메뉴 건너뛰기
Proceedings - IEEE International Conference on Robotics and Automation
Volumn , Issue , 2008, Pages 413-418
Fabrication of biodegradable scaffolds by use of self-assembled magnetic sugar particles as a casting template
Author keywords

[No Author keywords available]
Indexed keywords

ABS RESINS; ARSENIC COMPOUNDS; BIOCOMPATIBILITY; BLOOD VESSEL PROSTHESES; CELL CULTURE; INDUSTRIAL ENGINEERING; LEACHING; MAGNETIC FIELDS; MAGNETIC MATERIALS; MAGNETISM; POLYMERS; POROSITY; ROBOTICS; SUGAR (SUCROSE); SUGARS; TISSUE ENGINEERING;
EID: 51649127774     PISSN: 10504729     EISSN: None     Source Type: Conference Proceeding    
DOI: 10.1109/ROBOT.2008.4543242     Document Type: Conference Paper
Times cited : (6)
References (20)
  • 1
    • 0027595948 scopus 로고
    • Tissue engineering
    • R. Langer, J.P. Vacanti, "Tissue engineering", Science 260, 920-926 (1993)
    • (1993) Science , vol.260 , pp. 920-926
    • Langer, R.1    Vacanti, J.P.2
  • 2
    • 18244366662 scopus 로고    scopus 로고
    • Tissue engineering - Current challenges and expanding opportunities
    • L.G. Griffith, G. Naughton, "Tissue engineering - Current challenges and expanding opportunities", Science 295, 1009-1014 (2002)
    • (2002) Science , vol.295 , pp. 1009-1014
    • Griffith, L.G.1    Naughton, G.2
  • 4
    • 33646579099 scopus 로고    scopus 로고
    • Macroporous elastomeric scaffolds with extensive micropores for soft tissue engineering
    • J. Gao, P.M. Crapo, Y.D. Wang, "Macroporous elastomeric scaffolds with extensive micropores for soft tissue engineering", Tissue Eng. 12, 917-925 (2006)
    • (2006) Tissue Eng , vol.12 , pp. 917-925
    • Gao, J.1    Crapo, P.M.2    Wang, Y.D.3
  • 5
    • 2942557446 scopus 로고    scopus 로고
    • Mesoscopic spatial designs of nano- and microfiber meshes for tissue engineering matrix and scaffold based on newly devised multilayering and mixing electrospinning techniques
    • S. Kidoaki, I.K. Kwon, T. Matsuda, "Mesoscopic spatial designs of nano- and microfiber meshes for tissue engineering matrix and scaffold based on newly devised multilayering and mixing electrospinning techniques", Biomaterials 26, 37-46 (2005)
    • (2005) Biomaterials , vol.26 , pp. 37-46
    • Kidoaki, S.1    Kwon, I.K.2    Matsuda, T.3
  • 6
    • 0027575137 scopus 로고
    • Laminated three-dimensional biodegradable foams for use in tissue engineering
    • A.G. Mikos, G. Sarakinos, S.M. Leite, J.P. Vacanti, R. Langer, "Laminated three-dimensional biodegradable foams for use in tissue engineering", Biomaterials 14, 323-330 (1993)
    • (1993) Biomaterials , vol.14 , pp. 323-330
    • Mikos, A.G.1    Sarakinos, G.2    Leite, S.M.3    Vacanti, J.P.4    Langer, R.5
  • 9
    • 0032874505 scopus 로고    scopus 로고
    • Biodegradable polymeric microcellular foams by modified thermally induced phase separation method
    • Y.S. Nam, T.G. Park, "Biodegradable polymeric microcellular foams by modified thermally induced phase separation method", Biomaterials 20, 1783-1790 (1999)
    • (1999) Biomaterials , vol.20 , pp. 1783-1790
    • Nam, Y.S.1    Park, T.G.2
  • 10
    • 0036191698 scopus 로고    scopus 로고
    • Salt fusion: An approach to improve pore connectivity with tissue engineering scaffolds
    • W.L. Murphy, R.G. Dennis, J.L. Kileny, D.J. Mooney, "Salt fusion: An approach to improve pore connectivity with tissue engineering scaffolds", Tissue Eng. 8, 43-52 (2002)
    • (2002) Tissue Eng , vol.8 , pp. 43-52
    • Murphy, W.L.1    Dennis, R.G.2    Kileny, J.L.3    Mooney, D.J.4
  • 11
    • 33745936923 scopus 로고    scopus 로고
    • Macroporous and nanofibrous polymer scaffolds and polymer/bone-like apatite composite scaffolds generated by sugar spheres
    • G.B. Wei, P.X. Ma, "Macroporous and nanofibrous polymer scaffolds and polymer/bone-like apatite composite scaffolds generated by sugar spheres", J. Biomed. Mater. Res. A, 78A, 306-315
    • J. Biomed. Mater. Res. A , vol.78 A , pp. 306-315
    • Wei, G.B.1    Ma, P.X.2
  • 12
    • 33751563138 scopus 로고    scopus 로고
