Hostname: page-component-cd9895bd7-7cvxr Total loading time: 0 Render date: 2024-12-26T12:41:31.197Z Has data issue: false hasContentIssue false

Chlamydia psittaci infections in Chinese poultry: a literature review

Published online by Cambridge University Press:  04 September 2015

L. YIN
Affiliation:
College of Veterinary Medicine, Sichuan Agricultural University, Ya'an, 625014, China Department of Animal Production, Faculty of Bioscience Engineering, Ghent University, Coupure Links 653, BE-9000 Ghent, Belgium
I.D. KALMAR
Affiliation:
Department of Animal Production, Faculty of Bioscience Engineering, Ghent University, Coupure Links 653, BE-9000 Ghent, Belgium
J. BODEN
Affiliation:
ChinaConduct, Karel de Stoutestraat, 49, Ghent, Belgium Faculty of Arts and Philosophy, Department of Eastern Languages and Culture, Blandijnberg 2, Ghent, Belgium
D. VANROMPAY*
Affiliation:
Department of Animal Production, Faculty of Bioscience Engineering, Ghent University, Coupure Links 653, BE-9000 Ghent, Belgium
*
Corresponding author: [email protected]
Get access

Abstract

Chlamydia (C.) psittaci, formerly known as Chlamydophila psittaci infections cause important economical losses to the poultry industry and are a danger to public health. The economic and zoonotic impact of C. psittaci infections in the Western poultry industry is well documented. Less is known on its occurrence in Asia. In the following review we address C. psittaci infections in Chinese poultry in view of China supplying 40.8% of global egg production and 14.2, 69.3 and 91.1% of global chicken, duck and goose meat, respectively. The current paper compiles English and Chinese scientific literature on C. psittaci infections in Chinese poultry. The paper is focusing on seroprevalence, culture, direct antigen detection, molecular characterisation, observed symptoms, Chinese traditional medicine and psittacosis case reports. A review on the epidemiology of chlamydiosis in Chinese poultry clearly illustrates the widespread presence of virulent C. psittaci strains in chickens, ducks and geese across China. In Western countries, C. psittaci infections in poultry are principally treated with antibiotics. In China, however, herbal medicine is often used in conjunction with antibiotic treatment or as prophylaxis. The applied production and marketing systems facilitate zoonotic transfer. Chinese occupationally acquired psittacosis cases include reports on infections contracted from ducks, pigeons, chickens and peacocks.

Type
Reviews
Copyright
Copyright © World's Poultry Science Association 2015 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

