评估九种白蛉用于吸血的各种膜以及微小赛蛉的人工取食挑战。

Evaluation of various membranes for blood-feeding in nine sand fly species and artificial feeding challenges in Sergentomyia minuta.

作者信息

Hošková Anna, Vojtková Barbora, Stejskalová Markéta, Polanská Nikola, Jančářová Magdalena, da Costa Lidiane Medeiros, Sant Anna Mauricio Roberto Viana, Volf Petr, Sádlová Jovana

机构信息

Charles University, Prague, Czech Republic.

Universidade Federal de Minas Gerais, Belo Horizonte, Brazil.

出版信息

Parasit Vectors. 2025 Mar 27;18(1):119. doi: 10.1186/s13071-025-06729-8.

DOI:10.1186/s13071-025-06729-8

PMID:40148995

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11951564/

Abstract

BACKGROUND

We evaluated various membranes for blood-feeding in nine sand fly species from different genera and subgenera. Most of these species are vectors of human-pathogenic Leishmania, whereas Sergentomyia minuta is a herpetophilic sand fly species and a proven vector of Leishmania (Sauroleishmania) tarentolae.

METHODS

Female sand flies were offered blood through a range of membranes (chicken, reptilian, and frog skin; synthetic collagen; pig intestine; and duck foot webbing). Two feeding systems (glass feeder, Hemotek) and different blood sources (human, ovine, avian, and reptilian) were used. Feeding trials were conducted under varying thermal and light conditions to determine the optimal parameters.

RESULTS

Among the 4950 female S. minuta tested, only a negligible fraction took a blood meal: 2% of the females fed on avian blood, and 0.2% of the females fed on human blood. In eight other species, the chicken membrane was generally more effective than synthetic membranes or pig intestines. For example, Phlebotomus duboscqi refused synthetic membranes, while Lutzomyia longipalpis and P. perniciosus avoided both synthetic membranes and pig intestines. The most effective membrane was duck foot webbing, with four species feeding more readily through it than through the chicken membrane. Additionally, applying coagulated blood plasma to the outer surface of chicken or synthetic membranes significantly increased feeding rates.

CONCLUSIONS

Female S. minuta did not reliably feed on blood through the tested membranes, preventing laboratory infection experiments from confirming their vector competence for human-pathogenic Leishmania. However, for future experimental infections of other sand fly species, duck foot webbing has emerged as an effective membrane, and the application of blood plasma to the exterior of membranes may increase the feeding rates.

摘要

背景

我们评估了多种膜用于来自不同属和亚属的九种白蛉吸食血液的情况。这些物种中的大多数是人类致病利什曼原虫的传播媒介，而微小赛蛉是一种嗜爬行动物的白蛉物种，也是利什曼原虫（沙罗利什曼原虫）塔兰托拉虫的已证实传播媒介。

方法

通过一系列膜（鸡皮、爬行动物皮、蛙皮；合成胶原蛋白；猪小肠；鸭蹼）向雌性白蛉提供血液。使用了两种喂食系统（玻璃喂食器、Hemotek）和不同的血液来源（人血、羊血、禽血和爬行动物血）。在不同的温度和光照条件下进行喂食试验以确定最佳参数。

结果

在测试的4950只微小赛蛉雌性中，只有极小部分吸食了血液：2%的雌性吸食禽血，0.2%的雌性吸食人血。在其他八个物种中，鸡膜通常比合成膜或猪小肠更有效。例如，杜氏白蛉拒绝合成膜，而长须罗蛉和有害白蛉既避开合成膜也避开猪小肠。最有效的膜是鸭蹼，有四个物种通过它比通过鸡膜更容易吸食血液。此外，将凝固的血浆涂在鸡膜或合成膜的外表面可显著提高吸食率。

结论

微小赛蛉雌性不能通过测试的膜可靠地吸食血液，这使得实验室感染实验无法确认它们对人类致病利什曼原虫的传播能力。然而，对于未来其他白蛉物种的实验性感染，鸭蹼已成为一种有效的膜，并且在膜的外部涂抹血浆可能会提高吸食率。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e670/11951564/62f6680dba43/13071_2025_6729_Fig1_HTML.jpg

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评估九种白蛉用于吸血的各种膜以及微小赛蛉的人工取食挑战。

Evaluation of various membranes for blood-feeding in nine sand fly species and artificial feeding challenges in Sergentomyia minuta.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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