Functional Tissue Engineering
Editat de Farshid Guilak, David L. Butler, Steven A. Goldstein, David Mooneyen Limba Engleză Paperback – 24 aug 2004
-Price to be accessible to the rapidly increasing population of students and investigators in the field of tissue engineering
-Chapters written by well-known researchers discuss issues in functional tissue engineering as well as provide guidelines and a summary of the current state of technology
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Specificații
ISBN-13: 9780387220130
ISBN-10: 0387220135
Pagini: 426
Ilustrații: XVI, 426 p.
Dimensiuni: 178 x 254 x 21 mm
Greutate: 0.79 kg
Ediția:2003
Editura: Springer
Colecția Springer
Locul publicării:New York, NY, United States
ISBN-10: 0387220135
Pagini: 426
Ilustrații: XVI, 426 p.
Dimensiuni: 178 x 254 x 21 mm
Greutate: 0.79 kg
Ediția:2003
Editura: Springer
Colecția Springer
Locul publicării:New York, NY, United States
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Public țintă
ResearchDescriere
Tissue engineering is an exciting new field at the interface of engineering and - ology that uses implanted cells, scaffolds, DNA, proteins, protein fragments, and inductive molecules to repair or replace injured or diseased tissues and organs. Tremendous progress in biological and biomaterial aspects of this field have been accomplished to date, and several engineered tissues are now being used clinically. However, tissue engineers face major challenges in repairing or repl- ing tissues that serve a predominantly biomechanical function. To meet this challenge, the United States National Committee on Biomech- ics in 1998 adopted a new paradigm termed functional tissue engineering (FTE) to emphasize the importance of biomechanical considerations in the design and - velopment of cell and matrix-based implants for soft and hard tissue repair. Functional tissue engineering represents a relevant and exciting new discipline in the field of tissue engineering. Since many tissues, such as those of the muscu- skeletal, cardiovascular, and dental systems, are accustomed to being mecha- cally challenged, tissue-engineered constructs used to replace these tissues after injury or disease must certainly do the same. Of course, tissue engineers must also attempt to return normal biological activity in order for the construct to truly - tegrate with the surrounding tissues. Thus, the term functional can have many meanings, such as restoration of metabolic function. The primary focus of this text is on the role of biomechanical function in tissue engineering.
Cuprins
Part I. The Functional Properties of Native Tissues * How Does Nature Build a Tissue? * Ligament Healing: Present Status and the Future of Functional Tissue Engineering * Native Properties of Cardiovascular Tissues: Guidelines for Functional Tissue Engineering * Functional Properties of Native Articular Cartilage * Excitability and Contractility of Skeletal Muscle: Measurements and Interpretations * Part II. Functional Requirements of Engineered Tissues * Functional Requirements for the Engineering of a Blood Vessel Substitute * In vivo Force and Strain of Tendon, Ligament and Capsule * Requirements for Biological Replacement of the Articular Cartilage at the Knee Joint * Functional Requirements: Cartilage * Part III. Design Parameters for Tissue Engineering * Design Parameters for Functional Tissue Engineering * Tissue Engineering a Heart: Critical Issues * Design Parameters for Engineering Bone Regeneration * Tissue Engineering of Bone: The Potential Uses of Gene Therapy for Difficult Bone Loss Problems * Engineered Skeletal Muscle: Functional Tissues, Organs and Interfaces * Bioengineering the Growth of Articular Cartilage * Part IV. Assessment of Function in Engineered Tissues * Functional Tissue Engineering: Assessment of Function in Tendon and Ligament Repair * The Role of Mechanical Forces in Tissue Engineering of Articular Cartilage * Biomechanics of Native and Engineered Heart Valves * Assessment of Function in Tissue Engineered Vascular Grafts * Assessment of the Performance of Engineered Tissues in Humans Requires the Development of Highly Sensitive and Quantitative Non-invasive Outcome Measures * Part V. Cell-matrix Interactions in Functional Tissue Engineering * The Biomechanics of Cell-matrix Interactions in Tissue Engineering * Regulation of Cellular Response to Mechanical Signals by Matrix Design * Artificial Soft Tissue Fabrication from Cell-contracted Biopolymers * Cytomechanics: Signaling to Mechanical Load in Connective Tissue Cells and Role in Tissue Engineering * Part VI. Bioreactors and the Role of Biophysical Stimuli in Tissue Engineering * The Role of Biomechanics in Analysis of Cardiovascular Diseases: Regulation of the Fluid Shear Response by Inflammatory Mediators * A Full Spectrum of Tissue Engineered Blood Vessels: From Macroscopic to Microscopic * Engineered Functional Cartilage and Cardiac Tissue: In vitro Culture Parameters * Tissue Engineered Skeletal Muscle * Part VII. Regulatory and Clinical Issues in Tissue Engineering * From Concept Towards the Clinic: Preclinical Evaluation of Tissue Engineered Constructs * Trends in the FDA
