Updated on 2026/03/12

写真a

 
YAMAMOTO Shinobu
 
Organization
Research Center for Safety Science Associate Professor
Title
Associate Professor
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Degree 3

  1. 博士(医学) ( 2018.6   佐賀大学 ) 

  2. 修士(医科学) ( 2013.3   佐賀大学 ) 

  3. 学士(保健衛生学) ( 2002.3   産業医科大学 ) 

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Research Interests 5

  1. 化学物質管理

  2. 化学物質のリスクアセスメント

  3. 産業衛生

  4. 作業環境管理

  5. 機器分析

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Research Areas 5

  1. Life Science / Hygiene and public health (laboratory)

  2. Life Science / Hygiene and public health (non-laboratory)

  3. Environmental Science/Agriculture Science / Environmental load/risk assessment

  4. Social Infrastructure (Civil Engineering, Architecture, Disaster Prevention) / Safety engineering

  5. Environmental Science/Agriculture Science / Environmental impact assessment

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Research History 3

  1. Nagoya University   Associate Professor

    2025.4

  2. University of Occupational and Environmental Health, Japan   Assistant Professor

    2015.4 - 2025.3

  3. 中央労働災害防止協会   技術員

    2002.4 - 2015.3

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Education 5

  1. Kurume University

    2019.4 - 2020.3

  2. Saga University   Faculty of Medicine

    2013.4 - 2015.3

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  3. 佐賀大学大学院   医学系研究科   医科学専攻

    2011.4 - 2013.3

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    Notes: 修士課程

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  4. Hiroshima University

    2009.10 - 2011.3

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  5. University of Occupational and Environmental Health, Japan   School of Health Sciences

    1998.4 - 2002.3

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Professional Memberships 7

  1. 公益社団法人 日本産業衛生学会

    2006.2

  2. 一般社団法人 日本衛生学会

    2015.4

  3. 公益社団法人 日本作業環境測定協会

    2016.4

  4. 公益社団法人 日本分析化学会

    2016.4

  5. 大学等環境安全協議会

    2016.12

  6. 日本労働衛生工学会

    2018.11

  7. 一般社団法人 日本産業保健法学会

    2023.5

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Committee Memberships 5

  1. 厚生労働省   労働政策審議会 安全衛生分科会 じん肺部会  

    2025.4   

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    Committee type:Government

  2. 労働安全衛生総合研究所   国が定める濃度基準値候補物質の測定手法検討に係るワーキンググループ  

    2023.4   

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    Committee type:Other

  3. 日本産業衛生学会 産業衛生技術部会   企画運営委員会  

    2025.4   

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    Committee type:Academic society

  4. みずほリサーチ&テクノロジーズ   化学物質の自律的管理のための適切な測定方法等検討委員会  

    2024.6 - 2026.3   

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    Committee type:Other

  5. 北九州市   高齢者介護施設における換気のあり方に関する実証等検討会  

    2021.4 - 2022.3   

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    Committee type:Municipal

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Awards 2

  1. 日本産業衛生学会 産業衛生技術部会 奨励賞(中明賞)

    2015.5   公益社団法人 日本産業衛生学会 産業衛生技術部会  

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    Award type:Award from Japanese society, conference, symposium, etc.  Country:Japan

  2. 大久保利晃産業保健研究奨励賞

    2025.3   公益信託 産業保健研究奨励基金  

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    Country:Japan

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Papers 36

  1. A method for simultaneously determining both the inhalable fraction and vapor concentration to assess worker exposure to tri- n -butyl phosphate Reviewed Open Access

    Akito Takeuchi, Ai Yamada, Tomiko Tashiro, Maika Inoue, Yuriko Miyama, Kenta Ishii, Shinobu Yamamoto, Yoko Endo, Ginji Endo

    Journal of Occupational Health   Vol. 67 ( 1 ) page: 1 - 5   2025.1

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    Language:English   Publishing type:Research paper (scientific journal)   Publisher:Oxford University Press (OUP)  

    Abstract

    Objectives: This study aimed to develop a personal exposure measurement method that concurrently determines both the inhalable fraction and vapor concentration of tri-n-butyl phosphate (TBP).

