研究[J].中国预
防兽医学报,2000,22(5):365~367.
[57]孙刚,孙光,郭昭林.动物附红细胞体病[J].黑龙江畜牧兽医,2003,12:72~73.
[58]张克家.中兽医方剂大全[M].中国农业出版社,1994.333.
[59]陶义训.临床免疫学检验[M].上海:上海科学技术出版社.1982.44~48.
[60]郭峰,钱宝华,张乐之.现代红细胞免疫学[M].上海:第二军医大学出版社,2002,62.
[61]赵丽颖,白建文.人附红细胞体的电镜观察及临床特征研究[J].内蒙古医学杂志,2001,33(2):108~110.
[62]湖远贵,沈云峰.静脉注射海洛因对一氧化氮及红细胞免疫功能的影响[J].武汉市职工医学院学报.2001,29(1):19~20.
[63]赵香汝,赵彦雪,杨玉成,等.“病毒克”颗粒剂对鸡免疫功能的影响[J].中兽医学杂志,2004(1):6~8.
[64]秦林金,刘志跃,白建文,等.脾切除术前后感染附红细胞体的研究[J].内蒙古医学杂志,1998(6):341~343.
[65]周明荣,王金法,王宗元,等.铜、锰、锌、硒对肉鸡生长性能和血液中某些生理生化指标等影响的研究[J].畜牧兽医学报,1993,14(5):412~422.
[66]冷静,戴志明,杨国明,等.日粮补锌对断奶仔猪淋巴细胞转化率的影响[J].当代畜牧,2003(11):28~29.
[67]牛宇欣.IFN-γ激活巨噬细胞产生一氧化氮杀伤疟原虫的作用[J].中国寄生虫学与寄生虫病杂志.1997,15(6):335~339.
[68]Stuehr D J, Nathan CF. A macrophage product responsible for cytostasis and respiratory inhibition in tumor target cells[J]. J Exp Med, 1989, 169: 1543~1555.
[69]Allen PC, Lillehoj HS. Genetic influence on nitric oxide production during E. tenella infection in chickens[J]. Avian Dis, 1998, 42(2): 397~403.
[70]Graine WF, Myers PR, Rubin LJ, et al. E. coil endotoxin inhibits agonist-mediated cytolic Ca2+ mobilization and nitric oxide biosynthasc in cultured endothelia cells[J]. Circ Res, 1994, 75:659~668.
[71]吴永魁,张立树,朱平.NO在生物医学中的研究进展[J].中国兽医学报.21(5):529~532.
[72]Moncada S, Higgs A. The L-arginine-nitric oxide pathway[J]. N Engl J Med. 1993 Dec 30;329(27):2002~2012.
[73]Billiar TR, Curran RD, West MA. Kupffer cellcytotoxicity to hcpatocytes in coculture rcguires L-argininc[J]. Arch Surg, 1989, 124: 1416~1421.
[74]Moncada S, Higgs A. The L-argininc-nitric oxide pathway[J]. N Engl J Med. 1993 Dec 30;329(27):2002~2012.
[75]何永明,张浩吉,杨鸿,等.“黄芩、大黄”合剂对人工诱发传染性喉气管炎患鸡血液SOD、MDA水平的影响[J].中国家禽,2003,25(17):9~11.
[76]何水祥,舒昌杰.自由基在病理性肝炎中的作用及其防治[J].中国实用内科杂志,1994,14(11):679~680.
[77]诸燕珍.氧自由基与病毒性肝炎关系的探讨[J].实用中西医结合杂志,1996,9(2):76.
[78]Meneghini R. Ironhomeostasis, oxidativestress and DNA damage[J]. Free Radical Biology and Medicine, 1997, 23(5): 783~792.
[79]赵德明.兽医病理学[M].北京:中国农业大学出版社,2002.36.
[80]韩惠瑛,马海利,张艳红,等.附红细胞体自然感染猪血液生化指标的检测[J].中国兽医杂志,2003,11:20~22.
[81]Schmidt P, Kaspers B, Jungling A, et al. Isolation in cold agglutionation of eperythrozoon suis infected pigs[J]. Vet Immunol Immunopathol, 1992, 31(1): 195~201.
[82]Berkeenkarm SD. Arthropnod study to show eperythrozoon cocooides in mice[J]. Lab Anita Sci,1988, 38: 398.
[83]Kabay MJ, Richard RB, Ellis TE, et al. Across~sectional study to show eperythrozoon Ovis infection is prevalent in western Australican sheep farms[J]. Aust Vet J, 1991, 68(5): 170~173.
[84]郑虎占,董泽宏,余靖.中药现代研究与应用(第二卷)[M].学苑出版社,1997.1617~1618.
