H
Hideto Yamada
Researcher at Kobe University
Publications - 317
Citations - 6977
Hideto Yamada is an academic researcher from Kobe University. The author has contributed to research in topics: Pregnancy & Congenital cytomegalovirus infection. The author has an hindex of 41, co-authored 312 publications receiving 6252 citations. Previous affiliations of Hideto Yamada include University of Toyama & Hokkaido University.
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Journal ArticleDOI
Maternal serum and amniotic fluid bisphenol A concentrations in the early second trimester.
Hideto Yamada,Itsuko Furuta,Emi H. Kato,Soromon Kataoka,Yasuteru Usuki,Gen Kobashi,Fumihiro Sata,Reiko Kishi,Seiichiro Fujimoto +8 more
TL;DR: To assess human exposure to bisphenol A (BPA) over a 10-year period, BPA concentrations in maternal serum (MS) and amniotic fluid (AF) obtained at early second trimester were determined.
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Association between Preterm Birth and Vaginal Colonization by Mycoplasmas in Early Pregnancy
Soromon Kataoka,Takashi Yamada,Kazutoshi Chou,Ryutaro Nishida,Mamoru Morikawa,Mashiho Minami,Hideto Yamada,Noriaki Sakuragi,Hisanori Minakami +8 more
TL;DR: It is concluded that vaginal colonization with U. parvum, but not U. urealyticum, is associated with late abortion or early preterm birth.
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Multivariate analysis of histopathologic prognostic factors for invasive cervical cancer treated with radical hysterectomy and systematic retroperitoneal lymphadenectomy
Naoki Takeda,Noriaki Sakuragi,Mahito Takeda,Kazuhira Okamoto,Michiya Kuwabara,Hiroaki Negishi,Mamoru Oikawa,Ritsu Yamamoto,Hideto Yamada,Seiichiro Fujimoto +9 more
TL;DR: The aim of this study was to identify the independent histopathologic prognostic factors for patients with cervical carcinoma treated with radical hysterectomy including paraaortic lymphadenectomy.
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Construction of mouse A9 clones containing a single human chromosome tagged with neomycin-resistance gene via microcell fusion
TL;DR: Since micronuclei were more efficiently induced in these hybrids compared to parental human fibroblasts by colcemid treatment, the transfer of neo‐tagged human chromosomes in the hybrids was performed via microcell fusion.
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Normal human chromosome 11 suppresses tumorigenicity of human cervical tumor cell line SiHa.
TL;DR: Results indicate that the introduction of a single copy of normal human chromosomes 11, but not chromosome 12, suppresses the tumorigenicity of SiHa cells, indicating the presence on human chromosome 11 of a putative tumor‐suppressor gene (or genes) for human cervical tumors.