Centro de Investigaciones de Plagas e Insecticidas CITEFA-CONICET, Juan Bautista de La Salle 4397, B1603ALO Villa Martelli, Buenos Aires Province, Argentina.
Parasitol Res. 2010 May;106(6):1503-6. doi: 10.1007/s00436-010-1833-y. Epub 2010 Apr 1.
Human pediculosis is caused by Pediculus humanus humanus (Linnaeus 1758) and Pediculus humanus capitis (De Geer 1767). We studied the response of body lice to immersion in water and ethanol 70% and determined the optimal times for measuring knockdown and mortality. After immersion in water, all lice remained alive from 5 min to 22 h for both times of exposure. A low proportion of lice were affected after 2 min of immersion in ethanol in the 10-min exposure test, but recovered completely after 5 min. Different proportions of lice were affected between 2 and 7 h after immersion in ethanol, depending on the immersion time. However, a high proportion of lice recovered after 22 h. The results suggest that the optimal times for measuring early knockdown effects of insecticides are the 5-min to 7-h interval for water and 5-min to 1-h interval for ethanol. On the other hand, the best time for measuring mortality is 22 h after immersion. These results should improve the interpretations of the effects of pediculicides in immersion bioassays.
人体虱病是由人虱(Linnaeus 1758)和人头虱(De Geer 1767)引起的。我们研究了体虱对浸入水中和 70%乙醇的反应,并确定了测量击倒和死亡率的最佳时间。浸入水中后,两种暴露时间下,5 分钟至 22 小时所有虱均存活。10 分钟暴露试验中,浸入乙醇 2 分钟后,受影响的虱比例较低,但 5 分钟后完全恢复。浸入乙醇 2 至 7 小时后,受影响的虱比例因浸入时间而异,但 22 小时后大部分虱恢复。结果表明,测量杀虫剂早期击倒效果的最佳时间为水 5 分钟至 7 小时,乙醇 5 分钟至 1 小时。另一方面,浸入后 22 小时是测量死亡率的最佳时间。这些结果应该会改善对浸洗生物测定中杀虱剂效果的解释。