| Record ID | marc_columbia/Columbia-extract-20221130-011.mrc:91402633:6002 |
| Source | marc_columbia |
| Download Link | /show-records/marc_columbia/Columbia-extract-20221130-011.mrc:91402633:6002?format=raw |
LEADER: 06002cam a22003374a 4500
001 5214590
005 20221109233916.0
008 040528t20052005flua b 001 0 eng
010 $a 2004051969
020 $a0849319366 (alk. paper)
035 $a(OCoLC)ocm55633604
035 $a(NNC)5214590
035 $a5214590
040 $aDLC$cDLC$dCUX$dNNC$dOrLoB-B
042 $apcc
050 00 $aR857.T55$bB556 2005
082 00 $a610/.28$222
245 00 $aBiodegradable systems in tissue engineering and regenerative medicine /$cedited by Rui L. Reis, Julio San Román.
260 $aBoca Raton, FL :$bCRC Press,$c[2005], ©2005.
300 $a568 pages :$billustrations ;$c26 cm
336 $atext$btxt$2rdacontent
337 $aunmediated$bn$2rdamedia
504 $aIncludes bibliographical references and index.
505 00 $gCh. 1.$tBiodegradable polymers in medicine /$rMasakazu Suzuki and Yoshito Ikada -- $gCh. 2.$tInjectable biodegradable systems /$rL. F. Boesel and Rui L. Reis -- $gCh. 3.$tInjectable polymeric scaffolds for bone tissue engineering /$rManuela E. Gomes, Rui L. Reis and Antonios G. Mikos -- $gCh. 4.$tTotally or partially biodegradable self-polymerizing composites for orthopedic surgery and dental applications /$rBlanca Vazquez, Gustavo A. Abraham, Carlos Elvira and Julio San Roman -- $gCh. 5.$tFiber bonding and particle aggregation as promising methodologies for the fabrication of biodegradable scaffolds for hard-tissue engineering /$rManuela E. Gomes, Patricia B. Malafaya and Rui L. Reis -- $gCh. 6.$tDesign and fabrication of scaffolds via solid free-form fabrication /$rDietmar W. Hutmacher -- $gCh. 7.$tBiodegradable composites for biomedical applications /$rN. M. Neves, J. F. Mano and Rui L. Reis -- $gCh. 8.$tDevelopment of bioactive composites based on biodegradable systems for bone replacement applications /$rI. B. Leonor, R. A. Sousa and Rui L. Reis -- $gCh. 9.$tMechanical characterization of biomaterials /$rJ. F. Mano, N. M. Neves and Rui L. Reis -- $gCh. 10.$tChitosan-based microcomposites - from biodegradable microparticles to self-curing hydrogels /$rAlberto Gallardo, Maria Rosa Aguilar, Carlos Elvira, Carlos Peniche and Julio San Roman -- $gCh. 11.$tProcessing and biomedical applications of degradable polymeric fibers /$rK. Tuzlakoglu and Rui L. Reis -- $gCh. 12.$tUnderstanding the enzymatic degradation of biodegradable polymers and strategies to control their degradation rate /$rHelena S. Azevedo and Rui L. Reis -- $gCh. 13.$tBonelike apatite coatings nucleated on biodegradable polymers as a way to induce bone mineralization : current developments and future trends /$rA. L. Oliveira and Rui L. Reis -- $gCh. 14.$tBiomimetic coatings, proteins, and biocatalysts : a new approach to tailor the properties of biodegradable polymers /$rI. B. Leonor, Helena S. Azevedo, Catarina M. Alves and Rui L. Reis -- $gCh. 15.$tStrategies for delivering bone and cartilage regenerating factors /$rPatricia B. Malafaya, Gabriela A. Silva and Rui L. Reis -- $gCh. 16.$tResorbable polymeric delivery systems based on physical absorption/diffusion versus chemically controlled delivery systems /$rJulio San Roman, Alberto Gallardo, Carlos Elvira, Blanca Vazquez and Gustavo A. Abraham -- $gCh. 17.$tEnzyme immobilization in biodegradable polymers for biomedical applications /$rS. A. Costa, Helena S. Azevedo and Rui L. Reis -- $gCh. 18.$tUse of chemically modified chitosan and other natural-origin polymers in tissue engineering and drug delivery /$rE. T. Baran and Rui L. Reis -- $gCh. 19.$tCytotoxicity screening of biodegradable polymeric systems /$rGabriela A. Silva, A. P. Marques, Manuela E. Gomes, O. P. Coutinho and Rui L. Reis -- $gCh. 20.$tNatural-origin degradable materials : the barrier or the passage through the immune system? /$rA. P. Marques, J. A. Hunt and Rui L. Reis -- $gCh. 21.$tMediation of the cytokine network in the implantation of orthopedic devices /$rA. P. Marques, J. A. Hunt and Rui L. Reis -- $gCh. 22.$tProtein and cell interactions with biodegradable systems /$rCatarina M. Alves and Rui L. Reis -- $gCh. 23.$tSurface activation and modification - a way for improving the biocompatibility of degradable biomaterials /$rI. Pashkuleva and Rui L. Reis -- $gCh. 24.$tBone and articular cartilage tissue engineering : the biological components /$rA. J. Salgado, Manuela E. Gomes, O. P. Coutinho and Rui L. Reis -- $gCh. 25.$tTissue engineering of the liver /$rY. Murat Elcin -- $gCh. 26.$tSmart biodegradable hydrogels with applications in drug delivery and tissue engineering /$rCarlos Elvira, Gustavo A. Abraham, Alberto Gallardo and Julio San Roman -- $gCh. 27.$tSkin tissue engineering part I - review /$rDietmar W. Hutmacher, K. W. Ng and H. L. Khor -- $gCh. 28.$tSkin tissue engineering part II - the In vitro evaluation of natural and synthetic 3-d matrices as dermal substrates /$rK. W. Ng, H. L. Khor and Dietmar W. Hutmacher -- $gCh. 29.$tBiodegradable polymers for guided nerve regeneration /$rK. Tuzlakoglu and Rui L. Reis.
520 1 $a"Biodegradable Systems in Tissue Engineering and Regenerative Medicine presents an extensive description of biodegradable polymers used in medicine and explores their design, development, and processing. The authors discuss the performance of biodegradable systems and the special requirements that should be taken into account when evaluating their biocompatibility. Included are several methodologies for tailoring cell adhesion and proliferation on the surface of biodegradable polymers."--BOOK JACKET.
650 0 $aTissue engineering.$0http://id.loc.gov/authorities/subjects/sh2003001133
650 0 $aPolymers in medicine.$0http://id.loc.gov/authorities/subjects/sh85104678
650 0 $aBiodegradable plastics.$0http://id.loc.gov/authorities/subjects/sh2001002928
700 1 $aReis, Rui L.$0http://id.loc.gov/authorities/names/n2002159105
700 1 $aSan Román, Julio.$0http://id.loc.gov/authorities/names/n2004009463
852 00 $boff,eng$hR857.T55$iB556 2005