    Methods: A personal sampler, the IFV Pro, equipped with a glass-fiber filter (GFF) and a Chromosorb 106 adsorption tube was used. Postsampling, TBP was extracted or desorbed separately from the GFF and Chromosorb 106 using dichloromethane containing tri-n-amyl phosphate as an internal standard. The solutions obtained were analyzed via gas chromatography with a flame ionization detector. The evaluation parameters for validating the method included extraction efficiency, desorption efficiency, retention efficiency, storage stability, method quantitation limit, and reproducibility.

    Results: The extraction efficiency of TBP from the GFF ranged from 97% to 100%, whereas the desorption efficiency from Chromosorb 106 was between 98% and 102%. The retention efficiencies for TBP were 0% (not quantitative, <0.68 μg/sample) to 88% on the GFF, and 7% to 95% on Chromosorb 106, culminating in a total retention efficiency of 95%-98%. Relative SDs, indicative of reproducibility, ranged from 0.8% to 6.9%. Both TBP on the GFF and in the Chromosorb 106 tube maintained stability under refrigeration at 4°C for at least 7 days. The method quantitation limit was established at 6.00 μg/sample.

    Conclusions: A method was established to measure both the inhalable fraction and vapor concentration of TBP across an air concentration range of 0.05 to 10 mg/m3. This method is potentially valuable for assessing TBP exposure levels in workers.

    DOI: 10.1093/joccuh/uiaf063

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    Other Link: https://academic.oup.com/joh/article-pdf/67/1/uiaf063/65033942/uiaf063.pdf

  2. Developing a device to determine the permeation of chemicals through whole protective boots Reviewed Open Access

    Hiroyuki Miyauchi, Shinobu Yamanoto, Takamasa Aoki

    Journal of Occupational Health   Vol. 67 ( 1 ) page: 1 - 5   2025.1

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    Language:English   Publishing type:Research paper (scientific journal)   Publisher:Oxford University Press (OUP)  

    Abstract

    Objectives

    To develop a device to evaluate the permeation resistance of chemical-protective boots continuously in contact with liquid chemicals, and to compare the permeation time of the component material test pieces with the permeation time of the whole boot and thus evaluate its performance.

    Methods

    The permeation time was calculated for toluene, dichloromethane, and acetone in 4 types of boot, according to Japanese Industrial Standard (JIS) T 8117:2005.

    Results

    The permeation test for whole boots showed shorter permeation times than those of the component materials, according to JIS T 8117:2005. The permeation time of toluene was more than twice that of boots C and D. The permeation time of dichloromethane was more than twice that of boots A and C and more than 3 times shorter for boot A.

    Conclusions

    The differences between the whole-boot tests and the material tests were thought to be related to variations in thickness, type of material, difference in adhesion, and penetration from pinwheels. This method enables the determination of the permeation of chemicals and other performance characteristics of the whole boot, which cannot be determined using testing of material specimens alone. By using this device for testing, appropriate boots that are protective against specific chemicals and can prevent chemically induced damage to the feet can be more efficiently selected.

    DOI: 10.1093/joccuh/uiaf031

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    Other Link: https://academic.oup.com/joh/article-pdf/67/1/uiaf031/63468882/uiaf031.pdf

  3. 個人サンプリング法を用いた作業環境評価における測定対象者の選定―大学の化学系実験実習の場合― Reviewed

    Shinobu Yamamoto, Akito Takeuchi, Hiroyuki Miyauchi

    SANGYO EISEIGAKU ZASSHI   Vol. 66 ( 2 ) page: 85 - 89   2024.3

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    Authorship:Lead author, Corresponding author   Language:Japanese   Publishing type:Research paper (scientific journal)   Publisher:Japan Society for Occupational Health  

    DOI: 10.1539/sangyoeisei.2023-020-c

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  4. Comparison of exposure concentrations estimated using CREATE-SIMPLE with actual measurements Reviewed

    Shinobu Yamamoto, Hajime Hori, Hiroyuki Miyauchi

    SANGYO EISEIGAKU ZASSHI   Vol. 66 ( 1 ) page: 26 - 30   2024.1

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    Authorship:Lead author, Corresponding author   Language:Japanese   Publishing type:Research paper (scientific journal)   Publisher:Japan Society for Occupational Health  

    DOI: 10.1539/sangyoeisei.2023-019-c

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  5. Reducing exposure levels of immersion washing workers to ortho-phthalaldehyde by improving exhaust systems. Reviewed International journal Open Access

