303 results on '"Tajikawa, Tsutomu"'
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2. Carotid Artery Bypass Surgery of In-Body Tissue Architecture-Induced Small-Diameter Biotube in a Goat Model: A Pilot Study
3. Acute Phase Pilot Evaluation of Small Diameter Long iBTA Induced Vascular Graft “Biotube” in a Goat Model
4. Breaking the Limit of Cardiovascular Regenerative Medicine: Successful 6-Month Goat Implant in World's First Ascending Aortic Replacement Using Biotube Blood Vessels.
5. Model blood for simulating red thrombus formation owing to stagnant blood flow using hypercoagulable skim milk solution
6. Simultaneous observation of shape, volume, and hemoglobin content of a single red blood cell under the osmotic pressure difference
7. Investigation of pancreatic juice reflux mechanism in high confluence of pancreaticobiliary ducts and pancreaticobiliary maljunction (Development and validation of a mathematical model for pancreatic and bile juice flow based on fluid mechanics)
8. In vitro hydrodynamical study on parent vessel curvature for treating intracranial aneurysms using particle imaging velocimetry
9. Successful implantation of autologous valved conduits with self-expanding stent (stent-biovalve) within the pulmonary artery in beagle dogs
10. Pre‐implantation evaluation of a small‐diameter, long vascular graft (Biotube®) for below‐knee bypass surgery in goats
11. Construction of 3 animal experimental models in the development of honeycomb microporous covered stents for the treatment of large wide-necked cerebral aneurysms
12. Effect of Mechanical Anisotropy of Heart Valves on Hemodynamical Performance
13. 動脈弁の弁葉に与えた構造的工夫が弁機能におよぼす影響
14. Measurement and analysis of the shape recovery process of each erythrocyte for estimation of its deformability using the microchannel technique: the influence of the softness of the cell membrane and viscosity of the hemoglobin solution inside the cell
15. iBTA-Induced Biotube® Blood Vessels: 2020 Update
16. In vivo evaluation of an in-body, tissue-engineered, completely autologous valved conduit (biovalve type VI) as an aortic valve in a goat model
17. Preparation of in-vivo tissue-engineered valved conduit with the sinus of Valsalva (type IV biovalve)
18. Mechanism of pancreatic juice reflux in pancreaticobiliary maljunction: A fluid dynamics model experiment
19. Development of Ring-type Artificial Atrioventricular Valve by Using Bio-sheet
20. In vitro hydrodynamical study on aneurysmal morphology for treating intracranial aneurysms using particle imaging velocimetry
21. In-vitro study on device thrombogenicity evaluation of endovascular devices by using hypercoagulable skimmed milk as a modeled blood
22. 'In vivo tissue-engineered' valved conduit with designed molds and laser processed scaffold
23. First Time Development of Biovalve Mitral Valve: In Vitro Performance
24. Evaluation of Valve Performance for Film-type Bioprosthetic Valve (Butterfly Bio-valve) by in Body Tissue Architecture
25. In vitro evaluation on influence of dialysis treatment on erythrocyte deformability and hemolytic property
26. Development of a model of red blood thrombus formation by using hyper-coagulable skim milk
27. Development of a Novel Blalock–Taussig Shunt Device Capable of Flow Regulation
28. Self-Excited Oscillation of Collapsible Tube in Low-Reynolds Number Flow
29. Quantitative Evaluation of Flow Divertion Performance of a Newly Developed Microporous Covered Stent for Unruptured Cerebral Aneurysm Treatment
30. Development of Microporous Covered Stent for Cerebral Aneurysm Treatment
31. Development of a model blood with red thrombus formation using hyper-coagulable skim milk
32. Erratum to: Measurement and analysis of the shape recovery process of each erythrocyte for estimation of its deformability using the microchannel technique: the influence of the softness of the cell membrane and viscosity of the hemoglobin solution inside the cell
33. Hydrodynamical evaluation of microporous covered stent for the treatment of intracranial aneurysms: Comparison of flow reduction property with flow diverter stent by using particle imaging velocimetry and in vitro flow simulator
34. Hydrodynamical Quantitative Evaluation of Microporous Covered Stent for Unruptured Cerebral Aneurysm Treatment
35. Influence of valve size difference on tricuspid aortic valve performance
36. Quantitative evaluation of human erythrocyte deformability by using a sheath flow micro-channel
37. Development of a blood model which can reproduce the red thrombus formation using hyper-coagulable skim milk
38. Development of a modeled blood which can produce a clot like red thrombus using hyper-coagulable skim milk
39. Simulated experiment on buckling blockage of trachea model using collapsible tube
40. Quantitative evaluation of human erythrocyte deformability by micro-channel technique
41. Self-excited oscillation of collapsible tube in low-Reynolds number flow
42. Development of left heart simulator considering blood flow dynamics in the ventricle and evaluation of hydrodynamic performance for modeled atrioventricular valve by using the simulator
43. Blood flow interruption mechanism of embolic device
44. Development and application of an ultra-miniaturized blood collecting/testing system by MEMS
45. 2F21 Comparison of microporous covered stent and flow diverter in aneurysmal flow reduction property by using in vitro flow simulator
46. The imitating flapping behaviour of mosquito using flexible wing model
47. M903 Experimental study of real shape enlarged elastic wing model for elucidating mosquito's flight : Measurements for lift power of feathering model
48. Development of honeycomb microporous stent for cerebral aneurysm treatment
49. Abstract 11722: Excellent Preclinical Results of Honeycomb Microporous Covered Stents for the Treatment of Large and Wide-Necked Cerebral Aneurysms
50. GS3-6 Development of honeycomb microporous stent for cerebral aneurysm treatment(GS3: Cardiovascular and Respiratory Biomechanics)
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