Principles of tissue engineering

Principles of tissue engineering

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Format: Buch
Sprache:English
Veröffentlicht: San Diego [u.a.] Academic Press 2000
Ausgabe:2. ed.
Schlagworte:
Cellules - Biotechnologie
Greffe (Chirurgie)
Tissus (Histologie) - Culture
Tissus (histologie)
Animal cell biotechnology
Biocompatible Materials
Biomedical Engineering
Cell Transplantation
Culture Techniques
Tissue Transplantation
Tissue engineering
Transplantation of organs, tissues, etc
Implantat
Transplantat
Tissue Engineering
Gewebekultur
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Datensatz im Suchindex

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adam_text I CONTENTS =——= Contributors xxi Foreword xxix Preface to the Second Edition xxxi Preface to the First Edition xxxiii Tissue Engineering in Perspective xxxv Eugene Bell Origins of Tissue Engineering xxxv The Tissue Engineering Triad xxxv What Parts of the Body Can Tissue Engineering Replace? xxxvi Acellular Prostheses xxxvii The Relevance of Developmental Biology xxxvii Can Nature Be Imitated? xxxviii The Need for Vascularization in Vitro and in Vivo xxxix Stem Cells xxxix Cell Signaling xxxix Looking Forward xl References xl Introduction to Tissue Engineering 1 1. The History and Scope of Tissue Engineering 3 Joseph P. Vacanti and Charles A. Vacanti Introduction 3 Scientific Challenges 4 General Scientific Issues 6 Social Challenges 6 References 7 2. The Challenge of Imitating Nature 9 Robert M. Nerem Introduction 9 Cell Technology 10 Construct Technology 12 Integration into the Living System 13 Concluding Discussion 14 References 15 Part I. The Basis of Growth and Differentiation 17 3. Organization of Cells into Higher Ordered Structures 19 Carol A. Erickson Introduction 19 Cellular Changes Involved in the EMT 20 Stimuli of the Transformation 24 Conclusion 26 References 27 4. Dynamics of Cell ECM Interactions 33 Manuela Martins Green Introduction 33 Composition and Diversity of the ECM 34 Receptors for Extracellular Matrix Molecules 34 Cell ECM Interactions 36 Signal Transduction Events during Cell—ECM Interactions 42 Relevance for Tissue Engineering 46 References 48 5. Matrix Molecules and Their Ligands 57 Bjb rn Reino Olsen Introduction 57 Fibrillar Collagens: Major Scaffold Proteins in the ECM 58 Elastic Fibers and Microfibrils 63 Fibronectin: A Multidomain, Multifunctional Adhesive ECM Glycoprotein 63 Laminins: Large, Adhesive Basement Membrane Molecules 64 Modulators of Cell—Matrix Interactions 66 Proteoglycans: Multifunctional ECM and Cell Surface Molecules...67 Summary 68 References 68 6. Inductive Phenomena 73 Matthias Hebrok and Douglas A. Melton Introduction 73 Epithelial to Mesenchymal Signaling in Endoderm Development...73 Lung Development and Instructive Signaling 73 Permissive Signaling during Pancreas Development 75 References 78 7. Morphogenesis and Tissue Engineering 81 A. H. Reddi Introduction 81 Bone Morphogenetic Proteins 82 Cartilage Derived Morphogenetic Proteins 84 Pleitropy and Thresholds 85 BMPs Bind to Extracellular Matrix 85 BMPs: Actions Beyond Bone 85 BMP Receptors 85 Responding Stem Cells 86 Morphogens and Gene Therapy 87 Biomimetic Biomaterials 87 Tissue Engineering of Bones and Joints 88 Future Challenges 88 References 89 8. Cell Determination and Differentiation 93 Leon W. Browder Introduction 93 Roles of MRFs during Embryogenesis 94 Initiation of Skeletal Muscle Development 95 References 96 Part II: In Vitro Control of Tissue Development 99 9. Mechanical and Chemical Determinants of Tissue Development 101 Donald E. Ingber Introduction 101 Extracellular Matrix Structure and Function 101 Pattern Formation through ECM Remodeling 104 Mechanochemical Switching between Growth and Differentiation 105 Summary 107 References 108 10. Animal Cell Culture Ill Gordon H. Sato and David W. Barnes References 116 