The effect of fluralaner treatment of small mammals on the endemic cycle of Borrelia burgdorferi in a natural environment.

Jérôme Pelletier, Catherine Bouchard, Cecile Aenishaenslin, Antonia Dibernardo, Gabrielle Dimitri Masson, Christopher Fernandez-Prada, Simon Gagnon, Ana Victoria Ibarra Meneses, Robbin Lindsay, Nicholas Ogden, Jean-Philippe Rocheleau, Patrick Leighton
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Abstract

Among approaches aimed at reducing Lyme disease risk in the environment, those targeting reservoirs of Borrelia burgdorferi Johnson are promising because they have the potential to reduce both the density of questing Ixodes scapularis Say (Acari: Ixodidea) ticks and the prevalence of B. burgdorferi in the tick population. In this 4-yr field study, we treated a population of wild small mammals with 2 densities of fluralaner baits and investigated the effect of the treatment on 3 parameters of the endemic cycle of B. burgdorferi: (i) the prevalence of infected Peromyscus mice (PIM), (ii) the density of questing nymphs (DON), and (iii) the prevalence of infected questing nymphs (NIP). We demonstrated that fluralaner baiting is effective at reducing tick infestation of Peromyscus mice, the main reservoir of B. burgdorferi in central and northeastern North America, in the laboratory and the field. Results from this study showed a significant decrease in B. burgdorferi infection in mice (odds ratio: 0.37 [CI95: 0.17 to 0.83]). A reduction in the DON between 45.4% [CI95: 22.4 to 61.6] and 62.7% [CI95: 45.9 to 74.2] occurred in treated area when compared with control areas. No significant effect was reported on the NIP. These results confirm the hypothesis that fluralaner baits have an effect on B. burgdorferi endemic cycle, with the potential to reduce the density of B. burgdorferi-infected ticks in the environment. Further studies performed in various habitats and public health intervention contexts are needed to refine and operationalize this approach for reducing Lyme disease risk in the environment.

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氟拉那处理小型哺乳动物对自然环境中布氏杆菌流行周期的影响。
在旨在降低环境中莱姆病风险的方法中,那些针对约翰逊包柔氏包虫病储库的方法很有前景,因为它们有可能同时降低蜱虫(Acari: Ixodidea)的密度和蜱虫群中包柔氏包虫病的流行率。在这项为期 4 年的野外研究中,我们对野生小型哺乳动物种群施用了两种密度的氟乐灵毒饵,并研究了施用氟乐灵毒饵对布氏蜱流行周期的 3 个参数的影响:(i) 受感染的啮齿类动物小鼠(PIM)的流行率;(ii) 求偶若虫(DON)的密度;(iii) 受感染的求偶若虫(NIP)的流行率。我们在实验室和野外证明,氟乐灵诱饵能有效减少蜱虫在北美中部和东北部的主要贮藏地 Peromyscus 小鼠中的侵扰。研究结果表明,小鼠的布氏菌感染率明显下降(几率比:0.37 [CI95:0.17 至 0.83])。与对照区相比,治疗区的 DON 降低了 45.4% [CI95: 22.4 至 61.6] 和 62.7% [CI95: 45.9 至 74.2]。对 NIP 没有明显影响。这些结果证实了氟乐灵毒饵对布氏蜱流行周期有影响的假设,有可能降低环境中感染布氏蜱的蜱虫密度。需要在不同的栖息地和公共卫生干预环境中开展进一步的研究,以完善和操作这种降低环境中莱姆病风险的方法。
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