Research field (2):
Fluid engineering
, Biomedical engineering
Research keywords (1):
血流,バイオメカニクス,血管病,血行力学,微生物遊泳,生物流体力学,数値シミュレーション,計算流体力学
Research theme for competitive and other funds (10):
2024 - 2027 細菌遊泳を駆動するべん毛運動の同期性の研究
2023 - 2026 Study on development of prophylaxis for recanalization after coil embolization of cerebral aneurysm and elucidation of its mechanisms
2020 - 2023 Study on growth reduction of unruptured cerebral aneurysms from the point of view of hemodynamics
2019 - 2022 Identification of hemodynamics risk factors for the rupture of cerebral aneurysms
2015 - 2019 Study on role of hemodynamic factors in cerebral aneurysm development and research on trial for suppression of aneurysm formation
2014 - 2017 Identification of hemodynamic risk factors for the development of cerebral aneurysms using high-resolution computational blood flow analysis
2013 - 2017 Integrated nano-biomechanics
2011 - 2013 Development of computational techniques for the preoperative evaluation of endovascular treatment of cerebral aneurysms and its application to realistic geometries
2009 - 2010 Development of the multi-mechanics simulation techniques for the endovascular treatment of cerebral aneurysms with stent grafts
Yuji Shimogonya, Shunichi Fukuda, CFD ABO Study Group. Role of disturbed wall shear stress in the development of cerebral aneurysms. Journal of Biomechanics. 2024. 176. #112355
Yamamoto K, Shimogonya Y, Maeno R, Kawabe K, Ando J. Endothelial cells differentially sense laminar and disturbed flows by altering the lipid order of their plasma and mitochondrial membranes. American Journal of Physiology-Cell Physiology. 2023. 325. 6. C1532-C1544
Kanno K, Akabane H, Shimogonya Y, Kataoka N. Response of human endothelial cells to the vortex flow in an immediately expanding flow chamber. Journal of Biomechanical Science and Engineering. 2022. 17. 3. #22-00080
Fukuda S, Shimogonya Y, Yonemoto N, Fukuda M, Watanabe A, Fujiwara K, Enomoto R, Hasegawa K, Yasoda A, Tsukahara T, et al. Hemodynamic risk factors for the development of carotid stenosis in patients with unilateral carotid stenosis. World Neurosurgery. 2022. 160. e353-e371
Shunichi Fukuda, Yuji Shimogonya. A prospective observational study on hemodynamic risk in cerebral aneurysm growth. Physiology. 2024. 39. S1
Shunichi Fukuda, Yuji Shimogonya. Hemodynamic predictors for the onset of ischemic stroke due to carotid artery stenosis using a computational fluid dynamics analysis. Physiology. 2023. 38. S1
Shunichi Fukuda, Yuji Shimogonya. Abstract WMP36: Wall Shear Stress Disturbances May Be Key Requirements for Cerebral Aneurysm Growth: Computational Flow Dynamic Analysis of 15 Cases in NHO CFD ABO Study. Stroke. 2020. 51. Suppl_1
Shunichi Fukuda, Yuji Shimogonya. Abstract TP126: Evaluation of Pre-Stenotic Hemodynamic Differences in Unilateral Carotid Stenosis After Artificial Carotid Plaque Removal. Stroke. 2020. 51. Suppl_1
Shunichi Fukuda, Yuji Shimogonya. Examination of hemodynamic environments of carotid stenosis with computational fluid dynamics. The FASEB Journal. 2019. 33. S1