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This timely volume explores the impact of autophagy in various human diseases, emphasizing the cell biological aspects and focusing on therapeutic approaches to these diseases.
Therapeutic applications within regenerative biomedicine has gained tremendous interest from a growing, multidisciplinary community of investigators in recent years, driven by the hope of finding cures for several diseases.
Cancer Stem Cells in Solid Tumors represents a detailed overview of cancer stem cells and their role in solid cancers. Comprised of 24 chapters, this volume provides readers with a comprehensive understanding of this important and evolving field.
Scientists investigating germ cells have, over the past 15 years, originated discoveries and innovations that give us valuable insights into the mechanisms that regulate not just stem cell function, but human development in its widest sense.
Stem Cell Therapy for Diabetes, one of the latest installments of the Stem Cell Biology and Regenerative Medicine series, reviews the three main approaches for generation of sufficient numbers of insulin-producing cells for restoration of an adequate beta-cell mass: beta-cell expansion, stem-cell differentiation, and nuclear reprogramming.
The book is divided into three parts: Stem Cells for Pre-Clinical Models, Stem Cells in Non-Conventional Species, and Stem Cell Banking for the Future.
Advances in Stem Cell Research discusses recent advances in stem cell science, including therapeutic applications.
Adult Stem Cells, second edition, takes a critical look at issues concerning the developmental or differentiation potential for a variety of tissue types and for specific adult stem cell types.
Here, an array of talented researchers covers our current state of knowledge in this exciting field. Four sections cover applications of stem cell techniques to mechanical regeneration, electrical regeneration, cardiac tissues and in vivo stem cell therapies.
In this book, leading authorities actively involved in this field provide state-of-the-art knowledge of the basic biology, translational requirements and latest clinical experience with Mesenchymal Stromal Cell (MSC) biology.
This volume offers an analysis of the scale and nature of the immunological issues facing regenerative medicine, drawing on the expertise of laboratories around the world who have taken up the challenge of applying their expertise in immunology to the vagaries of stem cell biology.
The book ranges from fundamental biology associated with tissue regeneration for the development of biomimetic approaches to controlling tissue formation, cell function, differentiation and angiogenesis using factors involved in normal tissue development and function.
This volume will cover a series of reviews on stem cells including adult and embryonic stem cells. Speakers were invited to present these talks during the Stem Cell Symposia in fall of 2010, in Samsun, Turkey. Unique aspect of this volume is that it brings a multidisciplinary aspect of stem cells extracted from a symposium.
Human pluripotent stem cells, including human embryonic stem cells and induced pluripotent stem cells, are a key focus of current biomedical research.
Some of these cell types and various blood-derived cell lineages are involved in the repair of various types of tissue damage that span the spectrum of medical disorders.
Cancer Stem Cells in Solid Tumors represents a detailed overview of cancer stem cells and their role in solid cancers. Comprised of 24 chapters, this volume provides readers with a comprehensive understanding of this important and evolving field.
Research into the field of stem cell biology has developed exponentially over recent years, and is beginning to offer significant promise for unravelling the molecular basis of a multitude of disease states.
This volume offers an analysis of the scale and nature of the immunological issues facing regenerative medicine, drawing on the expertise of laboratories around the world who have taken up the challenge of applying their expertise in immunology to the vagaries of stem cell biology.
Major contributions in this young century in the fields of molecular biology, biochemistry and genomics were integrated with both embryology and developmental biology to provide an understanding of the molecular portrait of a "development cell." That new integrated approach is known as stem-cell biology;
Stem Cell Therapy for Diabetes, one of the latest installments of the Stem Cell Biology and Regenerative Medicine series, reviews the three main approaches for generation of sufficient numbers of insulin-producing cells for restoration of an adequate beta-cell mass: beta-cell expansion, stem-cell differentiation, and nuclear reprogramming.
This review of pancreatic development and regeneration provides a broad overview of organogenesis from the perspective of stem cell research. It is an all-encompassing guide to explore the many aspects of "regenerative therapies" for the endocrine pancreas.
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