Doctors

消化器内科学教室 スタッフ紹介

助教(併任) Assistant Professor
廣瀬 亮平 Ryohei Hirose, M.D., Ph.D.

出身地 京都府

略 歴

2007年 京都府立医科大学医学部卒業
2013年 京都府立医科大学大学院医学研究科 入学
2016年 京都府立医科大学大学院医学研究科 早期卒業 (医学博士)
京都府立医科大学大学院医学研究科 消化器内科 助教(併任)
2016年 京都府健康福祉部福祉援護課 医務主幹
京都府立医科大学大学院医学研究科 消化器内科 助教(併任) 現在に至る

専 門

  • 消化器病学,消化器内視鏡学
  • 微生物学
  • 感染症学,環境感染症学
  • 流体力学,レオロジー
  • バイオマテリアル

所属学会

  • 日本内科学会 認定医
  • 日本内視鏡学会 専門医
  • 日本消化器病学会 専門医
  • 日本感染症学会
  • 日本環境感染症学会

業 績

  1. Hirose R*, Itoh Y, Ikegaya H, Miyazaki H, Watanabe N, Yoshida T, Bandou R, Daidoji T, Nakaya T. Differences in environmental stability among SARS-CoV-2 variants of concern: Both Omicron BA.1 and BA.2 have higher stability. Clinical microbiology and infection. 2022 in press.
  2. Bandou R, Hirose R*, Nakaya T, Itoh Y, Miyazaki H, Watanabe N, Yoshida T, Daidoji T, Itoh Y, Ikegaya H. Avian influenza virus stability and disinfectant efficacy on human skin: Higher stability and ethanol resistance of H5N1. Emerging Infectious Diseases. 2022;28(3),639-649.
  3. Hirose R*, Miyazaki H, Bandou R, Watanabe N, Yoshida T, Daidoji T, Itoh Y, Nakaya T. Stability of SARS-CoV-2 and influenza virus varies across different paper types. Journal of infection and chemotherapy. 2022;28(2):252-256.
  4. Hirose R*, Itoh Y, Ikegaya H, Miyazaki H, Watanabe N, Yoshida T, Bandou R, Daidoji T, Nakaya T. Evaluation of the residual disinfection effects of commonly used skin disinfectants against viruses: An innovative contact transmission control method. Environmental Science & Technology. 2021;55(23):16044-16055.
  5. Hirose R*, Watanabe N, Bandou R, Yoshida T, Daidoji T, Naito Y, Itoh Y, Nakaya T. A Cytopathic Effect-Based Tissue Culture Method for HCoV-OC43 Titration Using TMPRSS2-Expressing VeroE6 Cells. mSphere. 2021;6(3):e00159-21.
  6. Hirose R*, Ikegaya H, Naito Y, Watanabe N, Yoshida T, Bandou R, Daidoji T, Itoh Y, Nakaya T. Reply to Gracely. Clinical infectious diseases. 2021;73(3): e854-e856.
  7. Hirose R*, Bandou R, Ikegaya H, Watanabe N, Yoshida T, Daidoji T, Naito Y, Itoh Y, Nakaya T. Disinfectant effectiveness against SARS-CoV-2 and influenza viruses present on human skin: model-based evaluation. Clinical microbiology and infection. 2021;27(7):1042.e1-1042.e4.
  8. Hirose R*, Yoshida T, Naito Y, Watanabe N, Hashimoto H, Sugino S, Bandou R, Daidoji T, Inoue K, Dohi O, Yoshida N, Nakaya T, Itoh Y. Differences between two sodium hyaluronate-based submucosal injection materials currently used in Japan based on viscosity analysis. Scientific reports. 2021;11(1):5693.
  9. Hirose R*, Watanabe N, Naito Y, Hashimoto H, Sugino S, Yoshida T, Bandou R, Daidoji T, Inoue K, Dohi O, Yoshida N, Nakaya T, Itoh Y. Comparison of sodium alginate-based and sodium hyaluronate-based submucosal injection materials based on rheological analysis. J Mech Behav Biomed Mater. 2021;124:104816.
  10. Hirose R*, Nakaya T, Naito Y, Yoshida N, Itoh Y. Performance comparison between next-generation and shear-thinning hydrogel-based submucosal injection materials. Gastrointestinal endoscopy. 2021;93(3):777-9.e4.
  11. Hirose R*, Ikegaya H, Naito Y, Watanabe N, Yoshida T, Bandou R, Daidoji T, Itoh Y, Nakaya T. Survival of SARS-CoV-2 and influenza virus on the human skin: Importance of hand hygiene in COVID-19. Clinical infectious diseases. 2020;73(11):e4329-e4335.
  12. Hirose R*, Nakaya T, Naito Y, Yoshida T, Bandou R, Daidoji T, Inoue K, Dohi O, Konishi H, Yoshida N, Itoh Y. An innovative next-generation endoscopic submucosal injection material with a two-step injection system. Gastrointest Endosc. 2021;93:503-513.
  13. Yoshida T, Hirose R*, Naito Y, Inoue K, Dohi O, Yoshida N, Kamada K, Uchiyama K, Ishikawa T, Takagi T, Konishi H, Nakaya T, Itoh Y. Viscosity: An important factor in predicting the performance of submucosal injection materials. Materials & Design. 2020:109008.
  14. Hirose R*, Nakaya T. Reply to Peters and Pittet, "Influenza and Alcohol-Based Handrub: the Danger of Ignoring Clinical Relevance," and Boyce, "Alcohol-Based Handrubs and Influenza A". mSphere. 2019;4:e00745-19.
  15. Hirose R*, Yoshida N, Naito Y, Yoshida T, Bandou R, Daidoji T, Inoue K, Dohi O, Konishi H, Nakaya T, Itoh Y. Development of sodium polyacrylate-based high-performance submucosal injection material with pseudoplastic fluid characteristics. ACS BiomaterialsScience & Engineering. 2019; 5, 12, 6794-6800.
  16. Hirose R*, Nakaya T, Naito Y, Daidoji T, Bandou R, Inoue K, Dohi O, Yoshida N, Konishi H, Itoh Y. Situations leading to reduced effectiveness of current hand hygiene against infectious mucus from influenza-infected patients. mSphere. 2019;4:e00474-19.
  17. Hirose R*, Nakaya T, Naito Y, Daidoji T, Dohi O, Yoshida N, Yasuda H, Konishi H, Itoh Y. Identification of the critical viscoelastic factor in the performance of submucosal injection materials. Materials Science & Engineering C. 2019;94:909-919.
  18. Hirose R*, Daidoji T, Naito Y, Dohi O, Yoshida N, Yasuda H, Konishi H, Nakaya T, Itoh Y. Detailed setup methodology of a new ex vivo model for evaluation of endoscopic submucosal injection materials performance. Journal of Visualized Experiments. 2018;(140), e58029.
  19. Hirose R*, Nakaya T, Naito Y, Daidoji T, Yasuda H, Konishi H, Itoh Y. Development of a new ex vivo model for evaluation of endoscopic submucosal injection materials performance. Journal of the Mechanical Behavior of Biomedical Materials. 2018;79:219-225.
  20. Hirose R, Nakaya T*, Naito Y, Daidoji T, Watanabe Y, Yasuda H, Konishi H, Itoh Y. Viscosity is an important factor of resistance to alcohol-based disinfectants by pathogens present in mucus. Scientific Reports. 2017;7:13186.
  21. Hirose R, Nakaya T*, Naito Y, Daidoji T, Watanabe Y, Yasuda H, Konishi H, Itoh Y. Mechanism of human influenza virus RNA persistence and virion survival in feces: mucus protects virions from acid and digestive juices. Journal of Infectious Diseases. 2017;216:105-109.
  22. Hirose R, Nakaya T, Daidoji T*. Additional comments: Long term detection of seasonal influenza RNA in faeces and intestine. Clinical Microbiology and Infection. 2017; 23: 273-274.
  23. Hirose R, Yoshida N*, Murakami N, et al. Histopathological analysis of cold snare polypectomy and its indication for colorectal polyps 10-14mm in diameter. Digestive Endoscopy. 2017;29:594-601.
  24. Hirose R, Daidoji T*, Naito Y, Watanabe Y, Arai Y, Oda T, Konishi H, Yamawaki M, Itoh Y, Nakaya T. Long term detection of seasonal influenza RNA in faeces and intestine. Clinical Microbiology and Infection. 2016;22: 813, e1-7.
  25. 著書

