P-02 BLOOD FLOW DISTURBANCE BY ADMINISTRATION OF LIPOSOME IN BREAST CANCER
スポンサーリンク
概要
- 論文の詳細を見る
- 社団法人日本機械学会の論文
- 2007-11-05
著者
-
Tanishita Kazuo
Department of System Design Engineering Keio University
-
Fujii Shinya
Graduate School Of Science And Technology Keio University
-
Fujii Shinya
Graduate School Of Pharmaceutical Sciences University Of Tokyo
-
Shan Sqing
Department of Radiation Oncology, Duke University Medical Center
-
Ushiyama Akira
Department of Environmental Health, National Institute of Public Health
-
Shan Sqing
Department Of Radiation Oncology Duke University Medical Center
-
Ushiyama Akira
Dept. Of Env. Health National Institute Of Public Health
-
Ushiyama Akira
Department Of Environmental Health National Institute Of Public Health
-
Tanishita Kazuo
Department Of System Design Engineering Keio Univ.
-
Tanishita Kazuo
Department Of System Design Engineering
関連論文
- P-03 Measurement of O_2 and NO by the Microcoaxial Electrode
- TED-AJ03-263 REGIONAL VARIETIES OF OXYGEN TRANSPORT IN THE CEREBRAL CORTEX BASED ON THE EXPERIMENTAL DATA
- A TEMPORAL-SPATIAL ANALYSIS OF TUMOR GROWTH AND ANGIOGENESIS(3D3 Biorheology & Microcirculation II)
- P-02 BLOOD FLOW DISTURBANCE BY ADMINISTRATION OF LIPOSOME IN BREAST CANCER
- Dependence of Estrogenic Activity on the Shape of the 4-Alkyl Substituent in Simple Phenols
- Morphometric Changes of Small Airways using Microfocal X-ray Tomography(Cardiovascular Mechanics)
- Shear Stress Distribution on the Surface of Endothelial Cells during Flow-Induced Morphological Remodeling(Bioengineering)
- Functional repolarization of reconstructed hepatic organoid : Pumping function of bile canaliculi
- P-18 Effect of shear stress on three-dimensional microvessel network formation of endothelial cells
- Design of biodegradable Poly(DL-lactide-co-glycolide)(PLGA) microporous membrane for the reconstruction of three-dimentional hepatic tissues(3A3 Cellular & Tissue Engineering & Biomaterials III)
- Ductular morphogenesis and polarization of rat biliary epithelial cells in collagen gel sandwich culture(3A1 Cellular & Tissue Engineering & Biomaterials I)
- Albumin Permeability across Endothelial Monolayers under Long-Term Shear Stress(Bioengineering)
- Effect of Fluid Force on Vascular Cell Function
- Relationship between Microtubule Network Structure and Intracellular Transport in Cultured Endothelial Cells Affected by Shear Stress(Bioengineering)
- Effect of Shear Stress on the Formation of Three-Dimensional Angiogenesis Network(Micro- and Nano-biomechanics)
- Effect of Long-Term Shear Stress Exposure on Calcium Response and Morphology of Cultured Endothelial Cells(Bioengineering)
- Relationship between Energy-Dependent Macromolecule Uptake and Transport Granules in the Endothelial Cells Affected by Wall Shear Stress
- Intra-aneurysmal Flow Visualization by Phase Contrast MRI : Feasibility Study Using a Geometrically Realistic In Vitro Aneurysm Model.(Biorheology & Microcirculation)
- 2-1 Effect of Fluid Frictional Force on ATP Synthesis of Vascular Cell
- 2-18 Vascular Cell Coordination Induced by Blood Flow(Proceedings of the 53rd Meeting of Japan Society of Physiological Anthropology)
- Improvement in the Viability of Cryopreserved Cells by Microencapsulation
- Distribution of Wall Shear Stress in Right-Angle Branches during Laminar Flow(Bioengineering)
- Effect of Taper Angle on Wall Shear Stress at Tapered Right-Angle Branch in Laminar Steady Flow(Bioengineering)
- Increased endothelial permeability of tumor vessels is inhibited by bisphosphonates(Microbiorheology)
- 2-1 Effect of Fluid Frictional Force on Vascular Cell Function(Proceedings of the 51st Meeting of Japan Society of Physiological Anthropology)
- Intravascular Inhomogeneous Distribution of Oxygen in Arterioles of Rat Cremaster Muscle
- Homeostasis of Circulatory System Maintained by Transferome(Special lecture,Proceedings of the 55th Meeting of Japan Society of Physiological Anthropology)
- Secondary Flow Augmentation during Intermittent Oscillatory Flow in Model Human Central Airways
- Measurement of Surface Topography of Endothelial Cell and Wall Shear Stress Distribution on the Cell
- A New Method for Measuring the Oxygen Diffusion Constant and Oxygen Consumption Rate of Arteriolar Walls