11. Regulation of Cell Behavior by Matricellular Proteins 119 Amy D. Bradshaw and E. Helene Sage Introduction 119 Matricellular Proteins 119 Conclusions 124 References 125 12. Growth Factors 129 Thomas F Deuel and Nan Zhang Introduction 129 Wound Healing 130 Role of Basic Fibroblast Growth Factor and Angiogenesis 136 Other Roles of Growth Factors and Cytokines 137 Conclusions 137 References 137 13. Tissue Engineering Bioreactors 143 Lisa E. Freed and Gordana Vunjak Novakovic Introduction 143 Cell Polymer Constructs 143 Bioreactor Technologies 144 Bioreactor Modulation of Tissue Formation 147 Bioreactor Cultivation of Functional Tissues 151 Tissue Engineering Bioreactors: State of the Art 152 Summary and Research Needs 154 References 154 14. Tissue Assembly in Microgravity 157 Brian R. Unsworth and Peter I. Lelkes Introduction 157 Microgravity as a Novel Tissue Culture Venue 158 Vascularization: Overcoming Size Limitations of Tissue Assemblies 159 From Single Cells to Tissues in Space 159 In Vitro Embryology 160 Gravitational Sensing 161 Caveats 161 Conclusions 162 References 162 Part III: In Vivo Synthesis of Tissues and Organs 165 15. In Vivo Synthesis of Tissues and Organs 167 Ioannis V. Yannas Scale of Functional Deficit: Macromolecule versus Organ 167 Basic Parameters of the Living Environment during in Vivo Organ Synthesis 168 Fundamental Design Principles for Tissue and Organ Regeneration Templates 170 Examples of in Vivo Organ Synthesis 174 Summary 177 References 177 Part IV. Models for Tissue Engineering 179 16. Organotypic and Histiotypic Models of Engineered Tissues 181 Eugene Bell Introduction 181 The Collagen Gel Model 181 Models of Cell Interactions in Collagen Lattices 182 Other Types of Epithelial Mesenchymal Models 184 Vascular Models 186 Selection of Scaffolds Other Than Gels for Model Systems 188 Cell Signaling and the Enrichment of Scaffolds 189 Goals and Uses of Model Tissue and Organ Building 190 References 191 17. Quantitative Aspects of Tissue Engineering: Basic Issues in Kinetics, Transport, and Mechanics 195 AlanJ. Grodzinsky, Roger D. Kamm, and Douglas A. Lauffenburger Introduction 195 Molecular Interactions with Cells 196 Molecular and Cell Transport through Tissue 198 Cell and Tissue Mechanics 201 References 205 Part V. Biomaterials in Tissue Engineering 207 18. Patterning of Cells and Their Environment 209 Shuichi Takayama, Robert G. Chapman, Ravi S. Kane, and George M. Whitesides Introduction 209 Soft Lithography 209 Self Assembled Monolayers 210 Microcontact Printing 212 Microfluidic Patterning 214 Laminar Flow Patterning 216 Conclusion and Future Prospects 217 References 218 19. Cell Interactions with Polymers 221 W. Mark Saltzman Introduction 221 Methods for Characterizing Cell Interactions with Polymers 221 Cell Interaction with Polymer Surfaces 224 Cell Interactions with Polymers in Suspension 229 Cell Interactions with Three Dimensional Polymer Scaffolds and Gels 230 References 231 20. Matrix Effects 237 Jeffrey A Hubbell Introduction 237 Extracellular Matrix Proteins and Their Receptors 237 Model Systems for Study of Matrix Interactions 242 Cell Pattern Formation by Substrate Patterning 244 Signal Transduction and Functional Regulation via the Extracellular Matrix 244 Translation to Working Biomaterial Systems 246 References 246 21. Polymer Scaffold Processing 251 Robert C. Thomson, Albert K. Shung, Michael J. Yaszemski, andAntonios G. Mikos Introduction 251 Fiber Bonding 252 Solvent Casting and Paniculate Leaching 253 Membrane Lamination 255 Melt Molding 256 Extrusion 256 Three Dimensional Printing 257 Gas Foaming 257 Freeze Drying 258 Phase Separation 258 Polymer/Ceramic Composite Foams 259 In Situ Polymerization 260 Conclusions 261 References 261 22. Biodegradable Polymers 263 James M. Pachence and Joachim Kohn Introduction 263 Biodegradable Polymer Selection Criteria 263 Biologically Derived