スポンサーリンク
Department of Bioengineering, National Cardiovascular Center Research Institute | 論文
- TEM observation of hydroxyapatite nanocrystals ionically-bonded onto the graftpolymer-modified PET substrate( Ceramics for Biomedical Applications in Asian Countries)
- Histological Evaluation of FK506 Eluting Polymer Covered Stents in Rabbits
- Laser perforated collagen membrane : pore size-dependent bone induction as a new BMP carrier
- Local elasticity imaging of vascular tissues using a tactile mapping system
- Development of biotube vascular grafts incorporating cuffs for easy implantation
- Development of sutureless vascular connecting system for easy implantation of small-caliber artificial grafts
- Differentiation from embryonic stem cells to vascular wall cells under in vitro pulsatile flow loading
- High-performance self-expanding stent graft : development and application to experimental aneurysms
- Local Delivery of Low-Dose ONO-4817, a Broad-Spectrum Matrix Metalloproteinase Inhibitor, Reduces Neointimal Hyperplasia Coupled with Decreased Collagen Deposition
- Local Drug Delivery for Prevention of Post-Angioplasty Restenosis
- Novel Functional Polymers: Poly(dimethylsiloxane)-Polyamide Multiblock Copolymer VI. A Transmission Electron Microscopic Study on Microphase-Separated Structure in Aramid-Silicone Resin
- Cell adhesion and tissue response to hydroxyapatite nanocrystal-coated poly (L-lactic acid) fabric(CELL AND TISSUE ENGINEERING)
- Development of in vivo tissue-engineered autologous tissue-covered stents : biocovered stents
- Development of novel covered stents using salmon collagen
- Photodimerization and Polymerization of PEG Derivatives through Radical Coupling using Photochemistry of Dithiocarbamate
- Surface elasticity imaging of vascular tissues in a liquid environment by a scanning haptic microscope
- Preparation of in-vivo tissue-engineered valved conduit with the sinus of Valsalva (type IV biovalve)
- Nano-scaled hydroxyapatite/polymer composite IV. Fabrication and cell adhesion properties of a three-dimensional scaffold made of composite material with a silk fibroin substrate to develop a percutaneous device
- In vivo evaluation of poly(N-isopropylacrylamide) (PNIPAM)-grafted gelatin as an in situ-formable scaffold
- Material design for an artificial extracellular matrix: cell entrapment in poly (N-isopropylacrylamide) (PNIPAM)-grafted gelatin hydrogel