ANDERSEN, A.A. and VANROMPAY, D. (2000) Avian Chlamydiosis. Office International des Epizooties (O.I.E). Diseases of Poultry: World Trade and Public Health Implications. O.I.E., Scientific and Technical Review 19: 396-404.Google Scholar
BEECKMAN, D.S.A. and VANROMPAY, D.C.G. (2010) Biology and intracellular pathogenesis of high or low virulent Chlamydophila psittaci strains in chicken macrophages. Veterinary Microbiology 141: 342-353.CrossRefGoogle ScholarPubMed
BUTAYE, P., DUCATELLE, R., DE BACKER, P., VERMEERSCH, H., REMON, J.P. and HAESEBROUCK, F. (1997) In vitro activities of doxycycline and enrofloxacin against European Chlamydia psittaci strains from turkeys. Antimicrobial Agents Chemotherapy 41: 2800-2801.CrossRefGoogle ScholarPubMed
CAO, J., YANG, Q., YANG, L., LIU, Z. and HE, C. (2006) Epidemic investigation of avian chlamydia psittaci in Beijing and other provinces around. Veterinary Science in China 36: 931-934 (in Chinese).Google Scholar
CHEN, J.K. and CHEN, T.T. (2004) Chinese medical herbology and pharmacology. Industry, Art of Medicine Press City of Industry.Google Scholar
CHINESE NATIONAL STANDARD (2007) GB 21317-2007: Determination of tetracyclines residues in food of animal origin LC-MS/MS method and HPLC method.Google Scholar
DONATI, M., POLLINI, G.M., SPARACINO, M., FORTUGNO, M.T., LAGHI, E. and CEVENINI, R. (2002) Comparative in vitro activity of garenoxacin against Chlamydia spp. Journal of Antimicrobial Chemotherapy 50: 407-410.CrossRefGoogle ScholarPubMed
EGGEMANN, G., WENDT, M., HOELZLE, L.E., JAGER, C., WEISS, R. and FAILING, K. (2000) Prevalence of chlamydia infections in breeding sows and their importance in reproductive failure. Deutsche Tierarztle Wochenschrift 107: 3-10 (in German).Google ScholarPubMed
FIORE, C., BORDIN, L., PELLATI, D., ARMANINI, D. and CLARI, G. (2008) Effect of glycyrrhetinic acid on membrane band 3 in human erythrocytes. Archives of Biochemistry and Biophysics 479: 46-51.CrossRefGoogle ScholarPubMed
GAO, Y., XU, S. and LV, Z. (1989) a report of 3 cases of ornithosis pneumonia. Chinese Journal of Zoonoses 05: 57 (in Chinese).Google Scholar
HAN, C. and GUO, J. (2012) Antibacterial and anti-inflammatory activity of traditional Chinese herb pairs, Angelica sinensis and Sophora flavescens. Inflammation 35: 913-919.CrossRefGoogle ScholarPubMed
HAYASHI, H. and SUDO, T. (2009) Effects of the CAMP-elevating agents cilostamide, cilostazol and forskolin on the phosphorylation of Akt and GSK-3β in platelets. Journal of Thrombosis and Haemostasis 102: 327-335.CrossRefGoogle ScholarPubMed
HUANG, H. and MICHAEL, M. (2009) Ten key formula families in Chinese medicine. Seattle, Eastland press.Google Scholar
HUO, H.Z., WANG, B., LIANG, Y.K., BAO, Y.Y. and GU, Y. (2011) Hepatoprotective and antioxidant effects of licorice extract against CCI(4)-induced oxidative damage in rats. International Journal of Molecular Science 12: 6529-6543.CrossRefGoogle Scholar
JIANG, Y., PANG, L., GUO, Z. and XU., T. (1993) Serological investigation of avian chlamydiosis in one chicken farm of Qinghai Province. Chinese Qinghai Journal of Animal and Veterinary Sciences 23: 15-16 (in Chinese).Google Scholar
KAMATH, S., SKEELS, M. and PAI, A. (2009) Significant differences in alkaloid content of Coptis chinensis (huanglian), from its related American species. Chinese Medicine 4: 17.CrossRefGoogle ScholarPubMed
