C. Ndawula Jr , P. Emudong , N. Muwereza , C. Currà
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Of those, the most outstanding is the vaccine-safety. This is implied because after ITM vaccination, cattle revert to <em>T. parva</em> pathogen reservoirs, therefore, during blood meal-acquisition, the ticks co-ingest <em>T. parva</em> pathogens. Ultimately, the pathogens are further transmitted transstadial; from larvae to nymph and nymph-adults and later re-transmitted to cattle during blood-meal acquisition. Consequently, the vaccine-constituting <em>T. parva</em> strains are introduced and (re) spread in non-endemic/ endemic areas. Precisely, rather than eradicating the disease, the ITM vaccination-approach promotes ECF endemicity. With advent of novel vaccination approaches toward vector and vector-borne disease control, ECF-control based on ITM of vaccination is considered outdated. 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引用次数: 0
摘要
是否有可能不使用基于感染和治疗方法 (ITM) 的疫苗,而是通过阻断副疟原虫在蜱和牛中的传播来控制东海岸热 (ECF)?本综述将探讨这一问题。自 Arnold Theiler(1912 年)首次将自然 ITM 作为预防东海岸热-牛病的疫苗接种方法以来,已有 100 多年的历史。这种方法需要用活的泰勒氏孢子虫感染牛,并同时使用长效四环素进行治疗。在 ITM 原理的基础上,20 世纪 70 年代开发出了 "Muguga"-鸡尾 ECF 疫苗,目前仍是唯一可在市场上买到的疫苗。虽然这种疫苗能对牛起到保护作用,但疫苗接种方法仍存在一些缺陷。其中最突出的是疫苗安全性。这是因为在接种 ITM 疫苗后,牛会变回 T. parva 病原体储库,因此,在血餐采集过程中,蜱会与 T. parva 病原体共存。最终,病原体进一步经体表传播;从幼虫到若虫和若虫-成虫,然后在获取血餐时再次传播给牛。因此,在非地方病/地方病流行地区,疫苗构成的 T. parva 菌株被引入并(再次)传播。准确地说,ITM 疫苗接种方法非但没有根除疾病,反而助长了 ECF 的流行。随着控制病媒和病媒传播疾病的新型疫苗接种方法的出现,基于ITM疫苗接种的ECF控制被认为已经过时。这篇综述强调了采用整体综合疫苗接种方法的必要性,这种方法需要同时阻止蜱和牛体内的毛癣菌病原体发展和传播,以及/或阻止蜱群的发展和传播。
Insights into Theileria transmission-blocking vaccines for East Coast fever control: A disease with an “outdated vaccination approach”
Instead of using the Infection and Treatment Method (ITM)-based vaccine, is it possible to control East Coast Fever (ECF) through blocking Theileria parva transmission in ticks and cattle? This review pursues this question. It's over 100 years since Arnold Theiler (1912) first illustrated the natural ITM as a vaccination approach against ECF-cattle disease. The approach entails infecting cattle with live Theileria sporozoites and co-treatment with long-acting tetracycline. Building on the ITM principle, the “Muguga”-cocktail ECF vaccine was developed in the 1970s and it remains the only commercially available-one. Although the vaccine induces cattle-protection, the vaccination approach still raises several drawbacks. Of those, the most outstanding is the vaccine-safety. This is implied because after ITM vaccination, cattle revert to T. parva pathogen reservoirs, therefore, during blood meal-acquisition, the ticks co-ingest T. parva pathogens. Ultimately, the pathogens are further transmitted transstadial; from larvae to nymph and nymph-adults and later re-transmitted to cattle during blood-meal acquisition. Consequently, the vaccine-constituting T. parva strains are introduced and (re) spread in non-endemic/ endemic areas. Precisely, rather than eradicating the disease, the ITM vaccination-approach promotes ECF endemicity. With advent of novel vaccination approaches toward vector and vector-borne disease control, ECF-control based on ITM of vaccination is considered outdated. The review highlights the need for embracing a holistic integrative vaccination approach entailing blocking Theileria pathogen-development and transmission both in the ticks and cattle, and/or the tick-population.
期刊介绍:
Ticks and Tick-borne Diseases is an international, peer-reviewed scientific journal. It publishes original research papers, short communications, state-of-the-art mini-reviews, letters to the editor, clinical-case studies, announcements of pertinent international meetings, and editorials.
The journal covers a broad spectrum and brings together various disciplines, for example, zoology, microbiology, molecular biology, genetics, mathematical modelling, veterinary and human medicine. Multidisciplinary approaches and the use of conventional and novel methods/methodologies (in the field and in the laboratory) are crucial for deeper understanding of the natural processes and human behaviour/activities that result in human or animal diseases and in economic effects of ticks and tick-borne pathogens. Such understanding is essential for management of tick populations and tick-borne diseases in an effective and environmentally acceptable manner.
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