3D mosquito screens to create window double screen traps for mosquito control

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Khattab , A , Jylha , K , Hakala , T , Aalto , M , Malima , R , Kisinza , W , Honkala , M , Nousiainen , P & Meri , S 2017 , ' 3D mosquito screens to create window double screen traps for mosquito control ' , Parasites & vectors , vol. 10 , 400 . https://doi.org/10.1186/s13071-017-2322-2

Julkaisun nimi: 3D mosquito screens to create window double screen traps for mosquito control
Tekijä: Khattab, Ayman; Jylha, Kaisa; Hakala, Tomi; Aalto, Mikko; Malima, Robert; Kisinza, William; Honkala, Markku; Nousiainen, Pertti; Meri, Seppo
Tekijän organisaatio: Research Programs Unit
Immunobiology Research Program
Seppo Meri / Principal Investigator
Department of Bacteriology and Immunology
University of Helsinki
Päiväys: 2017-08-29
Kieli: eng
Sivumäärä: 12
Kuuluu julkaisusarjaan: Parasites & vectors
ISSN: 1756-3305
DOI-tunniste: https://doi.org/10.1186/s13071-017-2322-2
URI: http://hdl.handle.net/10138/224490
Tiivistelmä: Background: Mosquitoes are vectors for many diseases such as malaria. Insecticide-treated bed nets and indoor residual spraying of insecticides are the principal malaria vector control tools used to prevent malaria in the tropics. Other interventions aim at reducing man-vector contact. For example, house screening provides additive or synergistic effects to other implemented measures. We used commercial screen materials made of polyester, polyethylene or polypropylene to design novel mosquito screens that provide remarkable additional benefits to those commonly used in house screening. The novel design is based on a double screen setup made of a screen with 3D geometric structures parallel to a commercial mosquito screen creating a trap between the two screens. Owing to the design of the 3D screen, mosquitoes can penetrate the 3D screen from one side but cannot return through the other side, making it a unidirectional mosquito screen. Therefore, the mosquitoes are trapped inside the double screen system. The permissiveness of both sides of the 3D screens for mosquitoes to pass through was tested in a wind tunnel using the insectary strain of Anopheles stephensi. Results: Among twenty- five tested 3D screen designs, three designs from the cone, prism, or cylinder design groups were the most efficient in acting as unidirectional mosquito screens. The three cone-,prism-, and cylinder-based screens allowed, on average, 92, 75 and 64% of Anopheles stephensi mosquitoes released into the wind tunnel to penetrate the permissive side and 0, 0 and 6% of mosquitoes to escape through the non-permissive side, respectively. Conclusions: A cone- based 3D screen fulfilled the study objective. It allowed capturing 92% of mosquitoes within the double screen setup inside the wind tunnel and blocked 100% from escaping. Thus, the cone- based screen effectively acted as a unidirectional mosquito screen. This 3D screen-based trap design could therefore be used in house screening as a means of avoiding infective bites and reducing mosquito population size.
Avainsanat: Mosquito
3111 Biomedicine
Vertaisarvioitu: Kyllä
Tekijänoikeustiedot: cc_by
Pääsyrajoitteet: openAccess
Rinnakkaistallennettu versio: publishedVersion


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