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is one of several apicomplexan parasites that can cause the economically important disease avian coccidiosis, which is transmitted the fecal-oral route. It is also a valuable model for exploring interventions capable of reducing the public health risks posed by the related foodborne parasite . Unsporulated (noninfectious) oocysts are shed in the feces and sporulate in the environment to become infectious. In this study, the effect of UV radiation (UVR) on sporulation efficiency was evaluated. Nonstandard wavelengths including 222 and 282 nm have been established as alternatives to standard 254 nm UVR for sterilization. To address the disinfection capability of these nonstandard wavelengths, sporulation was scored following treatment under three wavelengths: 222, 254, or 282 nm. Each wavelength significantly ( < 0.05) reduced the sporulation rate relative to untreated controls, supporting the utility of nonstandard UVR treatments for coccidian inactivation. Furthermore, infectivity assays showed that chickens administered treated at each wavelength shed significantly fewer oocysts ( < 0.05) than those that received untreated oocysts, demonstrating a near 3-log reduction and verifying that these alternative wavelengths successfully break the transmission cycle. Owing to its biological similarity with the emerging enteric parasite , it is proposed that disinfection with 222 or 282 nm UVR will likewise be efficacious against .IMPORTANCECoccidian parasites cause enteric disease in animals and people. For example, imposes major economic burdens on the poultry industry and provides a surrogate for investigating means to mitigate the foodborne risk that poses to human health. Previous work established that UV radiation at 254 nm can inactivate the oocysts of but radiation at this wavelength harms human skin and eyes. Since nonstandard UVR at wavelengths of 222 and 282 nm shows promise against pathogens like and the present work sought to determine whether such exposures could arrest development and reduce their infectivity. These nonstandard wavelengths proved capable of disrupting transmission. Epidemiological evidence suggests transmission through the food chain; the use of nonstandard UV wavelengths represents a promising method to inactivate coccidian oocysts, thereby protecting produce supply chains while, specifically in the case of 222 nm, incurring less risk to occupational health.

它是几种顶复门寄生虫之一，可引发具有经济重要性的禽球虫病，该病通过粪口途径传播。它也是探索能够降低相关食源性寄生虫所带来的公共卫生风险的干预措施的宝贵模型。未孢子化（无感染性）的卵囊随粪便排出，在环境中孢子化后变得具有感染性。在本研究中，评估了紫外线辐射（UVR）对其孢子化效率的影响。已确定包括222和282纳米在内的非标准波长可作为标准254纳米UVR用于消毒的替代方案。为了研究这些非标准波长的消毒能力，在222、254或282纳米三种波长下处理后对其孢子化情况进行评分。相对于未处理的对照组，每个波长均显著（P<0.05）降低了孢子化率，这支持了非标准UVR处理用于球虫灭活的效用。此外，感染性试验表明，接受各波长处理的鸡所排出的卵囊显著少于（P<0.05）接受未处理卵囊的鸡，显示出近3个对数级的降低，并证实这些替代波长成功打破了传播循环。由于它与新出现的肠道寄生虫在生物学上具有相似性，因此有人提出用222或282纳米UVR进行消毒对其同样有效。

重要性

球虫寄生虫会在动物和人类中引发肠道疾病。例如，它给家禽业带来重大经济负担，并为研究减轻其对人类健康造成的食源性风险的方法提供了一个替代模型。先前的研究表明，254纳米的紫外线辐射可使它的卵囊失活，但该波长的辐射会伤害人类皮肤和眼睛。由于222和282纳米波长的非标准UVR对诸如它和其他病原体显示出前景，因此本研究旨在确定这种照射是否能阻止它的发育并降低其感染性。这些非标准波长被证明能够破坏传播。流行病学证据表明它通过食物链传播；使用非标准紫外线波长是一种很有前景的使球虫卵囊失活的方法，从而保护农产品供应链，特别是在222纳米的情况下，对职业健康造成的风险更小。