Serological investigation of Leptospira infection and its circulation in one intensive-type water buffalo farm in the Philippines.

IF 0.4 4区 农林科学 Q4 VETERINARY SCIENCES Japanese Journal of Veterinary Research Pub Date : 2016-02-01
Marvin A Villanueva, Claro N Mingala, Nina G Gloriani, Yasutake Yanagihara, Norikazu Isoda, Chie Nakajima, Yasuhiko Suzuki, Nobuo Koizumi
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Abstract

Water buffalo is an indispensable livestock in the Philippines. Leptospirosis is a serious zoonosis that can be fatal to humans and cause reproductive problems in livestock. Leptospirosis has been reported in some countries where water buffaloes are commercially raised, highlighting the Leptospira prevalence in this farming system, but information on leptospirosis in water buffalo farms in the Philippines is limited. In this study, we collected blood samples from rats (n = 21), and water buffaloes (n = 170) from different groups and locations in one intensive-type buffalo farm in the Philippines. Serum was analyzed by microscopic agglutination test (MAT). Anti-Leptospira antibodies reacting with serogroups Canicola, Icterohaemorrhagiae and Pomona were found in sera of 30% tested rats, and 48% of water buffalo sera tested positive for at least one Leptospira strain, in which serogroups Mini, Hebdomadis, Tarassovi and Pyrogenes were predominantly agglutinated. The number of seropositive young water buffaloes (< 1 year-old) was lower than that of older seropositive ones. Furthermore, sera from younger water buffaloes were reactive with single serotypes with low MAT titers, but older animals were reactive with multiple Leptospira strains with variable MAT titers. In addition, antibodies against serogroups Icterohaemorrhagiae and Pomona were detected in both animals. Finally, Leptospira infection was found associated with age and animal grouping, highlighting the impact of management in the persistence of leptospirosis at intensive-type buffalo farm settings in the Philippines. Further investigation and appropriate control strategies are required to prevent leptospirosis from causing risks to public health and economic losses to the water buffalo farming industry.

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菲律宾一个集约型水牛养殖场钩端螺旋体感染及其传播的血清学调查。
水牛是菲律宾不可缺少的牲畜。钩端螺旋体病是一种严重的人畜共患病,对人类来说是致命的,并引起牲畜的生殖问题。在一些商业养殖水牛的国家报告了钩端螺旋体病,突出了该养殖系统中钩端螺旋体病的流行,但关于菲律宾水牛养殖场中钩端螺旋体病的信息有限。在这项研究中,我们从菲律宾一个集约型水牛养殖场的不同群体和地点收集了大鼠(n = 21)和水牛(n = 170)的血液样本。用显微凝集试验(MAT)分析血清。在30%的受测大鼠血清中发现了与Canicola、ictero出血和Pomona血清组反应的抗钩端螺旋体抗体,48%的水牛血清至少对一种钩端螺旋体菌株检测呈阳性,其中Mini、Hebdomadis、Tarassovi和Pyrogenes血清组主要凝集。1岁以下的幼龄水牛血清阳性数量低于年龄较大的血清阳性数量。此外,年轻水牛的血清对单一血清型具有低MAT滴度的反应,而老年动物的血清对多种不同MAT滴度的钩端螺旋体菌株具有反应。此外,在两种动物中均检测到抗黄疸出血热和Pomona血清群的抗体。最后,发现钩端螺旋体感染与年龄和动物分组有关,突出了在菲律宾集约型水牛养殖场环境中管理对钩端螺旋体病持续存在的影响。需要进一步的调查和适当的控制战略,以防止钩端螺旋体病对公众健康造成风险,并对水牛养殖业造成经济损失。
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来源期刊
CiteScore
1.00
自引率
0.00%
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0
审稿时长
>36 weeks
期刊介绍: The Japanese Journal of Veterinary Research (JJVR) quarterly publishes peer-reviewed articles on all aspects of veterinary science. JJVR was originally published as a “University Journal” of veterinary science at Hokkaido University from more than 60 years ago. Currently, JJVR, is Japan’s leading scientific veterinary journal, and provides valuable information for the development of veterinary science by welcoming contributions from researchers worldwide. JJVR offers online submission for Regular Papers, Short Communications, and Review Articles that are unpublished and not being considered for publication elsewhere. Research areas include: Anatomy, Physiology, Biochemistry, Pharmacology, Microbiology, Infectious diseases, Parasitology, Laboratory Animal Science and Medicine, Internal Medicine, Surgery, Pathology, Theriogenology, Molecular Medicine, Public Health, Radiation Biology, Toxicology, Wildlife Biology and Medicine, Veterinary Hygiene, The other fields related to veterinary science.
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