Nunn Francesca, Bartley Kathryn, Palarea-Albaladejo Javier, Innocent Giles T, Turnbull Frank, Wright Harry W, Nisbet Alasdair J
Moredun Research Institute, Edinburgh, UK.
Biomathematics & Statistics Scotland, Edinburgh, UK.
Vet Parasitol. 2019 Mar;267:42-46. doi: 10.1016/j.vetpar.2019.01.011. Epub 2019 Feb 12.
Optimisation and use of a device for the on-hen in vivo feeding of all hematophagous stages of Dermanyssus gallinae is described. The sealed mesh device contains the mites and is applied to the skin of the hen's thigh where mites can feed on the bird through a mesh which has apertures large enough to allow the mites' mouth-parts to access to the bird but small enough to contain the mites. By optimising the depth and width of the mesh aperture size we have produced a device which will lead to both reduction and refinement in the use of animals in research, allowing the pre-screening of new vaccines and systemic acaricides/insecticides which have been developed for the control of these blood-feeding parasites before progressing to large field trials. For optimal use, the device should be constructed from 105 μm aperture width, 63 μm depth, polyester mesh and the mites (irrespective of life stage) should be conditioned with no access to food for 3 weeks at 4 °C for optimal feeding and post-feeding survival.
本文描述了一种用于鸡皮刺螨所有吸血阶段体内活体喂养的装置的优化与使用。该密封网状装置容纳螨虫,并应用于鸡大腿皮肤处,螨虫可通过网孔在其上吸食鸡血,网孔大小设计为既能让螨虫口器接触到鸡,又能将螨虫限制在装置内。通过优化网孔的深度和宽度尺寸,我们制造出一种装置,可减少和优化研究中动物的使用,使新型疫苗以及为控制这些吸血寄生虫而研发的全身性杀螨剂/杀虫剂在进入大规模田间试验之前能够进行预筛选。为实现最佳使用效果,该装置应由孔径宽度为105μm、深度为63μm的聚酯网制成,螨虫(无论处于何种生命阶段)应在4°C条件下禁食3周以达到最佳喂养和喂养后存活状态。