Bioresorbables 264 Experimental Biologically Derived Bioresorbables 266 Creating Materials for Tissue Engineered Products 273 Conclusion 274 References 274 Part VI. Transplantation of Engineered Cells and Tissues 279 23. Approaches to Transplanting Engineered Cells and Tissues 281 Janet Hardin Young, Jeffrey Teumer, RobertN. Ross, and Nancy L. Parenteau Introduction 281 Developing Workable Strategies 281 Mode of Action—An Important Design Consideration 283 Role of the Host 284 Source of Cells 285 The Immunology of Nonautologous Cells 287 Safety Considerations 288 Conclusion 288 References 289 24. Cryopreservation 293 Jens O. M. Karlsson and Mehmet Toner Introduction 293 Applications of Cryopreservation Technology in Tissue Engineering 293 Challenges in Cryopreservation Protocol Development 294 Cryobiology of Cells 295 Cryobiology of Tissue 302 Summary and Future Directions 304 References 305 25. Immunomodulation 309 Denise Faustman Introduction 309 Origin of the Designer Tissue Concept 310 Expansion of Research on Designer Tissues 311 Mechanisms of Graft Survival after Class I Donor Ablation or Antibody Masking 314 The Launching of Xenogeneic Human Clinical Trials in the United States Using Immunomodulation 316 Gene Addition 317 RNA Ablation 317 Comment 318 References 318 26. Immunoisolation 321 Beth A. Zielinski and Michael J. Lysaght Introduction 321 Technology 321 Clinical 323 Future Directions 326 References 328 27. Engineering Challenges in Immunoisolation Device Development 331 Efitathios S. Avgoustiniatos, Haiyan Wu, and Clark K. Colton Introduction 331 Engineering Challenges 331 Oxygen Supply Limitations 336 Theoretical Analysis of in Situ Oxygen Generation 339 Calculations 345 Concluding Remarks 348 References 348 Part VII. Fetal Tissue Engineering 35I 28. Fetal Tissue Engineering 353 Dario O. Fauza Introduction 353 General Characteristics of Fetal Cells 354 The Fetus as a Transplantation Host 355 Fetal Tissue Engineering 357 Ethical Considerations 360 Future Perspectives 363 References 364 29. Pluripotent Stem Cells 369 Michael J. Shamblott, Brian E. Edwards, and John D. Gearhart Introduction 369 Differentiation in Vitro 371 Examples of in Vitro Differentiation and Markers 374 In Vivo Applications 376 Summary and Future Prospects 378 References 378 Part VIII. Gene Therapy 383 30. Gene Based Therapeutics 385 Lee G. Fradkin, J. Dezz Ropp, and John E Warner Introduction 385 Gene Delivery 386 Persistent Gene Expression 390 Safety Considerations for Gene Based Therapeutics 394 Large Scale Production Issues 396 Conclusion 397 References 397 Part IX. Breast 407 31. Breast Reconstruction 409 Kuen Yong Lee, Craig R. Halberstadt, Walter D. Holder, and David J. Mooney Introduction 409 Cell Types for Soft Tissue Engineering 410 Materials 412 Animal Models • 417 Strategies to Enhance the Vascularization of Engineered Tissue 419 Concluding Remarks 420 References 420 Part X. Cardiovascular System 425 32. Bloodvessels 427 Lian Xue and Howard P. Greisler Introduction 427 Graft Healing 428 Strategies for the Development of Vascular Grafts 432 References 441 33. Small Diameter Vascular Grafts 447 Susan J. Sullivan and Kelvin G. M. Brockbank Introduction 447 Synthetic Grafts 448 In Vitro Blood Vessel Tissue Engineering 448 In VwoTissue Engineering of Blood Vessels 449 Summary 453 References 453 34. Cardiac Prostheses 455 Jack W. Love Introduction 455 A Short History of Tissue Heart Valves 456 The Status of Tissue Valves in 1999 459 The Issue of Whether to Use a Stent 461 The Issue of Repair versus Replacement 463 Speculation about the Future 463 Recent Developments 464 The Ideal Valve Repair or Replacement 465 References 466 Part XI. Cornea 469 35. Cornea 471 Vickery Trinkaus Randall Introduction 471 Biology of the Cornea 473 Criteria for Keratoprostheses 477 Development of the Keratoprosthesis 478 Evaluation of Intact Devices 484 Other Devices Used