[85]王新,张秀英,杜向娟,等.净球散对球虫病雏鸡部分血液指标的影响[J].黑龙江八一农垦大学学报,2001,13(3):63~67.
[86]尚德秋.附红细胞体病研究进展[J].中华流行病学杂志,1994,15(4):234~240.
[87]刘钟杰,许剑琴.中兽医学(第三版)[M].北京:中国农业出版社,2002,7:354.
[88]郭峰,钱宝华,张乐之.现代红细胞免疫学[M].上海:第二军医大学出版社,2002.213.
[89]张德成,陈恩义,吴润培,等.鸡传染性喉气管炎红细胞C3b受体的变化研究[J],中国兽医杂志,1992,1:16~17.
[90]樊福好,谢明权,林辉环.免疫增强剂对球虫感染鸡的免疫学指标的影响[J].中国兽医杂志,2002,3:11~14.
[91]樊福好,谢明权,林辉环.3种免疫调节增强剂对鸡的免疫促进效果试验[J].中国兽医杂志,2001,2:12~13.
[92]肖树华,尤纪青,焦佩英,等。蒿甲醚早期治疗小鼠血吸虫病的疗效[J].中国寄生虫学与寄生虫病杂志.1994,12(1):7
[93]郑虎占,董泽宏,余靖.中药现代研究与应用(第三卷)[M].学苑出版社,1997.2637.
[94]李晓玉,梁惠珍.蒿甲醚对红细胞免疫功能的影响[J].中国药理学报.1986,7(5):471~475.
[95]郑虎占,董泽宏,余靖.中药现代研究与应用(第四卷)[M].学苑出版社,1997.3703~3704.
[96]华南农学院主编,兽医药理学[M].北京:农业出版社出版,1989.216.
[2]尚德秋.附红细胞体病研究进展[J].中华流行病学杂志,1994,15(4):234~240.
[3]沈禹颐.新型人畜共患病—附红细胞体病[J].甘肃畜牧兽医,2002,(3):37~39.
[4]Gulland FM, Doxey DL, Scott GR. Changing morphology of eperythrozoon ovis[J]. Res Vet Sci.1987 Jul; 43(1): 88~91.
[5]赵丽颖,白建文.人附红细胞体的电镜观察及临床特征研究[J].内蒙古医学杂志,2001,33(2):108~110.
[6]吴雅玲.附红细胞体病[J].青海畜牧兽医杂志,2001,31(4):47~48.
[7]Zachary JF, Basgall EJ. Erythrocyte mcmbrance alterations associated with the attachment and rephcation of eperythrozoon suis: A light and electron microscopic study[J]. Vet Pathol. 1985 Mar;22(2): 164~170.
[8]Brown JE, Hidalgo RJ, Jones EW, et al. Blood magnesium values in healthy cattle and in cattle affected with anaplasmosis and eperythrozoonsis[J]. Am J Vet Res. 1986 Jan; 47(1): 158~162.
[9]Heinritzi K, Plank G, Peteranderl W, et. al. The acid-base equilibrium and carbohydrate metabolism during infection with eperythrozoon suis[J]. Zentralbl Veterinarmed B. 1990 Aug; 37(6): 412~417.
[10]Smith JE, Cipriano JE, Hall SM. In vitro and in vivo glucose cinsumption in swine eperythrozoonosis[J]. J Zentralbl Veterinarmed B, 1990, 37(8): 587.
[11]Oberst RD, Hall SM, Schoneweis DA. Detection of eperythrozoon suis DNA from swine blood by whole organism DNA hybridizations[J]. Vet Microb, 1990, 24(2): 127~134.
[12]Oberst RD, Hall SM, Jasso RA, et al. Recombinant DNA probe detecting eperythrozoon suis in swine blood[J]. Am J Vet Res, 1990, 51(11): 1760~1764.
[13]Gwaltney SM, Hays MP, Oberst RD. Detection of eperythrozoon suis using the polymerase chain reaction[J]. J Vet Diag Invest, 1993, 5(1): 40~46.
[14]Oberst RD, Gwaltney SM, Hays MP, et al. Experimental infections and natural outbreaks of eperythrozoonosis in pigs identified by PCR-DNA hybridizations[J]. J Vet Diagn Invest. 1993 Jul; 5(3): 351~358.
[15]刘兴发,田红,侯顺利,等.附红细胞体人畜感染及传播途径的调查[J].中国兽医杂志,1997,(10):23~24.
[16]崔君兆等.在人和动物血液中发现一种不明微生物[J].兽医科技杂志,1982,2:53.