    Shinobu Yamamoto, Yuriko Hachiya, Motohide Goto, Akito Takeuchi, Toru Ishidao, Hajime Hori, Hiroyuki Miyauchi

    Journal of occupational health   Vol. 66 ( 1 )   2024.1

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    OBJECTIVES: The American Conference of Governmental Industrial Hygienists recommends a threshold limit value-ceiling (TLV-C) of 0.1 ppb for occupational exposure to ortho-phthalaldehyde (OPA) used in washing endoscope probes. To adhere to this extremely low exposure limit, this case study aimed to reduce OPA exposure concentrations of workers during immersion washing of an endoscope probe body. This was achieved by attaching a new duct and hood to the existing ceiling exhaust system. METHODS: The type of hood was determined by calculating and comparing the capture velocity obtained by assuming either an exterior or an enclosing hood. Additionally, the effect on improving the working environment was tested before and after the installation of the hood by measuring the OPA vapor concentration. RESULTS: The calculated capture velocities of the exterior and enclosing hoods were 0.05 m/s and 0.19 m/s, respectively. Considering the operability, the exterior hood was more appropriate; however, the calculated capture velocity indicated potential inadequacy in meeting the TLV-C requirement, leading to the adoption of the enclosing hood. The OPA vapor concentration in ceiling value measurements taken after the enclosing hood was fitted was reduced to 0.2 ppb, that is, 1/10 of the original concentration. CONCLUSIONS: Although the environmental concentration after the improvement still exceeded the TLV-C of 0.1 ppb, this study's findings indicate that even substances with extremely low occupational exposure limits can be managed with appropriate local exhaust ventilation.

    DOI: 10.1093/joccuh/uiae033

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  6. A Study of the Amount of Indium Adhering to Respiratory Protective Devices in Contact with the Face of Workers Reviewed

    Hiroyuki Miyauchi, Shinobu Yamamoto, Takamasa Aoki

      Vol. 62 ( 3 ) page: 209 - 215   2023

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  7. Assessing chemical;exposure evaluation method in laboratories education at university -a case study in an analytical chemistry experiments using chloroform- Reviewed

    Shinobu Yamamoto, Akito Takeuchi, Koudai Hatano, Toru Ishidao, Takamasa Aoki, Hiroyuki Miyauchi

      Vol. 13 ( 1 ) page: 47 - 55   2022.1

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  8. Development of a simple method for determination of gas permeability resistance of whole chemical protective gloves Reviewed

    Takamasa Aoki, Satoko Iwasawa, Shinobu Yamamoto, Akito Takeuchi, Shigeru Tanaka, Hiroyuki Miyauchi

    Environmental and Occupational Health Practice   Vol. 3 ( 1 ) page: n/a - n/a   2021.11

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    DOI: 10.1539/eohp.2020-0027-oa

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  9. Assessment of dermal exposure to <i>N,N</i> ‐dimethylacetamide in spray workers by combining personal exposure monitoring, biological monitoring, and glove permeation monitoring: A pilot study Reviewed Open Access

    Shinobu Yamamoto, Akito Takeuchi, Yuichiro Yoshida, Osamu Nishinoiri, Masayoshi Ichiba, Hiroyuki Miyauchi

    Journal of Occupational Health   Vol. 63 ( 1 )   2021.1

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    Authorship:Lead author, Corresponding author   Language:English   Publishing type:Research paper (scientific journal)   Publisher:Wiley  

    DOI: 10.1002/1348-9585.12265

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    Other Link: https://onlinelibrary.wiley.com/doi/full-xml/10.1002/1348-9585.12265

  10. Performance of Respirator Cartridges and Dust Filters for Protecting Passive Smoking Reviewed

    Hajime Hori, Toru Ishidao, Mitsuo Hinoue, Shinobu Yamamoto

      Vol. 14 ( 2 ) page: 97 - 107   2021

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  11. Suppression of Methane Production via the Promotion of Fe2+ Oxidation in Paddy Fields Reviewed

    Shinobu Yamamoto, Hiroyuki Morii

    Communications in Soil Science and Plant Analysis   Vol. 51 ( 8 ) page: 1114 - 1122   2020.4