to Change the Curvature of the Cornea 489 References 489 Part XII. Endocrinology and Metabolism 493 36. Bioartificial Pancreas 495 Taylor G. Wang and Robert P. Lanza Introduction 495 Theoretical Background 497 Experiment 500 Capsule Development 501 Discussion 504 References 505 37. Parathyroid 509 C. Hasse, A. Zielke, T. Bohrer, U. Zimmermann, andM. Rothmund History of Parathyroid Allotransplantation 509 Hypoparathyroidism 511 Microencapsulation 517 Alginates 517 Experimental and Clinical Transplantation of Microencapsulated Parathyroid Tissue 518 Alternative Approaches and Perspectives 518 References 519 Part XIII. Gastrointestinal System 523 38. Alimentary Tract 525 Gregory M. Organ and Joseph P. Vacanti Introduction 525 Enterocyte Isolation 528 Procedural Steps 530 Discussion 532 References 537 39. Liver 541 Hugo O. Jauregui Introduction 541 Anatomy and Function of the Liver 541 Liver Failure: Pathophysiological Classification 544 Mechanisms of HE in Liver Failure 545 Medical Need for Liver Assist Devices 545 Biological Component of Liver Assist Devices 546 Liver Assist Device Configurations 548 References 550 40. HepatAssist Liver Support System 553 Claudy Mullon and Barry A. Solomon Introduction 553 HepatAssist System 553 Cell Preparation 553 Clinical Study 554 Conclusion 557 References 557 41. Lineage Biology and Liver 559 Arron S. L. Xu, Thomas L. Luntz, Jeffrey M. Macdonald, Hiroshi Kubota, Edward Hsu, Robert E. London, and Lola M. Reid Introduction 559 Liver Organization and Development 560 Identification, Isolation, and Sourcing of Cells for Tissue Engineering 562 Sourcing of Human Cells for Tissue Engineering 569 Microenvironment 570 Biodegradable Polymers 576 Designing Bioreactors for Tissue Engineering 583 Technical Aspects of Tissue Engineering 585 Future Considerations 587 Summary 588 References 589 Part XIV. Hematopoietic System 599 42. Red Blood Cell Substitutes 601 Thomas Ming Swi Chang Introduction 601 Why Do We Have to Modify Hemoglobin? 601 Sources of Hemoglobin 605 Circulating Time of Modified Hemoglobin 606 Safety of Modified Hemoglobin Blood Substitute 606 Efficacy of Modified Hemoglobin Blood Substitute 607 Present Status and Future Research and Development 607 References 608 43. Lymphoid Cells 611 Una Chen Introduction 611 Lymphocyte Engineering: Reality and Potential 612 Concluding Remarks and Prospects for Lymphocyte Engineering 625 References 626 44. Hematopoietic Stem Cells 631 Anne Kessinger and Graham Sharp Introduction 631 Overview of Hematopoiesis: Properties and Regulation of Hematopoietic Stem Cells Relevant to Tissue Engineering 632 Organization of the Stem Cell Compartment 633 Stromal Microenvironments 633 References 638 Part XV. Kidney and Genitourinary System 643 45. Renal Replacement Devices 645 H. David Humes Introduction 645 Basics of Kidney Function 645 Tissue Engineering Approach to Renal Function Replacement GAG Summary 652 References 652 46. Genitourinary System 655 Byung Soo Kim, David J. Mooney, and Anthony Atala Introduction 655 Tissue Engineering Strategies in the Genitourinary System 655 Engineering Genitourinary Tissues 656 Future Directions 664 References 664 Part XVI. Musculoskeletal System 669 47. Structural Tissue Engineering 671 Charles A. Vacanti, Lawrence J. Bonassar, and Joseph P. Vacanti Introduction 671 Materials Development 672 Structural Tissues 674 Biomechanics 679 Conclusion 680 References 680 48. Bone Regeneration through Cellular Engineering 683 Scott P. Bruder and Arnold I. Caplan Introduction 683 Marrow: The Source of Mesenchymal Progenitor Cells 683 Delivery of Osteoprogenitor Cells 687 Bone Regeneration by MSCs 689 MSCs and Gene Therapy 692 Prevention of Age Related Bone Loss 693 Conclusion 694 References 694 49. Articular Cartilage Injury 697 John M. McPherson and Ross Tubo Introduction 697 Autologous Chondrocyte Transplantation 699 Commercialization of Autologous