一种用于处理过的纺织织物上杀虫剂表面剂量的改进提取方法。

An improved extraction method for surface dosage of insecticides on treated textile fabrics.

作者信息

Dieval Florence, Bouyer Jérémy, Fafet Jean-François

机构信息

Laboratoire de Physique Et Mécanique Textile, ENSISA Werner, 11 rue Alfred Werner, 68093, Mulhouse, France.

CIRAD, UMR15 CIRAD-INRA Control of exotic and emerging animal diseases, Campus international de Baillarguet, 34398, Montpellier, France.

出版信息

Malar J. 2017 Jan 4;16(1):14. doi: 10.1186/s12936-016-1647-1.

DOI:10.1186/s12936-016-1647-1

PMID:28049476

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5209952/

Abstract

BACKGROUND

Tens of millions of people live in mosquito-infested regions and controlling mosquito-borne diseases is one of the major interventions aimed at alleviating poverty worldwide. The use of insecticide-treated textiles is one of the most widespread control measures. This includes bed nets, battle clothing or, more generally, textiles use for clothing. These textiles are generally treated with permethrin as active ingredient, which is dosed after extraction of the active molecule present throughout the fabric (measured in mg permethrin/g of fabric) and does not take the effective concentration on the textile surfaces into account. The objective of this study was to propose an improved dosage method that enables measurement of the bioavailable or effective part of active ingredients on the surface of textile treated with insecticides.

METHODS

The proposed method relies on mechanical extraction of active molecules on the surface of the textile in direct contact with either the skin or with the targeted arthropod.

RESULTS

The results showed that the amount of permethrin measured using the current method is about 200 times higher than the effective surface concentration of the insecticide. In addition, the type of weave or knit influences the effective concentrations of permethrin on the surface of the textile. With the current dosage method, the variation in the concentration of permethrin depending on the type of weave is maximum 8%, whereas with the proposed method, it varies by about 50%. These results were confirmed by bioassays, in which the type of weave significantly affected (p < 10) the 100% knockdown time of Anopheles gambiae.

CONCLUSIONS

The bioefficacy of insecticide treatments of fabrics is directly correlated with the effective concentration of insecticide on the textile surface, which can be quantified using the method proposed. This improved method could be used to redefine the limits of actual concentrations of active substance after assessment of the bioefficacy of the treatment and the risk to human health. Further, it enables assessments of the kinetics of insecticide migration in the case of long-lasting insecticide treatment.

摘要

背景

数以千万计的人生活在蚊虫肆虐的地区，控制蚊媒疾病是全球减贫的主要干预措施之一。使用经杀虫剂处理的纺织品是最广泛的控制措施之一。这包括蚊帐、战斗服，或者更一般地说，用于服装的纺织品。这些纺织品通常用氯菊酯作为活性成分进行处理，该活性成分是在提取整个织物中存在的活性分子后进行计量的（以毫克氯菊酯/克织物为单位），并未考虑纺织品表面的有效浓度。本研究的目的是提出一种改进的计量方法，该方法能够测量经杀虫剂处理的纺织品表面活性成分的生物可利用部分或有效部分。

方法

所提出的方法依赖于对与皮肤或目标节肢动物直接接触的纺织品表面活性分子的机械提取。

结果

结果表明，使用当前方法测得的氯菊酯量比杀虫剂的有效表面浓度高约200倍。此外，织物的编织或针织类型会影响氯菊酯在纺织品表面的有效浓度。采用当前的计量方法，氯菊酯浓度因编织类型的变化最大为8%，而采用所提出的方法，其变化约为50%。这些结果通过生物测定得到证实，其中编织类型显著影响（p < 0.01）冈比亚按蚊的100%击倒时间。

结论

织物杀虫剂处理的生物功效与纺织品表面杀虫剂的有效浓度直接相关，可使用所提出的方法进行量化。这种改进的方法可用于在评估处理的生物功效和对人类健康的风险后重新定义活性物质实际浓度的限值。此外，它能够评估长效杀虫剂处理情况下杀虫剂迁移的动力学。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/444c/5209952/c7496cbe7b6e/12936_2016_1647_Fig1_HTML.jpg

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一种用于处理过的纺织织物上杀虫剂表面剂量的改进提取方法。

An improved extraction method for surface dosage of insecticides on treated textile fabrics.

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出版信息

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RESULTS

CONCLUSIONS

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方法

结果

结论

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