Recenzii
From the reviews:
"Functional Tissue Engineering is a useful compilation of research by contributors involved in developing tissues … . It is not easy to extract a decent book from a conference, but the editors have done a very good job … . it will be an invaluable source for those starting a PhD … . I recommend it to those embarking on or already involved in engineering structural tissues. … The chapters are well written … . The book is clearly focused to encompass practical issues, such as the need to create appropriate biomechanical environments … ." (Sheila MacNeil, Materials Today, July/August, 2005)
"Functional Tissue Engineering is a useful compilation of research by contributors involved in developing tissues … . It is not easy to extract a decent book from a conference, but the editors have done a very good job … . it will be an invaluable source for those starting a PhD … . I recommend it to those embarking on or already involved in engineering structural tissues. … The chapters are well written … . The book is clearly focused to encompass practical issues, such as the need to create appropriate biomechanical environments … ." (Sheila MacNeil, Materials Today, July/August, 2005)
Textul de pe ultima copertă
The goal of "tissue engineering" is to repair or replace tissues and organs by delivering implanted cells, scaffolds, DNA, proteins, and/or protein fragments at surgery. Tissue engineering merges aspects of engineering and biology, and many rapid achievements in this field have arisen in part from significant advances in cell and molecular biology.
Despite its early successes, however, tissue engineers have faced challenges in repairing or replacing tissues that serve a predominantly biomechanical function. This book addresses and discusses a number of issues that need to be addressed in order for tissue engineers to effectively repair or replace these load-bearing structures. What are the thresholds of force, stress, and strain that normal tissues transmit or encounter? What are the mechanical properties of these tissues when subjected to expected in vivo stresses and strains, as well as under failure conditions? Which of these properties should a tissue engineer insist upon incorporating into the design? Do tissue engineered repairs and replacements need to exactly duplicate the structure and function of the normal tissue or organ in order to be successful? When developing these implants in culture, how do physical factors such as mechanical stress regulate cell behavior in bioreactors as compared to signals experienced in vivo? And finally, can tissue engineers mechanically stimulate these implants before surgery to produce a better repair outcome?
Chapters written by well-known researchers discuss these matters and provide guidelines and a summary of the current state of technology in functional tissue engineering. The book will be useful to students and researchers as it will increase awareness among tissue engineers of the importance of restoring "function" when engineering tissue constructs, and identifying the critical structural and mechanical requirements needed for each construct. It will also provide an invaluable source of information to help tissue engineers incorporate these functional criteria into the design, manufacture, and optimization of tissue engineered products. Finally it serves as a reference and teaching text for the rapidly increasing population of students and investigators in the field of tissue engineering.
Caracteristici
Chapters written by well-known researchers discuss these matters and provide guidelines and a summary of the current state of technology in functional tissue engineering
Will serve as a reference and teaching text for the rapidly increasing population of students and investigators in the field of tissue engineering
Will serve as a reference and teaching text for the rapidly increasing population of students and investigators in the field of tissue engineering