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    Authorship:Lead author   Language:English   Publishing type:Research paper (scientific journal)   Publisher:Informa UK Limited  

    DOI: 10.1080/00103624.2020.1751192

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  12. Development of a measurement method to determine the ceiling exposure concentration of ortho ‐phthalaldehyde handling workers Reviewed Open Access

    Shinobu Yamamoto, Akito Takeuchi, Toru Ishidao, Hiroaki Ohkuma, Masayoshi Ichiba, Hajime Hori

    Journal of Occupational Health   Vol. 62 ( 1 )   2020.1

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    DOI: 10.1002/1348-9585.12105

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    Other Link: https://onlinelibrary.wiley.com/doi/full-xml/10.1002/1348-9585.12105

  13. Simple and reliable method to simultaneously determine urinary 1‐ and 2‐naphthol using in situ derivatization and gas chromatography‐mass spectrometry for biological monitoring of naphthalene exposure in occupational health practice Reviewed Open Access

    Akito Takeuchi, Sadao Nakamura, Akira Namera, Tomoaki Kondo, Hiroyuki Onuki, Shinobu Yamamoto, Shingo Okamura, Osamu Nishinoiri, Yoko Endo, Hiroyuki Miyauchi, Ginji Endo

    Journal of Occupational Health   Vol. 62 ( 1 )   2020.1

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    DOI: 10.1002/1348-9585.12144

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  14. Evaluation of the ceiling levels of ortho ‐phthalaldehyde exposure among health care workers engaged in endoscope disinfection: A new methodology using video‐exposure monitoring Reviewed Open Access

    Shinobu Yamamoto, Yuriko Hachiya, Eri Yuasa, Akito Takeuchi, Toru Ishidao, Mitsuhisa Mihara, Yasuhiro Terauchi, Masayoshi Ichiba, Hajime Hori

    Journal of Occupational Health   Vol. 62 ( 1 )   2020.1

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    DOI: 10.1002/1348-9585.12139

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  15. Development of a new method for working environment measurement of 3,3’‐dichloro‐4,4’‐diaminodiphenylmethane (MOCA) Reviewed

    石井健太, 西野入修, 竹内靖人, 海福雄一郎, 山本忍, 宮内博幸, 圓藤吟史

    作業環境   Vol. 40 ( 3 ) page: 46‐53   2019.5

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  16. Direct methyl esterification with 2,2-dimethoxypropane for the simultaneous determination of urinary metabolites of toluene, xylene, styrene, and ethylbenzene by gas chromatography-mass spectrometry. Reviewed Open Access

    Takeuchi A, Namera A, Sakui N, Yamamoto S, Yamamuro K, Nishinoiri O, Endo Y, Endo G

    Journal of occupational health   Vol. 61 ( 1 ) page: 82 - 90   2019.1

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  17. Concentration determination of urinary metabolites of N,N-dimethylacetamide by high-performance liquid chromatography-tandem mass spectrometry. Reviewed International journal Open Access

    Shinobu Yamamoto, Akiko Matsumoto, Yuko Yui, Shota Miyazaki, Shinji Kumagai, Hajime Hori, Masayoshi Ichiba

    Journal of occupational health   Vol. 60 ( 2 ) page: 140 - 147   2018.3

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    Authorship:Lead author, Corresponding author   Language:English   Publishing type:Research paper (scientific journal)   Publisher:Japan Society for Occupational Health  

    DOI: 10.1539/joh.17-0098-OA

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  18. Relationship between smoking and precarious employment situation in all 47 prefectures of Japan Reviewed

    Akito Takeuchi, Noriko Sakano, Shinobu Yamamoto, Nobuyuki Miyatake

    J Shikoku Public Health Society   Vol. 63 ( 1 ) page: 85 - 87   2018.1

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  19. 有害化学物質の測定・分析法【36】オルト‐トルイジン

    山本忍

    作業環境   Vol. 38 ( 2 ) page: 56‐59 - 59   2017.3

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  20. Applicability of Concentrations Obtained by Working Environment Measurement to Assessment of Personal Exposure Concentrations of Chemicals Reviewed Open Access

    Shinobu Yamamoto, Shuichir Natsumeda, Kunio Hara, Satoru Yoshida, Haruhiko Sakurai, Masayoshi Ichiba

