ようこそ。食品薬品安全センターのWebサイトへ。

発表論文の概要を掲載しています。

論 文

- 2018 -

Method for combined observation of serial sections of stented arteries embedded in resin by light microscopy and transmission electron microscopy

Isobe A1, Iwatani K1, Souba J1, Terao H1, Hagiwara H1, Kumagai F, Saito Y, Nagano K2, Tasaki M1
Toxicologic Pathology, (2019): 47 (3), 401-407
1Evaluation Center, R & D Administration and Promotion Department, Terumo Corporation
2Nagano Toxicologic-Pathology Consulting

Effects of pregnancy experience on ovarian senescence and longevity in Hatano rats bred for high- and low-avoidance learning

Ohta R, Ohmukai H
Experimental Gerontology, (2019): 117, 91-98

Enhancement of pesticide peak response in GC-MS in the presence of multiple co-existing reference pesticides

Yoshimitsu M1, Akutsu K1, Kitagawa Y1, Takatori S1、Fukui N1 Osakada M1, Yamaguchi S2, Namikawa M3, Ban S3, Okubo Y4, Nakashima R4, Maruyama R4, Kakutani N1, Miyamoto I1, Yamashita K5, Nishiyama T5, Shinto M6, Yamamoto N6, Takai Y7, Hinoshita K8, Kajimura K1, Obana H9, Watanabe T
Food Hygiene and Safety Science, (2018): 59(3), 146-150
1Osaka Institute of Public Health
2Osaka Prefecture Fujiidera Public Health Center
3Kyoto City Institute of Health and Environmental Sciences
4Kobe Institute of Health
5Nara Prefectural Institute of Health
6Sakai City Institute of Public Health
7Wakayama Prefectural Research Center of Environment and Public Health
8Wakayama Prefecture Shingu Public Health Center Kushimoto Branch Office
9San-Ei Gen F.F.I., Inc.

Comparison of assigned values from participants' results, spiked concentrations of test samples, and isotope dilution mass spectrometric results in proficiency testing for pesticide residue analysis

Yarita T1, Otake T1, Aoyagi Y1, Takasaka N, Suzuki T, Watanabe T
Journal of AOAC International, (2018): 101(4), 1199-1204
1National Metrology Institute of Japan

Development of enzyme-linked immunosorbent assay for analysis of total aflatoxins based on monoclonal antibody reactive with aflatoxins B1, B2, G1 and G2

Yamazaki T1, 2, Miyake S2, 3, 4, Sato N, Hirakawa Y1, 2, Iwasa S5, Narita H1, Watanabe T
Food Hygiene and Safety Science, (2018): 59(5), 200-205
1Kyoto Women’s University
2Advanced Science, Technology & Management Research Institute of Kyoto
3HORIBA, Ltd.
4Azabu University
5Toyohashi University of Tchnology

Intravenous injection of artificial red cells and subsequent dye laser irradiation causes deep vessel impairment in an animal model of port-wine stain

Rikihisa N1, Tominaga M1, Watanabe S2, Mitsukawa N3, Saito Y, Sakai 4
Lasers in Medical Science, (2018): 33(6), 1287-1293
1Chiba Rosai Hospital
2Saitama Children’s Medical Center
3Department of Plastic, Reconstructive, and Aesthetic Surgery, Chiba University Graduate School of Medicine
4Department of Chemistry, Nara Medical University

Hatano rats are a suitable metabolic syndrome model for studying feeding behavior, blood pressure levels, and percent body fat

Isobe A1, Shimada T2, 3, Aburada M3, Yanagisawa R4, Sakawa T5, Nakamura T5, Himi TH3, Ohta R, Kawaguchi M1, 3
Journal of Veterinary Medical Science, (2019): 81 (1), 147-154
1Laboratory of Animal Behavior and Environmental Science, Graduate School of Agriculture, Meiji University
2Department of Hospital Pharmacy, University Hospital, Kanazawa University
3Musashino University
4Center for Health and Environmental Risk Research, National Institute for Environmental Studies
5Faculty of Pharmaceutical Sciences, Teikyo Heisei University

Male Hatano low-avoidance rats show more active sexual behavior with lower plasma testosterone than high-avoidance rats

Nakayama A1, Okawa H2, Zheng M3, 4, Pu S3, 4, Watanabe G3,4,5, Ohta R, Kawaguchi M1, 2
Journal of Veterinary Medical Science, (2018): 80(7), 1179-1182
1Laboratory of Animal Behavior and Environmental Science, Graduate School of Agriculture, Meiji University
2Laboratory of Animal Behavior and Environmental Science, School of Agriculture, Meiji University
3Department of Basic Veterinary Science, United Graduate School of Veterinary Sciences, Gifu University
4Laboratory of Veterinary Physiology, Cooperative Department of Veterinary Medicine, Faculty of Agriculture, Tokyo University of Agriculture and Technology
5Basic Animal Medicine, Cooperative Division of Veterinary Sciences, Tokyo University of Agriculture and Technology

Transferability and within- and between-laboratory reproducibilities of EpiSensA for predicting skin sensitization potential in vitro: A ring study in three laboratories

Mizumachi H1, Sakuma M2, Ikezumi M, Saito K1、Takeyoshi M2, Imai N2, Okutomi H, Umetsu A, Motohashi H, Watanabe M, Miyazawa M1
Journal of Applied Toxicology (2018): 38(9), 1233-1243
1Kao Corporation, R&D, Safety Science Research
2KOSE Corporation, Research Laboratories

Cause of and countermeasures for oxidation of the cysteine-derived reagent used in the amino acid derivative reactivity assay

Fujita M1, Yamamoto Y1, Watanabe S2, Sugawara T2, Wakabayashi K3, Tahara Y3, Horie N4, Fujimoto K4, Kusakari K5, Kurokawa Y5, Kawakami T6, Kojima K, Kojima H7, Ono A8, Katsuoka Y1, Tanabe H9, Yokoyama H9, Kasahara T1
Journal of Applied Toxicology, (2019): 39(2), 191-208
1Fujifilm Corporation, Safety Evaluation Center
2Lion Corporation, Human & Environmental Safety Evaluation Center
3Mitsui Chemicals, Inc., Chemical Safety Department
4Sumitomo Chemical Co., Ltd., Environmental Health Science Laboratory
5Nissan Chemical Corporation, Biological Research Laboratories
6National Institute of Health Sciences, Division of Environmental Chemistry
7National Institute of Health Sciences, Biological safety Research Center, Division of Risk Assessment
8Okayama University, Graduate school of Medicine, Dentistry and Pharmaceutical sciences, Division of Pharmaceutical Sciences
9Fujifilm Corporation, Research & Development Management Headquarters, Analysis Technology Center, Kanagawa, Japan

Predictive performance and inter-laboratory reproducibility in assessing eye irritation potential of water- and oil-soluble mixtures using the Short Time Exposure test method

Abo T1, 2, Hilberer A3, Behle-Wagner C4, Watanabe M, Cameron D5, Kirst A6, Nukada Y7, Yuki T7, Araki D1, Sakaguchi H7, Itagaki H2
Toxicology in Vitro, (2018): 48, 78-85
1Kao Corporation, Safety Science Research Laboratories, Odawara office
2Faculty of Engineering, Department of Materials Science and Engineering, Yokohama National University
3Institute for In Vitro Sciences, Inc.
4Envigo CRS GmbH
5Kao USA Inc.
6Kao Germany GmbH
7Kao Corporation, Safety Science Research Laboratories, Tochigi plant