    • Magnetically-Guided Self-Assembly of Fibrin Matrices with Ordered Nano-Scale Structure for Tissue Engineering
    • E. Alsberg, E. Feinstein, M.P. Joy, M. Prentiss, D.E. Ingber, "Magnetically-Guided Self-Assembly of Fibrin Matrices with Ordered Nano-Scale Structure for Tissue Engineering", Tissue Eng. 12, 3247-3255 (2006)
    • (2006) Tissue Eng , vol.12 , pp. 3247-3255
    • Alsberg, E.1    Feinstein, E.2    Joy, M.P.3    Prentiss, M.4    Ingber, D.E.5
  • 13
    • 27744521654 scopus 로고    scopus 로고
    • Novel methodology for fabrication of tissue-engineered tubular constructs using magnetite nanoparticles and magnetic force
    • A. Ito, K. Ino, M. Hayashida, T. Kobayashi, H. Matsunuma, H. Kagami, M. Ueda, H. Honda, "Novel methodology for fabrication of tissue-engineered tubular constructs using magnetite nanoparticles and magnetic force", Tissue Eng. 11, 1553-1561 (2005)
    • (2005) Tissue Eng , vol.11 , pp. 1553-1561
    • Ito, A.1    Ino, K.2    Hayashida, M.3    Kobayashi, T.4    Matsunuma, H.5    Kagami, H.6    Ueda, M.7    Honda, H.8
  • 14
    • 34147114353 scopus 로고    scopus 로고
    • Photo-patterning of porous hydrogels for tissue engineering
    • S.J. Bryant, J.L. Cuy, K.D. Hauch, B.D. Ratner, "Photo-patterning of porous hydrogels for tissue engineering", Biomaterials 28, 2978-2986 (2007)
    • (2007) Biomaterials , vol.28 , pp. 2978-2986
    • Bryant, S.J.1    Cuy, J.L.2    Hauch, K.D.3    Ratner, B.D.4
  • 16
    • 34547603913 scopus 로고    scopus 로고
    • Cell patterning using magnetite nanoparticles and magnetic force
    • K. Ino, A. Ito, H. Honda, "Cell patterning using magnetite nanoparticles and magnetic force", Biotechnol. Bioeng. 97, 1309-1317 (2007)
    • (2007) Biotechnol. Bioeng , vol.97 , pp. 1309-1317
    • Ino, K.1    Ito, A.2    Honda, H.3
  • 17
    • 37349121722 scopus 로고    scopus 로고
    • Cell culture arrays using magnetic force-based cell patterning for dynamic single cell analysis
    • K. Ino, M. Okochi, N. Konishi, M. Nakatochi, R. Imai, M. Shikida, A. Ito, H. Honda, "Cell culture arrays using magnetic force-based cell patterning for dynamic single cell analysis", Lab Chip 8, 134-142 (2008)
    • (2008) Lab Chip , vol.8 , pp. 134-142
    • Ino, K.1    Okochi, M.2    Konishi, N.3    Nakatochi, M.4    Imai, R.5    Shikida, M.6    Ito, A.7    Honda, H.8
  • 18
    • 33750195930 scopus 로고    scopus 로고
    • The effect of gradually graded shear stress on the morphological integrity of a huvec-seeded compliant small-diameter vascular graft
    • H. Inoguchi, T. Tanaka, Y. Maehara, T. Matsuda, "The effect of gradually graded shear stress on the morphological integrity of a huvec-seeded compliant small-diameter vascular graft", Biomaterials 28, 486-495 (2007)
    • (2007) Biomaterials , vol.28 , pp. 486-495
    • Inoguchi, H.1    Tanaka, T.2    Maehara, Y.3    Matsuda, T.4
  • 19
    • 11144281219 scopus 로고    scopus 로고
    • Electrospun nano- to microfiber fabrics made of biodegradable copolyesters: Structural characteristics, mechanical properties and cell adhesion potential
    • I.K. Kwon, S. Kidoaki, T. Matsuda, "Electrospun nano- to microfiber fabrics made of biodegradable copolyesters: structural characteristics, mechanical properties and cell adhesion potential", Biomaterials 26, 3929-3939 (2005)
    • (2005) Biomaterials , vol.26 , pp. 3929-3939
    • Kwon, I.K.1    Kidoaki, S.2    Matsuda, T.3
  • 20
    • 0038164265 scopus 로고    scopus 로고
    • Caoxial double-tubular compliant arterial graft prosthesis: Time-dependent morphogenesis and compliance changes after implantation
    • H. Sonoda, K. Takamizawa, Y. Nakayama, H. Yasui, T. Matsuda, "Caoxial double-tubular compliant arterial graft prosthesis: time-dependent morphogenesis and compliance changes after implantation", J. Biomed. Mater. Res. A 65A, 170-181 (2003)
    • (2003) J. Biomed. Mater. Res. A , vol.65 A , pp. 170-181
    • Sonoda, H.1    Takamizawa, K.2    Nakayama, Y.3    Yasui, H.4    Matsuda, T.5

* 이 정보는 Elsevier사의 SCOPUS DB에서 KISTI가 분석하여 추출한 것입니다.