    JOURNAL OF OCCUPATIONAL HEALTH   Vol. 56 ( 2 ) page: 85 - 92   2014.3

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    DOI: 10.1539/joh.12-0243-oa

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  21. Examination of the solid adsorption method-gas chromatograph analysis appropriate for routine work in organic solvent measurement Reviewed

      Vol. 33 ( 6 ) page: 80 - 91   2012.11

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  22. The examination of the selection of sampling tube type for organic solvent concentration measurement Reviewed

    川澄 八重子, 竹内 靖人, 山本 忍

    作業環境   Vol. 33 ( 5 ) page: 87 - 94   2012.9

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  23. Simultaneous extraction of acidic and basic drugs from urine using mixed-mode monolithic silica spin column bonded with octadecyl and cation-exchange group Reviewed

    Akira Namera, Shinobu Yamamoto, Takeshi Saito, Shota Miyazaki, Hiroshi Oikawa, Akihiro Nakamoto, Masataka Nagao

    JOURNAL OF SEPARATION SCIENCE   Vol. 34 ( 16-17 ) page: 2232 - 2239   2011.9

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    DOI: 10.1002/jssc.201100165

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  24. Occupational health management with regard to quick lime (slaked lime) manufacturing workplaces (1st report) Reviewed

    東久保 一朗, 吉田 哲, 山本 忍

    Journal of working environment   Vol. 32 ( 5 ) page: 65 - 70   2011.9

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  25. Determination method for 1,2-dibromoethane in workplace air Reviewed

    山本 忍, 竹内 靖人, 棗田 衆一郎

    Journal of working environment   Vol. 32 ( 4 ) page: 73 - 79   2011.7

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  26. Determination Method for Xylidines in Workplace Air Reviewed

    Akito Takeuchi, Shinobu Yamamoto, Warren Hendricks, Yasuki Nishimura, Tsutoshi Imanaka, Yuichiro Kaifuku, Norihiro Sakui, Shuichiro Natsumeda, Hirokazu Ota, Shu Yamada, Ichiro Kurotani, Kimiaki Sumino, Seiichiro Kanno

    JOURNAL OF OCCUPATIONAL HEALTH   Vol. 53 ( 3 ) page: 230 - 233   2011.5

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    DOI: 10.1539/joh.10-0003-br

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  27. Determination of 2,4-diaminotoluene in workplace air (the part 1) Reviewed

    竹内 靖人, 山本 忍, 高橋 淳

    Journal of working environment   Vol. 31 ( 6 ) page: 49 - 56   2010.11

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  28. Determination of 2,4-diaminotoluene in workplace air (the part 2) In the presence of tolylene-2,4-diisocyanete Reviewed

    山本 忍, 竹内 靖人, 高橋 淳

    Journal of working environment   Vol. 31 ( 6 ) page: 57 - 63   2010.11

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  29. Determination of dimethyl sulfoxide and dimethyl sulfone in urine by gas chromatography-mass spectrometry after preparation using 2,2-dimethoxypropane Reviewed

    Akito Takeuchi, Shinobu Yamamoto, Rie Narai, Manami Nishida, Mikio Yashiki, Norihiro Sakui, Akira Namera

    BIOMEDICAL CHROMATOGRAPHY   Vol. 24 ( 5 ) page: 465 - 471   2010.5

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    DOI: 10.1002/bmc.1313

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  30. Direct determination of N-methyl-2-pyrrolidone metabolites in urine by HPLC-electrospray ionization-MS/MS using deuterium-labeled compounds as internal standard Reviewed

    Yoshihiro Suzuki, Yoko Endo, Masanori Ogawa, Shinobu Yamamoto, Akito Takeuchi, Tomoo Nakagawa, Nobuhiko Onda

    JOURNAL OF CHROMATOGRAPHY B-ANALYTICAL TECHNOLOGIES IN THE BIOMEDICAL AND LIFE SCIENCES   Vol. 877 ( 29 ) page: 3743 - 3747   2009.11

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    DOI: 10.1016/j.jchromb.2009.08.036

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  31. Determination of 2,3‐Epoxy‐1‐propanol (Glycidol) in Workplace air Reviewed