KRIZEVSKI, R., BAR, E., SHALIT, O., SITRIT, Y., BEN-SHABAT, S. and LEWINSOHN, E. (2010) Composition and stereochemistry of ephedrine alkaloids accumulation in Ephedra sinica Stapf. Phytochemistry 71: 895-903.CrossRefGoogle ScholarPubMed
LAROUCAU, K., THIERRY, S., VORIMORE, F., BLANCO, K., KALETA, E., HOOP, R., MAGNINO, S., VANROMPAY, D., SACHSE, K., MYERS, G.S.A., BAVOIL, P.M., VERGNAUD, G. and POURCEL, C. (2008) High resolution typing of Chlamydophila psittaci by Multilocus VNTR Analysis (MLVA). Infection, Genetics and Evolution 8: 171-181.CrossRefGoogle ScholarPubMed
LI, Y., XIE, M., CHEN, R. and ZHANG., K. (1992) Serological investigation of avian chlamydiosis. Poultry Science (Chinese) 5: 27-29 (in Chinese).Google Scholar
LIN, R., WANG, X., YAN, C., HE, X., CHENG, T., WANG, Y., XU, M., YUAN, Z., ZHANG, Y. and ZHU, X. (2011) Seroprevalence of Chlamydophila infection in chickens, ducks, geese and pigeons in southern China. African Journal of Microbiology Research 5: 4240-4242.Google Scholar
LIU, W., YANG, J., LIN, Y., YUAN, D., XIAO, X. and WANG, Y. (1990) Survey of avian chlamydiosis in Jingzhou district. Chinese Journal of Veterinary Science and Technology 20: 14-16.Google Scholar
LONGBOTTOM, D. and LIVINGSTONE, M. (2006) Vaccination against chlamydial infections of man and animals. The Veterinary Journal 171: 263-275.CrossRefGoogle ScholarPubMed
MASUBUCHI, K., WAKATSUKI, A., IWAMOTO, K., TAKAHASHI, T., KOKUBU, T. and SHIMIZU, M. (2010) Efficacy of a new inactivated Chlamydophila felis vaccine in experimentally-infected cats. Journal of Feline Medicine and Surgery 12: 609-613.CrossRefGoogle ScholarPubMed
PANNEKOEK, Y., DICKX, V., BEECKMAN, D.S.A., KEIJZERS, W.C., VRETOU, E., VANROMPAY, D. and VAN DER ENDE, A. (2010) Multi Locus Sequence Typing of Chlamydia reveals host species jumps by Chlamydia psittaci and Chlamydia abortus. PLoS One 2: 5 (12): e14179.Google Scholar
PETTIS, W., MOLONY, D. and MORRIS, W. (2004) Ma Huang (Ephedra). The American Acupuncturist 31: 14-15.Google Scholar
REINHOLD, P., SACHSE, K. and KALTENBOECK, B. (2011) Chlamydiaceae in cattle: Commensals, trigger organisms, or pathogens? The Veterinary Journal 189: 257-267.CrossRefGoogle ScholarPubMed
SHI, Y., HE, C., ZHU, H. and DUAN, Q. (2003) Isolation and characterization of an Chlamydia psittaci in broiler. Chinese Journal of Comparative Medicine 13: 217-221.Google Scholar
SONG, L., LI, Y., LIU, G., HE, J., ZHU, H. and DUAN, Q. (2009) Genotyping of Chlamydophila psittaci strains derived from avian and mammalian species. Veterinary Research Communications 33: 575-580.CrossRefGoogle ScholarPubMed
SUN, J. (2010) Nursing of patients with psittacosis. China Foreign Medical Treatment 29: 73.Google Scholar
VANROMPAY, D., DUCATELLE, R. and HAESEBROUCK, F. (1992) Diagnosis of avian chlamydiosis: Specificity of the modified gimenez staining on smears and comparison of the sensitivity of isolation in eggs and three different cell cultures. Journal of Veterinary Medicine, Series B 39: 105-112.CrossRefGoogle ScholarPubMed
VANROMPAY, D., GEENS, T., DESPLANQUES, A., HOANG, T. Q., DE VOS, L., VAN LOOCK, M., HUYCK, E., MIRRY, C. and COX, E. (2004) Immunoblotting, elisa and culture evidence for Chlamydiaceae in sows on 258 Belgian farms. Veterinary Microbiology 99: 59-66.CrossRefGoogle ScholarPubMed
VERMINNEN, K. and VANROMPAY, D. (2009) Chlamydophila psittaci infections in turkeys: Overview of economic and zoonotic importance and vaccine development. Drugs of Today (Barcelona, Spain: 1998) 45: 147-150.Google ScholarPubMed