  26. 廣瀬亮平.感染症と香粧品科学「ヒトの皮膚上に存在するウイルスの生存期間を解明」.Fragrance Journal 2021; 6: 10-13
  27. 中屋隆明,廣瀬亮平.パンデミック時代の感染症研究「ウイルスの伝播様式(接触,飛沫,空気感染)」.実験医学 2021; 39-2: 207-213.
  28. 廣瀬亮平.新型コロナウイルス感染症(COVID-19)対策「新型コロナウイルス(SARS-CoV-2)環境における安定性と今、可能な対策」.ANTI-AGING MEDICINE 2020; 16-3: 88-92.
  29. 廣瀬亮平.感染界隈HOT TOPIC「粘液中のインフルエンザウイルス」.INFECTION CONTROL 2020; 29-2: 100.
  30. 廣瀬亮平,吉田直久,伊藤義人.10mm以上のポリープに対するcold snare polypectomyの是非.臨床消化器内科 2019; 34,.(9): 1127-1132.
  31. 廣瀬亮平,伊藤義人,中屋隆明.粘性環境下における病原体のアルコール消毒薬耐性獲得.THE LUNG perspective 2018; 26: 170-174.
  32. 発明・特許

  33. 発明の名称:「粘膜下注入用局注液及びセット、消化管サンプル並びに粘膜下注入用局注液のスクリーニング方法」 発明者:廣瀬亮平,中屋隆明,伊藤義人.特許出願日:2017年9月25日,特許出願番号:特願2017-183841 (PCT/JP2018/34672)

「Research Map」のリンク

https://researchmap.jp/read0152401

お問い合わせ
〒602-8566 京都市上京区河原町通広小路上る梶井町465番地 京都府立医科大学消化器内科
TEL:075-251-5519(医局)FAX:075-251-0710(医局)消化器内科医局 mail: s-ikyoku@koto.kpu-m.ac.jp