岡原 重幸オカハラ シゲユキ
職位
教授
学位・最終学歴
博士(工学:広島大学大学院工学研究科)
専攻・分野
臨床工学,人工心肺,呼吸療法
研究テーマ
生体機能代行装置のモニタに関する研究
担当科目
学部:臨床工学概論,呼吸療法学,医用治療機器学
大学院:臨床工学特論,先端医療技術論,多職種連携医療論Ⅰ,保健医療技術論
業績
【著書】
●共著:臨床工学プラクティカルフルコース,メジカルビュー社,2015.
【学術論文】
●共著:Miyamoto S, Okahara S et al. Neural network-based modeling of the number of microbubbles generated with four circulation factors in cardiopulmonary bypass. Scientific reports, 549, 2021.
●共著:Okahara S, Tsuji T et al. Online Prediction of Normal Blood Viscosity During Cardiopulmonary Bypass Using Hematocrit- and Temperature-Dependent Model. IEEE Access, 8, 5611-5621, 2020.
●共著:Miyamoto S, Okahara S et al. Abdominal organ protection strategy for aortic arch aneurysm surgery. Perfusion, 33(7), 512-519, 2018.
●共著:Miyamoto S, Okahara S et al. Abdominal organ protection: Distal perfusion during replacement of the ascending aorta and aortic arch. Journal of Cardiovascular Surgery, 59(3), 485-486, 2018.
●共著:Okahara S, Tsuji T et al. Continuous blood viscosity monitoring system for cardiopulmonary bypass applications. IEEE Transactions on Biomedical Engineering, 64(7), 1503-1512, 2017.
●共著:Okahara S, Tsuji T et al. A novel blood viscosity estimation method based on pressure-flow characteristics of an oxygenator during cardiopulmonary bypass. Artificial Organs, 41(3), 262-266, 2017.
●共著:Okahara S, Tsuji T et al. Hydrodynamic characteristics of a membrane oxygenator: modeling of pressure-flow characteristics and their influence on apparent viscosity. Perfusion, 30(6), 478-483, 2015.
●共著:Okahara S, Sueda T et al. A novel measurement and delivery system for synchronizing oxygen gas flow with blood flow during cardiopulmonary bypass. Perfusion, 28(5), 403-408, 2013.
●共著:Matsuzaki H, Okahara S et al. Monitoring zone-associated implantable cardioverter defibrillator shock: A case report. Journal of Arrhythmia, 28(4), 235-238, 2012.
●共著:Miyamoto S, Okahara S et al. Examination of the Effective Utilization of the CARELINK® Remote Monitoring System after its Introduction. Journal of Arrhythmia, 27(2), 126-130, 2011.
●共著:Okahara S Nakano Y et al. Oversensing of a Particular Transient Noise Appearing After the Implantation of an Implantable Cardiac Device. Journal of Arrhythmia, 27(1), 68-75, 2011.
【その他】
(国際学会)
●Miyamoto S, Okahara S et al. Neural Network-based Estimation of Microbubbles Generated in Cardiopulmonary Bypass Circuit: A Clinical Application Study. Proceedings of 44th Annual International Conference of the IEEE Engineering in Medicine and Biology Society, pp. 627-630, Glasgow, UK, july 11th-15th, 2022.
●Okahara S, Tsuji T et al. Detection of Echinocyte during Perfusion with Oxygenator Based on Continuous Blood Viscosity Monitoring. Proceedings of 40th Annual International Conference of the IEEE Engineering in Medicine and Biology Society, pp. 4448-4451, Honolulu, HI, USA, july 17th-21th, 2018.
●Okahara S, Tsuji T et al. Blood Viscosity Monitoring During Cardiopulmonary Bypass Based on Pressure-Flow Characteristics of a Newtonian fluid. Proceedings of 38th Annual International Conference of the IEEE Engineering in Medicine and Biology Society, pp. 2331-2334, Orlando, FL, USA, August 16th-20th, 2016.
●Okahara S, Tsuji T et al. A blood viscosity estimation method based on pressure-flow characteristics of an oxygenator during cardiopulmonary bypass and its clinical application. Proceedings of 37th Annual International Conference of the IEEE Engineering in Medicine and Biology Society, pp. 5525-5528, Milano, Italy, August 25th-29th, 2015.
PR
【保有資格】
臨床工学技士,第1種ME技術実力検定
【所属学会】
IEEE,日本呼吸療法医学会,日本人工臓器学会,日本不整脈心電学会,日本体外循環技術医学会
【学会および社会における活動】
●日本臨床工学技士会
●福岡県臨床工学技士会
【研究費獲得状況】
●日本学術振興会科学研究費(基盤研究(C))(R2~R4年度),分担,課題番号:20K12691,研究課題名:連続血液粘度測定法に基づく人工心肺中のマイクロバブル発生予測のモデル化と臨床応用
●日本学術振興会科学研究費(基盤研究(C))(R1~R3年度),代表,課題番号:19K12832,研究課題名:「血液粘度比」で人工肺不良の原因を検出する:連続評価可能な新指標の提案と臨床応用
●日本学術振興会科学研究費(基盤研究(C))(R1~R3年度),分担,課題番号:19K12851,研究課題名:圧流量特性モデルに基づく人工心肺装置操作支援システムの提案
●日本学術振興会科学研究費(基盤研究(C))(R1~R3年度),分担,課題番号:19K12851,研究課題名:「拍動流補助循環」の重症呼吸不全治療に対する効果 -定常流補助と比較する-
●日本学術振興会科学研究費(基盤研究(C))(H28~H30年度),研究代表者:岡原重幸,課題番号:16K01429,研究課題名:人工心肺における連続血液粘度モニタリングシステム 推定アルゴリズムの提案と臨床応用