    山本忍, 八杉友次郎, 竹内靖人, 高橋淳, 棗田衆一郎, 山岡和寿, 山田周, 黒谷一郎

    作業環境   Vol. 30 ( 5 ) page: 56 - 64   2009.9

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  32. Optimization of the Determination of Ortho-phthalaldehyde in Air by Derivatization with 2,4-dinitorophenylhyrazine (DNPH) Reviewed Open Access

    Shinobu Yamamoto, Akito Takeuchi, Yoshihiro Suzuki, Yoko Endo, Yoko Eitaki, Hiroshi Katagiri, Jun Takahashi, Tomojiro Yasugi, Tomoko Takigawa, Keiki Ogino

    JOURNAL OF OCCUPATIONAL HEALTH   Vol. 51 ( 4 ) page: 386 - 390   2009.7

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    DOI: 10.1539/joh.m9005

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  33. Determination of o‐Toluidine in workplace air Reviewed

    山本忍, 竹内靖人, 高橋淳, 八杉友次郎, 棗田衆一郎, 山岡和寿, 山田周, 黒谷一郎

    作業環境   Vol. 30 ( 2 ) page: 51 - 58   2009.3

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  34. The examination regarding the measurement of 3‐Methoxybutyl Acetate (the part 2)―concerning the absorption which uses the passive sampler― Reviewed

    八杉友次郎, 川澄八重子, 竹内靖人, 山本忍, 櫻井治彦

    作業環境   Vol. 28 ( 2 ) page: 48 - 51   2007.3

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  35. About occupational health measures of lead compound manipulation factory (The first report) Reviewed

    吉田哲, 山本忍, 大石茂美

    作業環境   Vol. 27 ( 3 ) page: 52 - 59   2006.5

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  36. The present situation and measures of sulfurous acid gas generated during drainage processing manufacturing processes of a gilt factory. Reviewed

    山本忍, 吉田哲, 大石茂美

    作業環境   Vol. 25 ( 3 ) page: 62 - 70   2004.5

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MISC 4

  1. 有機溶剤取扱い作業 第3回有機溶剤の「有害性」を知るための豆知識

    山本忍

    安全衛生のひろば HIROBA   Vol. 67 ( 3 ) page: 30 - 31   2026.3

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    Authorship:Lead author   Language:Japanese   Publishing type:Article, review, commentary, editorial, etc. (other)  

  2. 有機溶剤取扱い作業 第2回有機溶剤に関する法令と労働衛生の3管理(5管理)

    山本忍

    安全衛生のひろば HIROBA   Vol. 67 ( 2 ) page: 30 - 31   2026.2

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    Authorship:Lead author   Language:Japanese   Publishing type:Article, review, commentary, editorial, etc. (other)  

  3. 有機溶剤取扱い作業 第1回有機溶剤を安全に取り扱うということ

    山本忍

    安全衛生のひろば HIROBA   Vol. 67 ( 1 ) page: 32 - 33   2026.1

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    Authorship:Lead author   Language:Japanese   Publishing type:Article, review, commentary, editorial, etc. (other)  

  4. リアルタイムモニタを活用したビデオばく露モニタリング

    山本忍

    作業環境   Vol. 46 ( 5 ) page: 34 - 41   2025.9

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    Authorship:Lead author, Last author   Language:Japanese   Publishing type:Internal/External technical report, pre-print, etc.  

To the head of MISC.▲

Presentations 11

  1. オルト-フタルアルデヒド製剤取扱い作業者のばく露濃度と健康影響について

    山本忍,八谷百合子,後藤元秀,竹内靖人,宮内博幸,富田賢吾

    第64回日本労働衛生工学会  2025.10.29  日本労働衛生工学会

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    Event date: 2025.10

    Language:Japanese   Presentation type:Oral presentation (general)  

