以下の研究テーマなどを行っています.
Following research projects are being conducted;
動画説明 Movie (https://www.youtube.com/watch?v=tlh9oQOqAVw)Please note that the movie is in Japanese, please use auto translation function in Youtube until English version is uploaded.
1.人工臓器・医療機器開発のための血液流れの溶血・血栓現象の数値的・実験的解明
Computational and Experimental Approach to elucidate Hemolysis and Thrombus Formation phenomenon of blood flow for the development of Artificial Organs and Medical Devices
1-1.血液ポンプなどの血液流動デバイス内流れ場での白色ならびに赤色血栓の可視化と流動解析
Visualization of thrombus formation process for white and red thrombus on blood fluidics such as blood pump and analysis by comparing with flow field
1-2.数理モデルを用いたせん断血液流動シミュレーションによる血栓形成予測
Prediction of thrombus formation by simulation of blood shear flow with mathematical modeling
1-3.乳幼児末梢静脈点滴時の赤色血栓形成機構の解明とその看護工学的手法によるインシデント低減
Elucidation of red thrombus on vein by PIVC (Peripheral Intravenous Catheterization) and prevention of incident by Nurse-Engineering Method
2.循環器系流れの数値シミュレーションやそのアルゴリズムの開発
Numerical simulation of Cardiovascular system flow and development of its algorithm
2-1.数値シミュレーションを用いた頚動脈ステント留置に関する基礎的研究 (インド・マニパル大学との共同研究)
Fundamental Study on Carotid Artery Stenting Using Numerical Simulation
(Joint research project with Manipal Advanced Higher Education, India founded by bilateral project, JSPS)
3.血液内の白血球の走化性の物理的解明とマイクロマシン動力源としての応用
Elucidation of chemotaxis of white blood cells (Neutrophile) in blood by Physics and its application as an engine for micro-machines
4.衝撃波・気泡を利用したドラッグ・デリバリー・システム(DDS)の開発
Development of drug delivery system (DDS) using shock waves and bubbles
5.衝撃波・気泡を利用した細胞刺激や再生医療システムへの応用
Application to cell stimulation and regenerative medicine systems using shock waves and bubbles
5-1.フェムト秒レーザを用いた血管内医療デバイス用マイクロ衝撃波の生成とその機構解明
Generation of micro shock wave for arterial or venous intervention therapy by femto-second pulse laser and elucidation of the mechanism
6.衝撃波を利用した環境バイオや水処理プロセスの開発
Development of environmental biotechnological system and water treatment processes using shock waves
7.高齢者の転倒による人体損傷のシミュレーションによる解析
Simulation analysis of human body damage caused by falls for the older adult
8.Covid-19感染防御のための解剖学的気道と温湿度を考慮した室内空気循環のCFD解析による室内換気の最適化 (マレーシアプトラ大学との2大学間共同事業による共同研究)
Optimizing Design of Indoor Ventilation to prevent Covid 19 Infection by Computational Fluid Dynamics (CFD) analysis on Anatomical Airway and Room Air Circulation with consideration of Humidity and Temperature
(Joint Research Program with University Putora Malaysia founded by co-founding program between UPM and Kyutech)
9.意義ある血圧計測の提案とその応用(北九州高専,神戸大学との共同研究)
Proposal of worthy measurements of indirect blood pressure and their applications
((2)New indirect blood pressure measurement by impinging jet flow and camera for remote hopital care,Domestic joint research project with National Institute of Technology, Kitakyushu College and Kobe University, Japan)
10.音響波とサメ肌を利用した材料の防汚性向上に関する研究(音響波とサメ肌によるフジツボ付着防止の研究)
Improvement of antifouling properties of materials by using acoustic waves and shark skin
(Prevention of Barnacle adhesion by acoustic waves and shark skin)
