Tendon regeneration : understanding tissue physiology and development to engineer functional substitutes /

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Tendon Regeneration: Understanding Tissue Physiology and Development to Engineer Functional Substitutes is the first book to highlight the multi-disciplinary nature of this specialized field and the importance of collaboration between medical and engineering laboratories in the development of tissue...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Gomes, Manuela E. (Editor ), Reis, Rui L. (Editor ), Rodrigues, M�arcia (Editor )
Formato: Electrónico eBook
Idioma:Inglés
Publicado: London : Elsevier, [2015]
Temas:
Tendons.
Tendons > Wounds and injuries > Healing.
Tendons > physiology
Tendinopathy > therapy
Tendons
Guided Tissue Regeneration, Periodontal > methods
Tissue Engineering > methods
MEDICAL > Surgery > General.
Tendons > Wounds and injuries > Healing
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; TENDON REGENERATION; Copyright; CONTENTS; CONTRIBUTORS; PREFACE; SECTION 1
  • Biology and Physiologyof Tendons; Chapter 1
  • Tendon Physiology and Mechanical Behavior: Structure-Function Relationships; 1. TENDON STRUCTURE AND COMPOSITION; 2. TENDON MECHANICS; 3. MULTISCALE MECHANICS AND STRUCTURE-FUNCTION CHARACTERIZATION; 4. MECHANICAL AND COMPOSITIONAL VARIATIONS IN TENDONS WITH DIFFERENT FUNCTIONS; LIST OF ABBREVIATIONS; GLOSSARY; REFERENCES; Chapter 2
  • Tendon Resident Cells-Functions and Features in Section I-Developmental Biology and Physiology of Tendons; 1. INTRODUCTION.
  • 2. TENDON CELLS-ORIGIN AND SPECIFICATION3. TENDON CELLS-ECM SYNTHESIS, ASSEMBLY, AND TISSUE MATURATION; 4. CELL-ECM INTERACTIONS; 5. MECHANOREGULATION OF TENDON CELLS; 6. CONCLUSION; LIST OF ABBREVIATIONS; GLOSSARY; REFERENCES; Chapter 3
  • Mechanobiology of Embryonic and Adult Tendons; 1. INTRODUCTION; 2. EMBRYONIC TENDON; 3. POSTNATAL TENDON; 4. MECHANICAL CUES EXPERIENCED BY EMBRYONIC, POSTNATAL, AND ADULT TENDONS; 5. STUDIES IN THE EMBRYO SUGGEST MECHANICAL FACTORS INFLUENCE EMBRYONIC TENDON DEVELOPMENT; 6. IN VITRO STUDIES SUGGEST MECHANICAL FACTORS INFLUENCE EMBRYONIC TENDON DEVELOPMENT.
  • 7. EXERCISE STUDIES EXAMINE THE INFLUENCE OF MECHANICS IN ADULT TENDON8. IN VITRO STUDIES SUGGEST MECHANICAL FACTORS INFLUENCE ADULT TENDON HOMEOSTASIS; 9. POTENTIAL MECHANISMS OF TENDON CELL MECHANOTRANSDUCTION; 10. CONCLUSIONS; LIST OF ABBREVIATIONS; REFERENCES; SECTION 2
  • Pathologies and Repairof Tendons; Chapter 4
  • Tendinopathy I: Understanding Epidemiology, Pathology, Healing, and Treatment; 1. INTRODUCTION; 2. ANATOMICAL DIAGNOSIS; 3. PATHOLOGY; 4. EPIDEMIOLOGY; 5. PATHOPHYSIOLOGY; 6. HEALING AND REPAIR; 7. NONSURGICAL TREATMENT; 8. SURGICAL TREATMENT; 9. CONCLUSION.
  • LIST OF ABBREVIATIONSGLOSSARY; REFERENCES; Chapter 5
  • Tendinopathy II: Etiology, Pathology, and Healing of Tendon Injury and Disease; 1. EPIDEMIOLOGY; 2. DEFINITIONS; 3. TENDINOPATHY ETIOLOGY; 4. PATHOLOGY; 5. SUMMARY AND CONCLUSIONS; LIST OF ABBREVIATIONS; GLOSSARY; REFERENCES; SECTION 3
  • Tendon Regenerative Medicine Approaches; Chapter 6
  • Cell-Based Approaches for Tendon Regeneration; 1. INTRODUCTION; 2. TENDON ENDOGENOUS REGENERATION; 3. ISOLATION PROCEDURES OF TENDON RESIDENT CELLS; 4. ALTERNATIVE STEM CELLS SOURCES FOR CELL-BASED TENDON TISSUE ENGINEERING.
  • 5. MOVING CELL THERAPIES INTO THE CLINICS6. CONCLUSION; LIST OF ABBREVIATIONS; GLOSSARY; REFERENCES; Chapter 7
  • The Role of Growth Factors in Tendon Stimulation; 1. INTRODUCTION; 2. GROWTH FACTORS; 3. PLATELET-RICH PLASMA; 4. CONCLUSIONS; LIST OF ABBREVIATIONS; REFERENCES; SECTION 4
  • Scaffolds-Based Approaches; Chapter 8
  • Engineering Anisotropic 2D and 3D Structures for Tendon Repair and Regeneration; 1. INTRODUCTION; 2. ANISOTROPIC SPONGES; 3. ANISOTROPIC SELF-ASSEMBLED FIBERS; 4. ANISOTROPIC ELECTROSPUN FIBERS; 5. ANISOTROPIC IMPRINTED SUBSTRATES; 6. CONCLUSIVE REMARKS.

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