    Venue:北海道旭川市   Country:Japan  

  2. 防毒マスク内濃度評価のための予備的検討

    山本忍,中村亜衣,中川脩,竹内靖人,海福雄一郎,髙木幸二郎,宮内博幸,富田賢吾

    第43回大学等環境安全協議会総会・研究発表会  2025.7.17  大学等環境安全協議会

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    Event date: 2025.7

    Language:Japanese   Presentation type:Poster presentation  

    Venue:愛知県名古屋市   Country:Japan  

  3. 活性炭シートを活用したマスク内濃度測定のための予備的検討

    山本忍,中村亜衣,中川脩,竹内靖人,海福雄一郎,髙木幸二郎,宮内博幸

    第98回日本産業衛生学会  2025.5.16  日本産業衛生学会

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    Event date: 2025.5

    Language:Japanese   Presentation type:Poster presentation  

    Venue:宮城県仙台市   Country:Japan  

  4. 名古屋大学における事故報告件数の推移とその背景に関する検討

    三輪一爾,原田敬章,山本忍, 角谷純子, 富田賢吾

    第15回環境安全研究発表会  2026.3.9  研究実験施設・環境安全教育研究会

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    Event date: 2026.3

    Language:Japanese   Presentation type:Oral presentation (general)  

    Venue:東京都文京区   Country:Japan  

  5. 有害物取扱い作業場における吸入ばく露の見える化の事例と課題 Invited

    山本忍

    令和7年度 第3回 環境モニタリング技術WGイベント  2026.3.6  産業技術総合研究所

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    Event date: 2026.3

    Language:Japanese   Presentation type:Public lecture, seminar, tutorial, course, or other speech  

    Venue:web   Country:Japan  

  6. 産業衛生技術分野における倫理審査の事例 Invited

    山本忍

    第35回日本産業衛生学会全国協議会  2025.11.28  日本産業衛生学会

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    Event date: 2025.11

    Language:Japanese   Presentation type:Symposium, workshop panel (nominated)  

    Venue:徳島県徳島市   Country:Japan  

  7. エキシマランプを有する局所排気装置による混合有機溶剤蒸気の分解特性

    出雲裕子,石田尾徹,山本忍,保利一,内藤敬祐,寺田庄一,中家隆博,安田知恵

    第64回日本労働衛生工学会  2025.10  日本労働衛生工学会

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    Event date: 2025.10

    Language:Japanese   Presentation type:Oral presentation (general)  

    Venue:北海道旭川市   Country:Japan  

  8. 職場における自律的な化学物質管理-最新の法令改正も含めた化学物質管理規制の概要- Invited

    山本忍

    次世代分析技術フォーラム2025  2025.10.2  新川電機株式会社

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    Event date: 2025.10

    Language:Japanese   Presentation type:Public lecture, seminar, tutorial, course, or other speech  

    Venue:web   Country:Japan  

  9. 作業環境測定について Invited

    山本忍

    日本医師会認定産業医制度 産業医学研修会  2025.9.28  一般財団法人 西日本産業衛生会

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    Event date: 2025.9

    Language:Japanese   Presentation type:Public lecture, seminar, tutorial, course, or other speech  

    Venue:福岡県北九州市   Country:Japan  

  10. 化学防護エプロンの防護性能についての検討

    宮内博幸,山本忍,青木隆昌

    第98回日本産業衛生学会  2025.5  日本産業衛生学会

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    Event date: 2025.5

    Language:Japanese   Presentation type:Oral presentation (general)  

    Venue:宮城県仙台市   Country:Japan  

  11. エキシマランプによる混合有機溶剤蒸気の分解特性

    石田尾徹,小田蓮莉,山本忍,保利一,内藤敬祐,寺田庄一,中家隆博,安田知恵

    第98回日本産業衛生学会  2025.5.15  日本産業衛生学会

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    Event date: 2025.5

    Language:Japanese   Presentation type:Poster presentation  

    Venue:宮城県仙台市   Country:Japan  

▼display all

To the head of Presentations.▲

Research Project for Joint Research, Competitive Funding, etc. 3

  1. ベリリウム等の低濃度管理物質に対する有効な曝露防止対策に関する研究

    Grant number:211101-01  2021.4 - 2024.3

    労災疾病臨床研究事業費補助金 

    石田尾徹

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    Authorship:Coinvestigator(s)  Grant type:Competitive

  2. 実際の使用条件下における化学防護手袋の透過性の調査

    Grant number:190601-01  2020.4 - 2021.3

    労災疾病臨床研究事業費補助金  

    宮内博幸

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    Authorship:Other  Grant type:Competitive

  3. 受動喫煙を防止するための効果的な呼吸用保護具のフィルターの検討

    Grant number:H30-労働-一般-005  2018.4 - 2019.3

    厚生労働省科学研究費補助金  

    保利一

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    Authorship:Coinvestigator(s)  Grant type:Competitive