WANG, C. and WEI., Y. (1991) Survey on chlamydiosis of chicken and sheep in Zhangye. Chinese Journal of Animal Health Inspection 8: 18-19 (in Chinese).Google Scholar
WANG, J., ZHANG, Y., ZHANG, S., YU, J., GU, J. and SUN, W. (2007) Cloning and sequence analysis of major outer membrane protein gene of Chlamydophila psittaci. Acta Agricultrae Shanghai 23: 12-15 (in Chinese).Google Scholar
WANG, W. (2001) Prevention and treatment to animal chlamydiosis. Contemporary Animal Husbandry 03:15-16 (in Chinese).Google Scholar
WOO, P.C.Y., LAU, S.K.P. and YUEN, K. (2006) Infectious diseases emerging from chinese wet-markets: Zoonotic origins of severe respiratory viral infections. Current Opinion in Infectious Diseases 19: 401-407.CrossRefGoogle ScholarPubMed
XIAO, J., HU, H., LI, Y., WANG, Y. and WANG, Z. (2008) Diagnosis and control of duck chlamydiosis in Beijing. The Chinese Livestock and Poultry Breeding 4: 47-49.Google Scholar
YANG, H. and SHI, F. (2012) Prevent broiler airsacculitis in winter. Bei Fang Mu Ye 02: 23 (in Chinese).Google Scholar
YANG, J., LING, Y., YUAN, J., PANG, W. and HE, C. (2011) Isolation and characterization of peacock Chlamydophila psittaci infection in China. Avian Diseases 55: 76-81.CrossRefGoogle ScholarPubMed
YANG, J., YANG, Q. and HE, C. (2007a) Prevalence of avian Chlamydophila psittaci in China. Bulletin-Veterinary Institute in Pulawy 51: 347.Google Scholar
YANG, L., HE, C., YANG, Q., LEI, M., LIU, W. and ZHANG, C. (2007b) Survey on chlamydia infection in poultry. Chinese Journal of Veterinary Medicine 43: 41-42 (in Chinese).Google Scholar
YEUM, H.S., LEE, Y.C., KIM, S.H., ROH, S.S., LEE, J.C. and SEO, Y.B. (2007) Fritillaria cirrhosa, anemarrhena asphodeloides, Lee-Mo-Tang and cyclosporine a inhibit ovalbumin-induced eosinophil accumulation and Th2-mediated bronchial hyperresponsiveness in a murine model of asthma. Basic & Clinical Pharmacology & Toxicology 100: 205-213.CrossRefGoogle Scholar
YU, W., MA, W., ZHU, Q., YANG, X. and WANG, W. (1993) Survey on chlamydia infection in chickens. Chinese Journal of Veterinary Science and Technology 23: 13-17 (in Chinese).Google Scholar
YU, W., MA, W., ZHU, Q., YANG, X. and WANG, W. (1994) Survey on chlamydia infection in chickens. Chinese Journal of Veterinary Science and Technology 24: 13-15 (in Chinese).Google Scholar
ZHANG, F., LI, S., YANG, J., PANG, W., YANG, L. and HE, C. (2008) Isolation and characterization of Chlamydophila psittaci isolated from laying hens with cystic oviducts. Avian Diseases 52: 74-78.CrossRefGoogle ScholarPubMed
ZHANG, W. and YANG, B. (2009) Reported of 2 cases of psittaciosis pneumonia. Journal of Clinical Pulmonary Medicine 14: 978 (in Chinese).Google Scholar
ZHENG, Q., YUE, P.F., WU, B., HU, P.Y., WU, Z.F. and YANG, M. (2011) Pharmacokinetics comparative study of a novel Chinese traditional herbal formula and its compatibility. Journal of Ethnopharmacology 137: 221-225.CrossRefGoogle ScholarPubMed
ZHOU, J. and QIU, C. (2007) Epidemic status, diagnosis and control measures of avian chlamydiosis in China. China Poultry 29: 26-27 (in Chinese).Google Scholar
ZHOU, J., QIU, C., LIN, G., CAO, X., ZHENG, F., GONG, X. and WANG, G. (2010) Isolation of Chlamydophila patitaci from laying hens in China. Veterinary Research (Medwell) 3: 43-45.Google Scholar
ZOU, P. and KOH, H.L. (2007) Determination of indican, isatin, indirubin and indigotin in Isatis indigotica by liquid chromatography/electrospray ionization tandem mass spectrometry. Rapid Communications in Mass Spectrometry 21: 1239-1246.CrossRefGoogle ScholarPubMed