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Tissue Engineering of a Trileaflet Heart Valve—Early In Vitro Experiences with a Combined Polymer

1999; Mary Ann Liebert, Inc.; Volume: 5; Issue: 5 Linguagem: Inglês

10.1089/ten.1999.5.489

1557-8690

Ralf Sodian, Jason S. Sperling, David P. Martin, Ulrich A. Stock, John E. Mayer, Joseph P. Vacanti,

Cardiac Valve Diseases and Treatments

Tissue EngineeringVol. 5, No. 5 Tissue Engineering of a Trileaflet Heart Valve—Early In Vitro Experiences with a Combined PolymerRalf Sodian, Jason S. Sperling, David P. Martin, Ulrich Stock, John E. MayerJr., and Joseph P. VacantiRalf Sodian, Jason S. Sperling, David P. Martin, Ulrich Stock, John E. MayerJr., and Joseph P. VacantiPublished Online:16 Jan 2007https://doi.org/10.1089/ten.1999.5.489AboutSectionsPDF/EPUB Permissions & CitationsPermissionsDownload CitationsTrack CitationsAdd to favorites Back To Publication ShareShare onFacebookXLinked InRedditEmail FiguresReferencesRelatedDetailsCited byStrategies for development of synthetic heart valve tissue engineering scaffoldsProgress in Materials Science, Vol. 139Heart valves from polymeric fibers: potential and limitsThe Journal of Cardiovascular Surgery, Vol. 61, No. 5Biologically Inspired Scaffolds for Heart Valve Tissue Engineering via Melt Electrowriting6 May 2019 | Small, Vol. 15, No. 24Properties of biobased packaging materialMedical grade biodegradable polymers: A perspective from gram-positive bacteriaMedical Textiles as Substrates for Tissue Engineering19 October 2017Poly(lactic acid) as Biomaterial for Cardiovascular Devices and Tissue Engineering Applications1 August 2017Bioplastics: A Sustainable Approach Toward Healthier Environment3 June 2017Relative Effects of Fluid Oscillations and Nutrient Transport in the In Vitro Growth of Valvular Tissues8 February 2016 | Cardiovascular Engineering and Technology, Vol. 7, No. 2Regeneration ability of valvular interstitial cells from diseased heart valve leaflets1 January 2016 | RSC Advances, Vol. 6, No. 115Current progress in tissue engineering of heart valves: multiscale problems, multiscale solutions1 June 2015 | Expert Opinion on Biological Therapy, Vol. 15, No. 8Biopolymers in Medical Implants20 September 2015Polyhydroxyalkanoates as Potential Biomaterials for Neural Tissue Regeneration30 June 2014 | International Journal of Polymeric Materials and Polymeric Biomaterials, Vol. 63, No. 17Aortic Heart Valve Tissue Regeneration8 May 2014Effect of high porosity on biodegradation of poly (4-hydroxybutyrate) in vivo5 August 2013 | Journal of Biomaterials Applications, Vol. 28, No. 7Medical applications of biopolyesters polyhydroxyalkanoates20 April 2013 | Chinese Journal of Polymer Science, Vol. 31, No. 5Recovery of poly(3‐hydroxybutyrate‐ co ‐3‐hydroxyhexanoate) from Ralstonia eutropha cultures with non‐halogenated solvents24 September 2012 | Biotechnology and Bioengineering, Vol. 110, No. 2Examination of PHB Depolymerases in Ralstonia eutropha: Further Elucidation of the Roles of Enzymes in PHB Homeostasis26 April 2012 | AMB Express, Vol. 2, No. 1Rapid 3D printing of anatomically accurate and mechanically heterogeneous aortic valve hydrogel scaffolds23 August 2012 | Biofabrication, Vol. 4, No. 3Aortic valve disease and treatment: The need for naturally engineered solutionsAdvanced Drug Delivery Reviews, Vol. 63, No. 4-5Bioengineering Challenges for Heart Valve Tissue EngineeringAnnual Review of Biomedical Engineering, Vol. 11, No. 1Getting to the Heart of Tissue Engineering29 January 2008 | Journal of Cardiovascular Translational Research, Vol. 1, No. 1CURRENT DEVELOPMENTS AND FUTURE CHALLENGES FOR THE CREATION OF AORTIC HEART VALVE21 November 2011 | Journal of Mechanics in Medicine and Biology, Vol. 08, No. 01Proliferation, Osteogenic Differentiation, and Distribution of Rat Bone Marrow Stromal Cells in Nonwoven Fabrics by Different Culture Methods Norihisa Ichinohe, Tomoaki Takamoto, and Yasuhiko Tabata6 February 2008 | Tissue Engineering Part A, Vol. 14, No. 1Proliferation, Osteogenic Differentiation, and Distribution of Rat Bone Marrow Stromal Cells in Nonwoven Fabrics by Different Culture MethodsTissue Engineering, Vol. 14, No. 1Engineering the heart piece by piece: state of the art in cardiac tissue engineeringRegenerative Medicine, Vol. 2, No. 2The use of polymer based scaffolds in tissue-engineered heart valvesProgress in Pediatric Cardiology, Vol. 21, No. 2In vitro study on hemocompatibility and cytocompatibility of poly(3-hydroxybutyrate-co-3-hydroxyhexanoate)2 April 2012 | Journal of Biomaterials Science, Polymer Edition, Vol. 17, No. 10Regenerative Medicine Approach to Heart Valve ReplacementCirculation, Vol. 111, No. 21Tissue Engineered HeartBiomechanical Considerations for Tissue Engineered Heart Valve BioreactorsApplication of Tissue-Engineering Principles toward the Development of a Semilunar Heart Valve Substitute Christopher K. Breuer, Bret A. Mettler, Tiffany Anthony, Virna L. Sales, Frederick J. Schoen, and John E. Mayer28 December 2004 | Tissue Engineering, Vol. 10, No. 11-12Three-Dimensional BioAssembly Tool for Generating Viable Tissue-Engineered Constructs Cynthia M. Smith, Alice L. Stone, Robert L. Parkhill, Robert L. Stewart, Mark W. Simpkins, Anatoly M. Kachurin, William L. Warren, and Stuart K. 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Sperling, David P. Martin, Ulrich Stock, John E. MayerJr., and Joseph P. Vacanti.Tissue Engineering of a Trileaflet Heart Valve—Early In Vitro Experiences with a Combined Polymer.Tissue Engineering.Oct 1999.489-493.http://doi.org/10.1089/ten.1999.5.489Published in Volume: 5 Issue 5: January 16, 2007PDF download