Ebook: New Perspectives in Regeneration
Author: Mateusz S. Wietecha Wendy L. Cerny Luisa A. DiPietro (auth.) Ellen Heber-Katz David L. Stocum (eds.)
- Tags: Human Physiology, Human Genetics, Neurosciences, Regenerative Medicine/Tissue Engineering, Developmental Biology
- Series: Current Topics in Microbiology and Immunology 367
- Year: 2013
- Publisher: Springer-Verlag Berlin Heidelberg
- Edition: 1
- Language: English
- pdf
Regeneration, the homeostatic ability to maintain tissue structure in the face of normal cell turnover or loss of tissue damaged by trauma or disease, is an essential developmental process that continues throughout life. As recently as a decade ago, any serious discussion of the possibility of regeneration becoming a practical medical tool in the near future had the air of science fiction or over-optimistic speculation. The term “regenerative medicine” was certainly on many lips but few actually expected to soon see it applied in a clinical setting. A tidal wave of discovery has changed that and investigating the cellular mechanisms of natural regeneration has become one of the hottest topics in developmental biology and biomedicine in general. Many researchers entering the field find that the regeneration literature is still quite diffuse perhaps owing to the disparate biological systems that have been the object of study including hydra, planaria, newts, axolotls and more recently several mouse strains. The volume editors believe that an attempt to organize or systematize the literature is long overdue. In this volume, respected experts highlight the latest findings in vertebrate (including mammals) wound healing and regeneration. They present eleven reviews that cover a wide range of topics, from wound repair and its relationship to regeneration, through systems including lenticular, neural, and musculoskeletal tissues and limbs, to epigenetics and the role of the cell cycle. Nuclear reprogramming and cellular plasticity, which open the door for potential regenerative medical therapies for injury and degenerative disease, are recurring themes throughout the book. We are all now part of the regeneration revolution.
Regeneration, the homeostatic ability to maintain tissue structure in the face of normal cell turnover or loss of tissue damaged by trauma or disease, is an essential developmental process that continues throughout life. As recently as a decade ago, any serious discussion of the possibility of regeneration becoming a practical medical tool in the near future had the air of science fiction or over-optimistic speculation. The term “regenerative medicine” was certainly on many lips but few actually expected to soon see it applied in a clinical setting. A tidal wave of discovery has changed that and investigating the cellular mechanisms of natural regeneration has become one of the hottest topics in developmental biology and biomedicine in general.
Many researchers entering the field find that the regeneration literature is still quite diffuse perhaps owing to the disparate biological systems that have been the object of study including hydra, planaria, newts, axolotls and more recently several mouse strains. The volume editors believe that an attempt to organize or systematize the literature is long overdue. In this volume, respected experts highlight the latest findings in vertebrate (including mammals) wound healing and regeneration. They present eleven reviews that cover a wide range of topics, from wound repair and its relationship to regeneration, through systems including lenticular, neural, and musculoskeletal tissues and limbs, to epigenetics and the role of the cell cycle. Nuclear reprogramming and cellular plasticity, which open the door for potential regenerative medical therapies for injury and degenerative disease, are recurring themes throughout the book.
We are all now part of the regeneration revolution.
Regeneration, the homeostatic ability to maintain tissue structure in the face of normal cell turnover or loss of tissue damaged by trauma or disease, is an essential developmental process that continues throughout life. As recently as a decade ago, any serious discussion of the possibility of regeneration becoming a practical medical tool in the near future had the air of science fiction or over-optimistic speculation. The term “regenerative medicine” was certainly on many lips but few actually expected to soon see it applied in a clinical setting. A tidal wave of discovery has changed that and investigating the cellular mechanisms of natural regeneration has become one of the hottest topics in developmental biology and biomedicine in general.
