Author Ishikawa, Hirofumi| Ohga, Yukio| Doi, Rikuo|
Published Date 2003-07-29
Publication Title Parasitology Research
Volume volume91
Issue issue6
Content Type Journal Article
Author Hisakane, Naoto| Kirinoki, Masashi| Chigusa, Yuichi| Sinuon, Muth| Socheat, Duong| Matsuda, Hajime| Ishikawa, Hirofumi|
Published Date 2008-09-03
Publication Title PARASITOLOGY INTERNATIONAL
Volume volume57
Issue issue3
Content Type Journal Article
Author Ishikawa, Hirofumi| Ohmae, Hiroshi| Pangilinan, Rogelio| Redulla, Apolinario| Matsuda, Hajime|
Published Date 2008-03-14
Publication Title PARASITOLOGY INTERNATIONAL
Volume volume55
Issue issue1
Content Type Journal Article
Author Fukutome, Ayako| Watashi, Koichi| Kawakami, Norito| Ishikawa, Hirofumi|
Published Date 2007
Publication Title Microbiology and Immunology
Volume volume51
Issue issue9
Content Type Journal Article
Author Fukuhara, Kazuma| Phompida, Samlane| Insisiengmay, Sithat| Kirinoki, Masashi| Chigusa, Yuichi| Nakamura, Satoshi| Matsuda, Hajime| Ishikawa, Hirofumi|
Published Date 2011-12
Publication Title Parasitology International
Volume volume60
Issue issue4
Content Type Journal Article
JaLCDOI 10.18926/AMO/32275
FullText URL fulltext.pdf
Author Harada, Masakazu| Ishikawa, Hirofumi| Matsuoka, Hiroyuki| Ishii, Akira| Suguri, Setsuo|
Abstract <p>We developed a sensitive polymerase chain reaction (PCR) method for the detection of Plasmodium falciparum DNA from mosquitoes collected in the field. Plasmodium falciparum was detected from 15.2% of 1-parous mosquitoes, Anopheles farauti, in the Solomon Islands through use of the PCR method. A novel mathematical model was developed to estimate the sporozoite rate based on the malaria-positive rate of 1-parous mosquitoes. Using this model, the sporozoite rate of Anopheles farauti in the Solomon Islands was calculated to be 0.09%. This method enables estimation of the sporozoite rate based on a relatively small number (100-200) of mosquitoes compared with the number needed for the ELISA method.</p>
Keywords sporozoite rate polymerase chain reaction (PCR) mathematical model Anopheles Plasmodium
Amo Type Article
Published Date 2000-08
Publication Title Acta Medica Okayama
Volume volume54
Issue issue4
Publisher Okayama University Medical School
Start Page 165
End Page 171
ISSN 0386-300X
NCID AA00508441
Content Type Journal Article
language 英語
File Version publisher
Refereed True
PubMed ID 10985176
Web of Sience KeyUT 000089132800004