Chondrocyte Implantation 701 Alternative Strategies for the Delivery of Cell Based Therapies for Cartilage Repair 706 Conclusions 707 References 708 50. Tendons and Ligaments 711 Francine Goulet, Denis Rancourt, Rejean Cloutier, Lucie Germain, A. Robin Poole, and Frangois A. Auger Introduction 711 The Need for Bioengineered Tendon and Ligament Substitutes ....711 Histologic Description of Tendons and Ligaments 712 Production of Bioengineered Tendons and Ligaments 713 A New Living Bioengineered Ligament Model 713 Technical Steps to Produce and Analyze Our bACL 715 Conclusions 718 Perspectives in Tendon and Ligament Bioengineering 719 References 720 51. Mechanosensory Mechanisms in Bone 723 Stephen C. Cowin and Melvin L. Moss Introduction 723 The Connected Cellular Network 724 Mechanosensation on the CCN 725 Questions for Future Research; Socratic Questions 731 References 732 52. Myoblast Therapy 739 Joanne C. Cousins, Jennifer E. Morgan, and Terence A. Partridge Introduction 739 Myoblast Mediated Gene Transfer 739 Therapeutic Myoblast Transplantation for Myopathies 740 References 745 Part XVII. Nervous System 749 53. Protection and Repair of Hearing 751 Richard A. Altschuler, Yehoash Raphael, Jochen Schacht, David J. Anderson, and JosefM. Miller Introduction 751 Basis for Interventions 751 Methods of Intervention 755 Conclusions 757 References 757 54. Vision Enhancement Systems 761 Gislin Dagnelie, Mark S. Humayun, and Robert W. Massof Visual System: Architecture and (Dys)Function 761 Possible Approaches to Vision Restoration 763 Current Approaches 763 Applications of Engineered Cells and Tissues: Challenges and Tentative Solutions 768 Toward 2020 Vision 770 References 770 55. Brain Implants 773 Lars U. Wahlberg Introduction 773 Naked Cell Implants 773 Encapsulated Cell Implants 777 Controlled Release Implants 777 Axonal Guidance Implants 778 Disease Targets 778 Surgical Considerations 780 Conclusions 780 References 780 56. Nerve Regeneration 785 Eric G Fine, Robert E Valentini, and Patrick Aebischer Nerve Regeneration and Neural Tissue Engineering 785 Overview of Neural Regeneration 786 Experimental Use of Guidance Channels 788 Biomaterial Based Approaches to Nerve Repair 790 Tissue Engineering Approaches to Nerve Repair 794 Specificity of Nerve Reconnections 796 Summary 796 References 796 57. Transplantation Strategies for Treatment of Spinal Cord Dysfunction and Injury 799 Jacqueline Sagen, Mary Bartlett Bunge, and Naomi Kleitman Introduction 799 Spinal Implants as Axon Bridges 799 Spinal Implants for Replacement of Specific Cell Populations 805 Spinal Implants for Provision of Neurotransmitters 808 References 813 58. Neural Stem Cells 821 Martin P. Vacanti Introduction 821 Background 821 Neural Stem Cell Applications in Tissue Engineering 824 Summary 828 References 828 Part XVIII. Periodontal and Dental Applications 831 59. Periodontal Applications 833 NealA. Miller, Marie C. Bene, Jacques Penaud, PascalAmbrosini, and Gilbert C. Faure Introduction 833 Guided Tissue Regeneration 834 Bone Substitutes 836 Dental Implants 838 Growth Factors and Plasma Proteins 839 Cell Culture Techniques 843 Conclusion 843 References 843 60. Regeneration of Dentin 847 R. Bruce Rutherford Introduction 847 Dentin 847 Bone Morphogenetic Proteins 847 Induction Potential of Dentin 848 Recombinant Human BMPs Induce Dentin Formation 848 Delivery Systems 850 Clinical Considerations 850 Additional Considerations 851 Potential Applications of BMP Induced Dentinogenesis 851 References 852 Part XIX. Skin 855 61. Wound Repair: Basic Biology to Tissue Engineering 857 Richard A. F. Clark and Adam J. Singer Introduction 857 Inflammation 858 Epithelialization 858 Granulation Tissue 862 Wound Contraction and Extracellular Matrix Reorganization 868 References 870 62. Skin 879 Nancy L. Parenteau, Janet Hardin Young, andRobertN. Ross Introduction 879 Skin Structure and Function 880 Engineering Skin Tissue 883 Epidermal Regeneration 884 Dermal Replacement 884 Composite Skin Grafts 885 Conclusion 887 References 887 63. Dermal Equivalents 891 Gail K. Naughton Introduction 891 Cell Testing and Establishment of Manufacturing Cell Banks 891 Manufacturing a Dermal Replacement 891 Clinical Results ofWound Healing 900 Summary 901 References 901 Part XX. Womb 903 64. Artificial Womb 905 Christopher S. Muratore and Jay M. Wilson What Does the Field of Tissue Engineering Have to Offer the Premature Infant? 