Steinbach Tanja, Bauer Christian, Sasse Hermann, Baumgärtner Wolfgang, Rey-Moreno Cecilia, Hermosilla Carlos, Damriyasa I Made, Zahner Horst
Institute of Parasitology, Justus Liebig University Giessen, Rudolf-Buchheim-Strasse 2, D-35392 Giessen, Germany.
Vet Parasitol. 2006 Jun 30;139(1-3):115-31. doi: 10.1016/j.vetpar.2006.03.028. Epub 2006 May 3.
The study was undertaken to evaluate adverse effects of larvicidal treatment in horses naturally infected with cyathostomins. Out of 24 ponies kept on pasture, four animals were housed in September and anthelmintically cured to serve as worm-free controls (group C-0). The others were housed in December. Eight animals each were treated 8 weeks later with 5 x 7.5mg/kg fenbendazole (FBZ) or 1 x 0.4 mg/kg moxidectin (MOX). Four animals remained untreated (group C-i). Two, 4, 6 and 14 days after the end of treatment two animals of each of the treated groups were necropsied together with group C-0 and C-i animals. Infected animals before treatment showed weight loss, eosinophilia, increased plasma protein and globulin contents. Treatment was followed by weight gain and temporal plasma protein and globulin increase. Proportions of CD4+ and CD8+ T lymphocytes in the peripheral blood did not differ between the groups before treatment but dropped significantly temporally after FBZ treatment. Group C-0 was worm-free at necropsy. Group C-i animals contained variable numbers of luminal and tissue cyathostomins. Histological sections showed larval stages in the lamina propria und submucosa surrounded by macrophages. Either treatment was effective against luminal parasites and reduced the number of larvae in the bowel wall beginning 4-6 days after FBZ and 6-14 days after MOX treatment. Histologically, as a first reaction after FBZ application T lymphocytes accumulated around morphologically intact L4 in the submucosa. Subsequently T lymphocytes associated with eosinophils infiltrated the submucosa. Parasites became enclosed by granulomas with eosinophils adhering to and invading the larvae which started to disintegrate on day 4. Later on, particularly on day 14 inflammation extended into the mucosa and was frequently associated with ulcerations. Third stage larvae in general and L4 in the lamina propria, however, seemed not to be affected until day 14 and even then, parasites did usually not generate extensive inflammation. After MOX treatment severe morphologically detectable alterations of tissue larvae could not be observed earlier than day 14. Different from FBZ treatment, larvae disintegrated and were obviously resorbed without causing severe inflammation in the gut wall. In conclusion treatment with either drug was efficacious against tissue larvae of cyathostomins but there may be different clinical consequences: in contrast to MOX effects, killing of larvae due to FBZ was associated with severe tissue damage, which clinically may correspond to reactions caused by synchronous mass emergence of fourth stage larvae, i.e., may mimic larval cyathostominosis.
本研究旨在评估杀幼虫处理对自然感染杯状线虫的马匹的不良反应。在24匹放牧的小马中,4只于9月圈养并进行驱虫治疗,作为无虫对照(C-0组)。其他马匹于12月圈养。8周后,每组8只动物分别接受5×7.5mg/kg芬苯达唑(FBZ)或1×0.4mg/kg莫西菌素(MOX)治疗。4只动物未接受治疗(C-i组)。治疗结束后2天、4天、6天和14天,将各治疗组的2只动物与C-0组和C-i组的动物一起进行尸检。治疗前感染的动物出现体重减轻、嗜酸性粒细胞增多、血浆蛋白和球蛋白含量增加。治疗后体重增加,血浆蛋白和球蛋白暂时升高。治疗前各组外周血中CD4+和CD8+T淋巴细胞比例无差异,但FBZ治疗后暂时显著下降。尸检时C-0组无虫。C-i组动物体内有数量不等的管腔和组织杯状线虫。组织学切片显示固有层和黏膜下层有幼虫阶段,周围有巨噬细胞。两种治疗方法对管腔内寄生虫均有效,FBZ治疗后4-6天、MOX治疗后6-14天开始,肠壁内幼虫数量减少。组织学上,应用FBZ后的第一反应是T淋巴细胞在黏膜下层形态完整的L4周围聚集。随后,与嗜酸性粒细胞相关的T淋巴细胞浸润黏膜下层。寄生虫被肉芽肿包围,嗜酸性粒细胞附着并侵入幼虫,幼虫在第4天开始解体。随后,尤其是在第14天,炎症扩展至黏膜,常伴有溃疡。然而,一般的第三期幼虫和固有层中的L4直到第14天才似乎受到影响,即便如此,寄生虫通常也不会引发广泛炎症。MOX治疗后,直到第14天才能观察到组织幼虫有明显的形态学改变。与FBZ治疗不同,幼虫解体并明显被吸收,未引起肠壁严重炎症。总之,两种药物治疗对杯状线虫的组织幼虫均有效,但可能有不同的临床后果:与MOX的作用相反,FBZ导致的幼虫死亡与严重的组织损伤有关,临床上可能与第四期幼虫同步大量出现引起的反应相对应,即可能模拟幼虫杯状线虫病。