Many researchers entering the field find that the regeneration literature is still quite diffuse perhaps owing to the disparate biological systems that have been the object of study including hydra, planaria, newts, axolotls and more recently several mouse strains. The volume editors believe that an attempt to organize or systematize the literature is long overdue. In this volume, respected experts highlight the latest findings in vertebrate (including mammals) wound healing and regeneration. They present eleven reviews that cover a wide range of topics, from wound repair and its relationship to regeneration, through systems including lenticular, neural, and musculoskeletal tissues and limbs, to epigenetics and the role of the cell cycle. Nuclear reprogramming and cellular plasticity, which open the door for potential regenerative medical therapies for injury and degenerative disease, are recurring themes throughout the book.
We are all now part of the regeneration revolution.
Content:
Front Matter....Pages i-x
Mechanisms of Vessel Regression: Toward an Understanding of the Resolution of Angiogenesis....Pages 3-32
Wound Healing in Mammals and Amphibians: Toward Limb Regeneration in Mammals....Pages 33-49
Cellular Plasticity During Vertebrate Appendage Regeneration....Pages 53-74
Cell Signaling Pathways in Vertebrate Lens Regeneration....Pages 75-98
Regenerative Medicine: Challenges and Perspectives for Successful Therapies....Pages 101-112
Employing the Biology of Successful Fracture Repair to Heal Critical Size Bone Defects....Pages 113-132
Muscle Repair and Regeneration: Stem Cells, Scaffolds, and the Contributions of Skeletal Muscle to Amphibian Limb Regeneration....Pages 133-159
Neural Regeneration....Pages 163-191
Teleost Fish as a Model System to Study Successful Regeneration of the Central Nervous System....Pages 193-233
Epigenetics and Regeneration....Pages 237-252
Cell Cycle Regulation and Regeneration....Pages 253-276
Back Matter....Pages 277-281
Regeneration, the homeostatic ability to maintain tissue structure in the face of normal cell turnover or loss of tissue damaged by trauma or disease, is an essential developmental process that continues throughout life. As recently as a decade ago, any serious discussion of the possibility of regeneration becoming a practical medical tool in the near future had the air of science fiction or over-optimistic speculation. The term “regenerative medicine” was certainly on many lips but few actually expected to soon see it applied in a clinical setting. A tidal wave of discovery has changed that and investigating the cellular mechanisms of natural regeneration has become one of the hottest topics in developmental biology and biomedicine in general.
Many researchers entering the field find that the regeneration literature is still quite diffuse perhaps owing to the disparate biological systems that have been the object of study including hydra, planaria, newts, axolotls and more recently several mouse strains. The volume editors believe that an attempt to organize or systematize the literature is long overdue. In this volume, respected experts highlight the latest findings in vertebrate (including mammals) wound healing and regeneration. They present eleven reviews that cover a wide range of topics, from wound repair and its relationship to regeneration, through systems including lenticular, neural, and musculoskeletal tissues and limbs, to epigenetics and the role of the cell cycle. Nuclear reprogramming and cellular plasticity, which open the door for potential regenerative medical therapies for injury and degenerative disease, are recurring themes throughout the book.
We are all now part of the regeneration revolution.
Content:
Front Matter....Pages i-x
Mechanisms of Vessel Regression: Toward an Understanding of the Resolution of Angiogenesis....Pages 3-32
Wound Healing in Mammals and Amphibians: Toward Limb Regeneration in Mammals....Pages 33-49
Cellular Plasticity During Vertebrate Appendage Regeneration....Pages 53-74
Cell Signaling Pathways in Vertebrate Lens Regeneration....Pages 75-98
Regenerative Medicine: Challenges and Perspectives for Successful Therapies....Pages 101-112
Employing the Biology of Successful Fracture Repair to Heal Critical Size Bone Defects....Pages 113-132
Muscle Repair and Regeneration: Stem Cells, Scaffolds, and the Contributions of Skeletal Muscle to Amphibian Limb Regeneration....Pages 133-159
Neural Regeneration....Pages 163-191
Teleost Fish as a Model System to Study Successful Regeneration of the Central Nervous System....Pages 193-233
Epigenetics and Regeneration....Pages 237-252
Cell Cycle Regulation and Regeneration....Pages 253-276
Back Matter....Pages 277-281
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