Description
Humana Press Inc. Tissue Engineering by Hansjoerg Hauser
This book provides a comprehensive volume that integrates a wide spectrum of methods required to implement current and future progress in tissue engineering. Leading experts in various disciplines provide examples of recent advances in tissue engineering-related methodologies. Authors present authoritative discussions on topics. The book supplies an understanding of diverse technologies and methods used to drive tissue engineering into a clinical reality. The knowledge contained in this volume represents the impressive progress made in the decade when tissue engineering rapidly evolved._x000D_ _x000D_
Contents_x000D_
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Contributors_x000D_
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In Vitro Expansion of Tissue Cells by Conditional Proliferation_x000D_
Tobias May, Hansjoerg Hauser, and Dagmar Wirth_x000D_
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Stem Cell Engineering using Transducible Cre Recombinase_x000D_
Lars Nolden, Frank Edenhofer, Michael Peitz, and Oliver Brustle_x000D_
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Human Embryonic Stem Cells for Tissue Engineering_x000D_
Daniel Kitsberg_x000D_
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Culture and Characterisation of Human Bone Marrow Mesenchymal Stem Cells_x000D_
Bruno Delorme and Pierre Charbord_x000D_
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Skeletal ('Mesenchymal') Stem Cells for Tissue Engineering_x000D_
Pamela Gehron Robey, Sergei A. Kuznetsov, Mara Riminucci,_x000D_
and Paolo Bianco_x000D_
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Biomaterials/Scaffolds_x000D_
Design of Bioactive, Multiphasic PCL/collagen Type I and Type II -_x000D_
PCL-TCP/collagen Composite Scaffolds for Functional Tissue Engineering_x000D_
of Osteochondral Repair Tissue by Using Electrospinning and FDM_x000D_
Techniques_x000D_
Detlef Schumann, Andrew K. Ekaputra, Christopher X.F. Lam, and Dietmar_x000D_
W. Hutmacher_x000D_
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Synthetic Hydrogel Matrices for Guided Bladder Tissue Regeneration_x000D_
Catharina A.M. Adeloew, and Peter Frey_x000D_
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Generation of Multicellular Tumour Spheroids by the Hanging Drop Method_x000D_
Nicholas E. Timmins and Lars K. Nielsen_x000D_
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In-vitro Vascularization of Human Connective Microtissues_x000D_
Jens M. Kelm, Wolfgang Moritz, Doerthe Schmidt, Simon P. Hoerstrup, and_x000D_
Martin Fussenegger_x000D_
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Artificial Skin_x000D_
Matthias Foehn and Holger Bannasch_x000D_
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Small Blood Vessel Engineering_x000D_
Patrick Au, Josh Tam, Dai Fukumura, and Rakesh K Jain_x000D_
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Artificial Pancreas to Treat Type 1 Diabetes Mellitus_x000D_
Riccardo Calafiore and Giuseppe Basta_x000D_
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Human Articular Chondrocytes Culture_x000D_
Andrea Barbero and Ivan Martin_x000D_
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Cardiomyocytes from Human and Mouse Embryonic Stem Cells_x000D_
Christine Mummery, Marcel A.G. van der Heyden, Teun P. de Boer, Robert_x000D_
Passier, Dorien Ward, Stieneke van den Brink, Marga van Rooijen, Anja_x000D_
van de Stolpe_x000D_
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Myocardial Restoration and Tissue Engineering of HeartStructures_x000D_
Theo Kofidis, Knut Muller-Stahl, and Axel Haverich_x000D_
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Practical Aspects of Cardiac Tissue Engineering with Electrical_x000D_
Stimulation_x000D_
Christopher Cannizzaro, Nina Tandon, Elisa Figallo, Hyoungshin Park,_x000D_
Sharon Gerecht, Milica Radisic, Nicola Elvassore, and Gordana_x000D_
Vunjak-Novakovic_x000D_
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Biological Scaffolds for Heart Valve Tissue Engineering_x000D_
Artur Lichtenberg, Serghei Cebotari, Igor Tudorache, Andres Hilfiker,_x000D_
and Axel Haverich_x000D_
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In Vitro Heart Valve Tissue Engineering_x000D_
Doerthe Schmidt, Anita Mol, Jens M. Kelm, and Simon P. Hoerstrup_x000D_