To the head of Research Project for Joint Research, Competitive Funding, etc..▲

KAKENHI (Grants-in-Aid for Scientific Research) 4

  1. 化学物質ばく露のリスク低減に活用できる「防毒マスク内濃度の見える化」技術の開発

    Grant number:25K08211  2025.4

    文科省、日本学術振興会(JSPS)  科学研究費助成事業  基盤研究(C)

    山本忍

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    Authorship:Principal investigator  Grant type:Competitive

    Grant amount:\4550000 ( Direct Cost: \3500000 、 Indirect Cost:\1050000 )

  2. 感作性物質o-フタルアルデヒドの職業性曝露限界値の導出と曝露低減対策

    Grant number:21K17279  2021.4 - 2024.3

    日本学術振興会  科学研究費助成事業  若手研究

    山本 忍

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    Authorship:Principal investigator  Grant type:Competitive

    Grant amount:\4680000 ( Direct Cost: \3600000 、 Indirect Cost:\1080000 )

    本研究の目的は、医療機関で内視鏡等医療機器の消毒剤として利用され、取扱い作業者に目や呼吸器の刺激、皮膚炎、呼吸器感作性等の健康障害が報告されたオルト-フタルアルデヒド(OPA)製剤取り扱い作業者のOPAばく露濃度と健康影響の関係を明らかにすること、医療機関に適したばく露低減対策を確立することである。現在、OPAの職業性ばく露限界値は日本では勧告されておらず、米国産業衛生専門家会議が2019年に0.1 ppbと極めて低濃度の値を勧告した。したがって、日本においては、0.1 ppbを管理レベルとしたばく露低減対策が必要となる。しかしながら、OPAのばく露濃度と健康影響の関連を調査した報告は少ない。また、従来の特別則に基づく局所排気装置では多くの医療機器が混在する医療機関ではその設置は現実的ではない。
    令和3年度は、ばく露低減対策として新たな排気装置のOPA分解効果を検証するための低濃度OPAガスの安定的な連続発生法を確立し、産業医科大学学会および室内環境学会で報告した。今後は新たな排気装置を用いた排気(分解)効果の検証実験を実施する予定である。
    また、OPA製剤取り扱い作業者のOPAばく露濃度と健康影響の関連を見るためのフィールド調査は、1医療機関において実施できたが、新型コロナウイルス感染症の影響もあり、調査医療機関の確保が遅れている。この点は、作業環境測定機関等に広く打診し、また産業医等を通じて取扱い医療機関へ調査協力を打診している。

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  3. 皮膚吸収性N,N-ジメチルアセトアミドの取扱い作業者の新規リスク評価法の開発

    Grant number:JP17K18303  2017.4 - 2020.3

    文科省、日本学術振興会(JSPS)  科学研究費助成事業   若手研究(B)

    山本忍

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    Authorship:Principal investigator  Grant type:Competitive

    Grant amount:\4290000 ( Direct Cost: \3300000 、 Indirect Cost:\990000 )

  4. 層状サンプラーを用いた簡易な手袋内の手表面ばく露濃度測定方法の開発

    Grant number:21K04563  2021.4 - 2024.3

    文科省、日本学術振興会(JSPS)  科学研究費助成事業  基盤研究(C)

    青木隆昌

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    Authorship:Coinvestigator(s) 

To the head of KAKENHI (Grants-in-Aid for Scientific Research).▲
 

Teaching Experience (On-campus) 1

  1. 環境リスク論

    2025

To the head of Teaching Experience (On-campus).▲

Teaching Experience (Off-campus) 4

  1. 卒業研究

    2017.4 - 2025.3 University of Occupational and Environmental Health, Japan)

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    Level:Undergraduate (specialized)  Country:Japan

  2. 化学実験

    2015.4 - 2025.3 University of Occupational and Environmental Health, Japan)

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    Level:Undergraduate (specialized)  Country:Japan

  3. 機器分析概論実習

    2015.4 - 2025.3 University of Occupational and Environmental Health, Japan)

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    Level:Undergraduate (specialized)  Country:Japan

  4. 分析化学実験

    2015.4 - 2025.3 University of Occupational and Environmental Health, Japan)

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    Level:Undergraduate (specialized)  Country:Japan

To the head of Teaching Experience (Off-campus).▲