906 Prematurity—The Consequences 906 The Ideal Artificial Womb 907 State of the Art Artificial Placenta Design 909 Organ Maturation during Maintenance with Artificial Womb 911 Variations of Artificial Womb Technology 911 Conclusion 912 References 912 Part XXI. Regulatory Issues 913 65. Regulatory Considerations 915 Kiki B. Hellman, Ruth R. Solomon, Claudia Gaffey, Charles N. Durfor, and John G. Bishop Introduction 915 Legislative Authority/Oversight 916 Product Evaluation and the Regulatory Process 917 Recent Developments in Product Evaluation 922 Interaction between FDA Headquarters and Field Offices 925 Development of Standards 925 Communications with Industry 926 The FDA and Future Perspectives for Tissue Engineered Medical Products 927 References 927 Epilogue 929 Index 931
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id DE-604.BV013277447
illustrated Illustrated
indexdate 2024-11-25T17:19:56Z
institution BVB
isbn 0124366309
language English
oai_aleph_id oai:aleph.bib-bvb.de:BVB01-009052290
oclc_num 44120690
open_access_boolean
owner DE-355
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owner_facet DE-355
DE-BY-UBR
DE-91G
DE-BY-TUM
DE-703
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DE-634
physical XLI, 995 S. Ill., graph. Darst.
publishDate 2000
publishDateSearch 2000
publishDateSort 2000
publisher Academic Press
record_format marc
spellingShingle Principles of tissue engineering
Cellules - Biotechnologie
Greffe (Chirurgie)
Tissus (Histologie) - Culture
Tissus (histologie) ram
Animal cell biotechnology
Biocompatible Materials
Biomedical Engineering
Cell Transplantation
Culture Techniques
Tissue Transplantation
Tissue engineering
Transplantation of organs, tissues, etc
Implantat (DE-588)4026658-8 gnd
Transplantat (DE-588)4185918-2 gnd
Tissue Engineering (DE-588)4646061-5 gnd
Gewebekultur (DE-588)4157245-2 gnd
subject_GND (DE-588)4026658-8
(DE-588)4185918-2
(DE-588)4646061-5
(DE-588)4157245-2
title Principles of tissue engineering
title_auth Principles of tissue engineering
title_exact_search Principles of tissue engineering
title_full Principles of tissue engineering ed. by Robert P. Lanza ...
title_fullStr Principles of tissue engineering ed. by Robert P. Lanza ...
title_full_unstemmed Principles of tissue engineering ed. by Robert P. Lanza ...
title_short Principles of tissue engineering
title_sort principles of tissue engineering
topic Cellules - Biotechnologie
Greffe (Chirurgie)
Tissus (Histologie) - Culture
Tissus (histologie) ram
Animal cell biotechnology
Biocompatible Materials
Biomedical Engineering
Cell Transplantation
Culture Techniques
Tissue Transplantation
Tissue engineering
Transplantation of organs, tissues, etc
Implantat (DE-588)4026658-8 gnd
Transplantat (DE-588)4185918-2 gnd
Tissue Engineering (DE-588)4646061-5 gnd
Gewebekultur (DE-588)4157245-2 gnd
topic_facet Cellules - Biotechnologie
Greffe (Chirurgie)
Tissus (Histologie) - Culture
Tissus (histologie)
Animal cell biotechnology
Biocompatible Materials
Biomedical Engineering
Cell Transplantation
Culture Techniques
Tissue Transplantation
Tissue engineering
Transplantation of organs, tissues, etc
Implantat
Transplantat
Tissue Engineering
Gewebekultur
url http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009052290&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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