[17]Martin BJ, Chrisp CE, Averill Dr Jr, et al. The identification of eperythrozoon ovis in anemic sheep[J]. Lab Anim Sci. 1988 Apr; 38(2): 173~177.
[18]Zachary JF, Smith AR. Experimental porcine eperythrozoonosis: T-lymphocyte suppression and misdirected immune responses[J]. Am J Vet Res. 1985 Apr; 46(4): 821~830.
[19]Smith JA, Thrall MA, Smith JL, et al. Eperythrozoon wenyonii infection in dairy cattle[J]. J Am Vet Med Assoc. 1990 Apt 15; 196(8): 1244~1250.
[20]许耀成等.红皮病猪血液内发现大量附红细胞体初报[J].兽医科技杂志,1982’2:32.
[21]Reagan WJ, Garry F, Thrall MA, et al. The clinicopathologic, light and scanning electron microscopic features of eperthrozoonosis in four naturally infected llamas[J]. Vet Pathol. 1990 Nov; 27(6): 426~431.
[22]赵洪明等.家畜附红细胞体研究现状[J].中国兽医杂志,1987,13:43.
[23]Daddow KN.The protection of lambs from eperythrozoon infection while suckling Eperythrozoon ovis carcer ewes[J].Vet Parasitol.1982 Mar;10(1):41~45.
[24]Hung AL Lloyd S.Humoral immune response of sheep to infection with eperythrozoon ovis[J].Res Vet Sci.1985 Nov;39(3):275~278.
[25]裴标,尚德秋,高峻,等.人类附红细胞体感染流行病学特征调查[J].中国人兽共患病杂志,1996,12(5):59~61.
[26]Hung AL, Lloyd S. Role of the spleen and ressette-formation response in experimental Eperythrozoon ovis infection[J]. Vet Parasitol. 1989 Jul 15; 32(2-3): 119~126.
[27]饶家荣,王旭东,钱光云.番鸭红细胞免疫功能研究及其意义[J].畜禽业,1999,105(1):15~16.
[28]Siegel I,Liu TL,Gieicher N.The red-cell immune system[J].Lancet.1981 Sep 12;2(8246):556~559.
[29]郭峰,虞紫茜,赵中平.红细胞免疫功能的初步研究[J].中华医学杂志,1982,62(12):715.
[30]闫智勇,王宇,骆永珍.中医药与肿瘤红细胞免疫研究概况[J].中医杂志,2000,41(8):502~504.
[31]刘瑞田.动物的红细胞免疫功能及其影响因素[J].畜牧与兽医,1991,23(4):183~184.
[32]冯来坤.红细胞免疫功能及其检测方法[J].中国兽医杂志,1991,17(1):49~50.
[33]张书霞,陈万芳,宋大鲁.淫羊藿—蜂胶合剂对鸡马立克氏病抵抗力的影响及红细胞CR1的变化[J].畜牧兽医学报,1996,27(3):254~259.
[34]尚德秋,李兰玉.应用RBC—酵母花环试验检测布鲁氏菌感染或免疫机体的RBC免疫功能的观察[J].中国人畜共患病杂志,1987,3(3):20~22.
[35]刘聚祥,胡维华,刘建明.鸡包涵体肝炎病毒(IBVM)对雏鸡淋巴细胞和红细胞免疫功能的影响[J].中国兽医学报,1999,19(4):330~332.
[36]杨再昌,景诗韵,谢百炼.鸡球虫病红细胞免疫功能检测[J].中国兽医杂志,2000,26(10):10~11
[37]Culotta E, Koshland, DE Jr. NO news is good news [J]. Science. 1992 Dec 18; 258(5090):1862~1865.
[38]申兆菊,蒋金书,朱蓓蕾.一氧化氮与寄生虫感染的关系[J].中国农业科学,2000,33(4):82~90.
[39]林潘平.一氧化氮的病理生理与畜禽疾病[J].福建畜牧兽医,2001,23(1):47~51.
[40]Ramaswamy K, He YX, Salafsky B. ICAM-1 and iNOS expression increased in the skin of mice
after vaccination with gamma-irradiated cercariae of Sehistosoma mansoni [J]. Exp Parasitol.1997 Jun; 86(2): 118~132.
[41]James SL, Glaven J. Macrophage cytotoxity against sehistosoma of Schistosoma mansoni involves arginine-dependent production of reactive nitrogen intermediates[J]. J Immunol, 1989,143: 4208~4212.
[42]Klotz FW, Scheller LF, Seguin MC, et al. Co-cocalization of inducible-nitric oxide synthase and Piasmodium berghei in hepatocytes from rats immunized with irradiated sporozoite[J]. J Immunol, 1995, 154: 3391~3395.
