Li, Hsing-HanHsing-HanLiSu, Matthew PMatthew PSuSHIH-CHENG WUTsou, Hsiao-HuiHsiao-HuiTsouChang, Meng-ChunMeng-ChunChangCheng, Yu-ChiehYu-ChiehChengTsai, Kuen-NanKuen-NanTsaiWang, Hsin-WeiHsin-WeiWangChen, Guan-HuaGuan-HuaChenTang, Cheng-KangCheng-KangTangChung, Pei-JungPei-JungChungTsai, Wan-TingWan-TingTsaiHuang, Li-RungLi-RungHuangYueh, Yueh AndrewYueh AndrewYuehChen, Hsin-WeiHsin-WeiChenPan, Chao-YingChao-YingPanAkbari, Omar SOmar SAkbariChang, Hsiao-HanHsiao-HanChangYu, Guann-YiGuann-YiYuMarshall, John MJohn MMarshallChen, Chun-HongChun-HongChen2023-08-182023-08-182023-0823523964https://scholars.lib.ntu.edu.tw/handle/123456789/634600Dengue virus outbreaks are increasing in number and severity worldwide. Viral transmission is assumed to require a minimum time period of viral replication within the mosquito midgut. It is unknown if alternative transmission periods not requiring replication are possible.enAedes aegypti mosquito; Animal models of dengue virus; Dengue transmission; Mathematical modelling of disease outbreak[SDGs]SDG3journal article10.1016/j.ebiom.2023.104723374874182-s2.0-85165596459https://api.elsevier.com/content/abstract/scopus_id/85165596459