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Full Description
This book offers a comprehensive overview of fundamental principles and the latest applications in cell biology and regenerative medicine, beginning with the foundational concepts of cell theory. It discusses the various types of cells and their defining characteristics, and dynamic processes of cell division, differentiation, dedifferentiation, proliferation, and apoptosis. The text also introduces the basics of embryo development and delve into the applications of induced pluripotent stem cells, cancer stem cells, tissue-specific niches, and the innovative techniques for editing stem cells. Additionally, the book explores the stem cell niche and its surrounding microenvironment, along with the complex interactions between stem cells and the immune system. It underscores the therapeutic potential of stem cells in treating neurodegenerative diseases, facilitating cardiovascular regeneration, enhancing skin regeneration and wound healing, and improving orthopedic applications. Furthermore, the book examines the use of stem cells in ocular therapies, dental, and craniofacial regeneration. It provides an overview of the regulatory frameworks governing stem cell research, outlines the principles of tissue engineering, and discusses the development of organ-on-a-chip models. This book is an essential resource for students, researchers, and professionals in cell biology and regenerative medicine.
Key Features:
· Provides extensive overview of fundamental cell biology principles, the latest advancements in regenerative medicine.
· Presents therapeutic potential of various types of stem cells, including embryonic stem cells, induced pluripotent stem cells, and cancer stem cells.
· Addresses the regulatory landscapes and the ethical issues related to use of stem cell therapy.
· Discusses cutting-edge techniques for editing stem cells, principles of tissue engineering, and the development of organ-on-a-chip models.
· Delves into the dynamic cellular processes such as division, differentiation, dedifferentiation, proliferation, and apoptosis.
Contents
SECTION 1: BASIC BIOLOGY OF STEM CELLS
Chapter 1: Stem Cells, Their Applications, and Future Prospects. Chapter 2: The Cell Theory and Concepts, Their Types and Cell Characteristics. Chapter 3: Cellular Processes: Cell Division, Differentiation, Dedifferentiation, Proliferation, and Apoptosis. Chapter 4: Blueprint of Life: Patterns and Molecular Mechanisms in Embryogenesis Across Model Organisms.
SECTION 2: STEM CELL TYPES AND THEIR TECHNICAL ASPECTS
Chapter 5: Discovery of Stem Cells and Their Types. Chapter 6: Instrumentation and Techniques in Stem Cells Cultures. Chapter 7: Milestones in Animal Cell Culture. Chapter 8: Adult Stem Cells and Applications. Chapter 9: Embryonic Stem Cells, Ethics, Concerns and Applications. Chapter 10: Mechanism of Pluripotency. Chapter 11: Induced Pluripotent Stem Cells: From Discovery to Application. Chapter 12: Editing in the Stem Cells.
SECTION 3: STEM CELLS IN BIOMATERIAL AND TISSUE ENGINEERING
Chapter 13: Concepts of Tissue Engineering. Chapter 14: Scaffolds in Tissue Engineering. Chapter 15: Emerging Trends in Tissue Engineering: Biomaterials, Scaffolds, and Regenerative Strategies. Chapter 16: Tissue Engineering: Bridging Regenerative Medicine and Cancer Therapy. Chapter 17: Tissue Constructs in Functional Tissue Engineering.
SECTION 4: STEM CELL IN BIOMANUFACTURING AND PRECISION MEDICINE
Chapter 18: Organoids in Medicine. Chapter 19: Organ-on-a-Chip and Metabolomics: Converging Technologies for Translational Research. Chapter 20: Stem Cells and Bioprinting. Chapter 21: Advances in Bioprinting for Precision Medicine.
SECTION 5: APPLICATIONS IN REGENERATIVE MEDICINE AND CANCER
Chapter 22: Current Trends and Futuristic Scope of Stem Cells. Chapter 23: Rewriting Life: Implication of Stem Cells and Their Medicine Promise. Chapter 24: Stem Cells in Regenerative and Molecular Medicine. Chapter 25: Industrial Approaches to Regenerative Medicine. Chapter 26: Understanding Cancer Stem Cells: From Tumor Initiation to Therapeutic Targeting. Chapter 27: The Biology of Adult Stem Cells and Their Significance in Cancer: Overview. Chapter 28: Scaffolds in Cancer Research: Bridging Tumor Microenvironment Replication and Therapeutic Advancements.
SECTION 6: REGULATORY MECHANISMS AND POLICY
Chapter 29: Regulatory Aspects in Stem Cell Research.