[43]Stevenson MM, Tam MF, Wolf SF, et al. IL-12-indueed protection against blood-stage Plasmodium chabaudi as requires IFN- γ and TNF- α and occurs via a nitric oxide-dependent mechanism[J]. J Immunol, 1995, 155: 2545~2556.
[44]Taylor-Robinson AW. Nitric oxide can be released as well as scavenged by hemoglobin: relevance to its antimalarial activity[J]. Parasite Immunol, 1998, 20(1): 49~50.
[45]Mccabe RE, Luft B J, Remington JS. Effect of murine interferon gamma on murine toxoplasmosis[J]. J Infect Dis, 1984, 150: 961~962.
[46]Subauste CS, Remington JS. Role of gamma-interferon in Toxoplasma gondii infection[J]. Eur J Clin Microbiol Infect Dis, 1991, 10: 58~67.
[47]Roehett KA, Awbum MM, Aggarwal BB, et al. Metabolic cardiac imaging in servere coronary disease: assessment of viability with iodine-123-iodophenyl pentadec anoie acid and multierystal gamma camera, and correlation with biopsy[J]. Infect Immun, 1992, 60(9): 3725~3730.
[48]王丙云,朱祖康,陈龙,等.实验感染肝片吸虫山羊血浆中一氧化氮和肿瘤坏死因子的动态变化[J].中国兽医科技,2000,30(2):9~11.
[49]Vespa GN, Cunha FQ, Silva JS. Nitric oxide is involved in control of T-rypanosoma cruzi-induced parasitemia and directly kills the parasite in vitro[J]. Infect Immun, 1994, 62(11):5177~5182.
[50]Allen PC. Nitric oxide production during Eimeria tenella infections in chickens[J]. Poultry Science, 1997, 76: 810~813.
[51]Sun Y. Free radical, antioxidant enzymes and carcinogenesis[J]. Free Biol Med. 1990, 8: 583~599.
[52]李国平,周伦江,邵良平,等.日粮中添加复合菌制剂对雏鸡盲肠大肠杆菌数肠道PH值,血液SOD和GSH-Px影响的研究[J].中国兽医杂志,1999,25(8):7~8.
[53]迟玉杰,李庆章.马立克氏病病毒感染雏鸡的SOD活性变化[J].中国兽医学报,1997,17(4):323~325.
[54]薛春宜,毕英佐.鸡胚成纤维细胞感染IBVD后SOD活性的变化[J].中国兽医杂志,1999,25(1):3~5.
[55]迟玉杰,李庆章,于洪样.黄芪多糖对vAMV感染雏鸡SOD活性的影响[J].黑龙江畜牧兽医,1998(2):3~5.
[56]郭定宗,杨世锦,吴建光,等.ND野毒感染病鸡MDA含量和SOD活性研究[J].中国预
防兽医学报,2000,22(5):365~367.
[57]孙刚,孙光,郭昭林.动物附红细胞体病[J].黑龙江畜牧兽医,2003,12:72~73.
[58]张克家.中兽医方剂大全[M].中国农业出版社,1994.333.
[59]陶义训.临床免疫学检验[M].上海:上海科学技术出版社.1982.44~48.
[60]郭峰,钱宝华,张乐之.现代红细胞免疫学[M].上海:第二军医大学出版社,2002,62.
[61]赵丽颖,白建文.人附红细胞体的电镜观察及临床特征研究[J].内蒙古医学杂志,2001,33(2):108~110.
[62]湖远贵,沈云峰.静脉注射海洛因对一氧化氮及红细胞免疫功能的影响[J].武汉市职工医学院学报.2001,29(1):19~20.
[63]赵香汝,赵彦雪,杨玉成,等.“病毒克”颗粒剂对鸡免疫功能的影响[J].中兽医学杂志,2004(1):6~8.
[64]秦林金,刘志跃,白建文,等.脾切除术前后感染附红细胞体的研究[J].内蒙古医学杂志,1998(6):341~343.
[65]周明荣,王金法,王宗元,等.铜、锰、锌、硒对肉鸡生长性能和血液中某些生理生化指标等影响的研究[J].畜牧兽医学报,1993,14(5):412~422.
[66]冷静,戴志明,杨国明,等.日粮补锌对断奶仔猪淋巴细胞转化率的影响[J].当代畜牧,2003(11):28~29.
[67]牛宇欣.IFN-γ激活巨噬细胞产生一氧化氮杀伤疟原虫的作用[J].中国寄生虫学与寄生虫病杂志.1997,15(6):335~339.
