Bøger i Stem Cell Biology and Regenerative Medicine serien

Part VIII probes psychosocial and cultural factors affecting judgment and decisions about translational stem cell research, and Part IX explores problems and procedures raised by an examination of the evaluation of stem cell research projects in research ethics committees.

This book covers a wide range of topics that illustrate the various functions of autophagy in stem cells and offers insights on the mechanisms by which autophagy can regulate stem-cell self-renewal and facilitate specific differentiation programs. Stem cells are unique cells present in most multicellular animals and are essential for their survival. They have two unique properties: the ability to self-renew and the ability to differentiate into one or more cell types. These characteristics of stem cells have found immense therapeutic potential in regenerative medicine. Autophagy is a crucial membrane trafficking pathway that is essential for maintaining cellular homeostasis that involves sequestration of non-functional proteins, protein aggregates and damaged organelles in double-membraned vesicles called autophagosomes, which are subsequently targeted to the lysosome for degradation. The primary aim of this book is to provide knowledge of recent developments in our understanding of the role of autophagy in stem cells, including germline stem cells.Autophagy is considered a promising target for many diseases. Significant efforts are being developed to identify specific modulators of autophagy, which will aid in designing combinatorial therapeutic strategies that will allow significant improvements in regenerative medicine.

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.

This volume discusses the history, current practice and future perspectives of stem cells in inborn errors of metabolism (IEM) and provides an international perspective on progress, limitations, and future directions (e.g.

This book combines the current knowledge on the role of lipids in stem cell pluripotency and differentiation.

This volume discusses the history, current practice and future perspectives of stem cells in inborn errors of metabolism (IEM) and provides an international perspective on progress, limitations, and future directions (e.g.

This book collects the latest research mesenchymal stem cells (MSCs), which appear to hold great promise in the quest to develop regenerative cell-based therapy. Conveys a clear understanding of current progress in translation of MSCs from bench to bedside.

Patient specific and disease specific stem cell lines have already introduced groundbreaking advances into the research and practice of ophthalmology. Stem Cells in Ophthalmology is part of the Stem Cells in Regenerative Medicine series dedicated to discussing current challenges and future directions in stem cell research.

The reader is then introduced to how mtDNA is transmitted through the oocyte and how stem cells can be used to study mitochondrial biogenesis and mtDNA replication and transcription in undifferentiated pluripotent and differentiating cells and how mitochondria adapt during this process.

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.

There are currently no reparative therapies for severe neurological injury, including brain injury, spinal cord injury and stroke. Progenitor Cell Therapy for Neurological Injury is a compilation of seminal essays that explore many unique aspects of neurological injury, focusing on the critical translational issues of cell delivery.

Patient specific and disease specific stem cell lines have already introduced groundbreaking advances into the research and practice of ophthalmology. Stem Cells in Ophthalmology is part of the Stem Cells in Regenerative Medicine series dedicated to discussing current challenges and future directions in stem cell research.

This book collects the latest research mesenchymal stem cells (MSCs), which appear to hold great promise in the quest to develop regenerative cell-based therapy. Conveys a clear understanding of current progress in translation of MSCs from bench to bedside.

The reader is then introduced to how mtDNA is transmitted through the oocyte and how stem cells can be used to study mitochondrial biogenesis and mtDNA replication and transcription in undifferentiated pluripotent and differentiating cells and how mitochondria adapt during this process.

Part VIII probes psychosocial and cultural factors affecting judgment and decisions about translational stem cell research, and Part IX explores problems and procedures raised by an examination of the evaluation of stem cell research projects in research ethics committees.

This authoritative reference presents the modern concepts of mesenchymal stem cells (MSCs) and biomaterials as they pertain to the dental field. The book is organized around three main topics: MSCs biology, advanced biomaterials, and clinical applications. The chapters present basic information on stem cell biology and physiology, modern biomaterials that improve bone tissue regeneration, the biomatrices like platelet-rich fibrin (PRF) used to functionalize the biomaterials surface, the strategic and safe intraoral seats of harvesting, the new sources for MSCs, as well as the future perspectives and new challenges in these exciting fields. The contributors are top scientists with a great deal of experience in regenerative dentistry and biomedical research. They offer an international perspective and are richly cross-disciplinary, representing academia, research, and industry. MSCs and Innovative Biomaterials in Dentistry is indispensable reading for students, researchers, and clinicians who need to stay up-to-date on the cutting-edge developments of tissue engineering and regenerative medicine applied to dental sciences.

The first sections of the book illuminate basic aspects of stem cells such as definitions, isolation criteria and characterization of embryonic and adult stem cells, as well as pluripotent stem cells and tissue specific progenitor and stem cells.

This book reviews recent knowledge of the role of stem cells in the gastrointestinal system. Comprehensive and cutting-edge, Digestive System Diseases: Stem Cell Mechanisms and Therapies deepens a reader's theoretical expertise in gastrointestinal stem cell biology.

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.

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.

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.

There are currently no reparative therapies for severe neurological injury, including brain injury, spinal cord injury and stroke. Progenitor Cell Therapy for Neurological Injury is a compilation of seminal essays that explore many unique aspects of neurological injury, focusing on the critical translational issues of cell delivery.