[68]Stuehr D J, Nathan CF. A macrophage product responsible for cytostasis and respiratory inhibition in tumor target cells[J]. J Exp Med, 1989, 169: 1543~1555.
[69]Allen PC, Lillehoj HS. Genetic influence on nitric oxide production during E. tenella infection in chickens[J]. Avian Dis, 1998, 42(2): 397~403.
[70]Graine WF, Myers PR, Rubin LJ, et al. E. coil endotoxin inhibits agonist-mediated cytolic Ca2+ mobilization and nitric oxide biosynthasc in cultured endothelia cells[J]. Circ Res, 1994, 75:659~668.
[71]吴永魁,张立树,朱平.NO在生物医学中的研究进展[J].中国兽医学报.21(5):529~532.
[72]Moncada S, Higgs A. The L-arginine-nitric oxide pathway[J]. N Engl J Med. 1993 Dec 30;329(27):2002~2012.
[73]Billiar TR, Curran RD, West MA. Kupffer cellcytotoxicity to hcpatocytes in coculture rcguires L-argininc[J]. Arch Surg, 1989, 124: 1416~1421.
[74]Moncada S, Higgs A. The L-argininc-nitric oxide pathway[J]. N Engl J Med. 1993 Dec 30;329(27):2002~2012.
[75]何永明,张浩吉,杨鸿,等.“黄芩、大黄”合剂对人工诱发传染性喉气管炎患鸡血液SOD、MDA水平的影响[J].中国家禽,2003,25(17):9~11.
[76]何水祥,舒昌杰.自由基在病理性肝炎中的作用及其防治[J].中国实用内科杂志,1994,14(11):679~680.
[77]诸燕珍.氧自由基与病毒性肝炎关系的探讨[J].实用中西医结合杂志,1996,9(2):76.
[78]Meneghini R. Ironhomeostasis, oxidativestress and DNA damage[J]. Free Radical Biology and Medicine, 1997, 23(5): 783~792.
[79]赵德明.兽医病理学[M].北京:中国农业大学出版社,2002.36.
[80]韩惠瑛,马海利,张艳红,等.附红细胞体自然感染猪血液生化指标的检测[J].中国兽医杂志,2003,11:20~22.
[81]Schmidt P, Kaspers B, Jungling A, et al. Isolation in cold agglutionation of eperythrozoon suis infected pigs[J]. Vet Immunol Immunopathol, 1992, 31(1): 195~201.
[82]Berkeenkarm SD. Arthropnod study to show eperythrozoon cocooides in mice[J]. Lab Anita Sci,1988, 38: 398.
[83]Kabay MJ, Richard RB, Ellis TE, et al. Across~sectional study to show eperythrozoon Ovis infection is prevalent in western Australican sheep farms[J]. Aust Vet J, 1991, 68(5): 170~173.
[84]郑虎占,董泽宏,余靖.中药现代研究与应用(第二卷)[M].学苑出版社,1997.1617~1618.
[85]王新,张秀英,杜向娟,等.净球散对球虫病雏鸡部分血液指标的影响[J].黑龙江八一农垦大学学报,2001,13(3):63~67.
[86]尚德秋.附红细胞体病研究进展[J].中华流行病学杂志,1994,15(4):234~240.
[87]刘钟杰,许剑琴.中兽医学(第三版)[M].北京:中国农业出版社,2002,7:354.
[88]郭峰,钱宝华,张乐之.现代红细胞免疫学[M].上海:第二军医大学出版社,2002.213.
[89]张德成,陈恩义,吴润培,等.鸡传染性喉气管炎红细胞C3b受体的变化研究[J],中国兽医杂志,1992,1:16~17.
[90]樊福好,谢明权,林辉环.免疫增强剂对球虫感染鸡的免疫学指标的影响[J].中国兽医杂志,2002,3:11~14.
[91]樊福好,谢明权,林辉环.3种免疫调节增强剂对鸡的免疫促进效果试验[J].中国兽医杂志,2001,2:12~13.
[92]肖树华,尤纪青,焦佩英,等。蒿甲醚早期治疗小鼠血吸虫病的疗效[J].中国寄生虫学与寄生虫病杂志.1994,12(1):7
[93]郑虎占,董泽宏,余靖.中药现代研究与应用(第三卷)[M].学苑出版社,1997.2637.
[94]李晓玉,梁惠珍.蒿甲醚对红细胞免疫功能的影响[J].中国药理学报.1986,7(5):471~475.
[95]郑虎占,董泽宏,余靖.中药现代研究与应用(第四卷)[M].学苑出版社,1997.3703~3704.
[96]华南农学院主编,兽医药理学[M].北京:农业出版社出版,1989.216.