This book reviews stem cell behavior in the lung as it relates to regenerative medicine and stem cell therapeutics. Topics ranging from basic developmental mechanisms of various types of lung stem cells through the identification and properties of stem cell behavior and their potential applications in lung repair and regeneration, are discussed by an expert in the field. These discoveries are placed within the structural context of tissue and developmental biology in sections dealing with recent advances in understanding of developmental lung stem cell biology and behavior and their potential applications. Lung Stem Cell Behavior is essential reading for researchers in stem cell biology and regenerative medicine, patient advocates, undergraduate students, graduate students, and clinicians interested in cellular therapy and tissue engineering therapies.

This invaluable resource discusses insights ranging from basic biological mechanisms of various types of stem cells through the potential applications in the treatment of human diseases, including cancer and genetic disorders. These discoveries are placed within the structural context of tissue and developmental biology in sections dealing with recent advances in understanding different types of stem cell biology and their potential applications in tissue repair and regeneration and in the treatment different types of human cancer and genetic diseases or disorders. Stem Cells for Cancer and Genetic Disease Treatment and the other books in the Stem Cells in Clinical Applicationsseries will be invaluable to scientists, researchers, advanced students and clinicians working in stem cells, regenerative medicine or tissue engineering as well as cancer or genetics research.

With detailed scientific background and up-to-date research, this book examines recent developmental and cell biology, mechanobiology and stem cell biology discoveries to help provide a better understanding of lung development, repair and regeneration.Lung regeneration is an urgent therapeutic priority. The current major challenge is the generation of complex vascularized structures that can ultimately support or replace impaired lung function. Recent discoveries in biomedical engineering are analysed within the structural context of the lung to help provide a better understanding of the innovative solutions that could be used for restoring normal morphogenesis and regeneration of the lung. This also includes insights from basic developmental mechanisms of human lung development through the derivation and identification of stem cells, both from the early embryo as well as from differentiated organs and tissues.Suitable for a wide range of readers, including physicians and surgeons, scientists and researchers, and undergraduate and postgraduate students, this guide is an essential read for those working in the field of lung disease and development.

This book reviews stem cell behavior in the lung as it relates to regenerative medicine and stem cell therapeutics. Topics ranging from basic developmental mechanisms of various types of lung stem cells through the identification and properties of stem cell behavior and their potential applications in lung repair and regeneration, are discussed by an expert in the field. These discoveries are placed within the structural context of tissue and developmental biology in sections dealing with recent advances in understanding of developmental lung stem cell biology and behavior and their potential applications. Lung Stem Cell Behavior is essential reading for researchers in stem cell biology and regenerative medicine, patient advocates, undergraduate students, graduate students, and clinicians interested in cellular therapy and tissue engineering therapies.

In the lung, more recent data have been accumulated on lung stem cell biology/function and the potential applications of stem cells in pulmonary diseases that are facilitated by the recent development of a broad range of cutting edge in vitro and in vivo research tools and approaches, including mouse and human organoid cultures, genetic editing in vitro and in vivo, human induced pluripotent cell (iPS cell) models of disease, haploid cells for genetic as well as compound screening paradigms, genetically engineered mice, and stem cell transplantation to cure diseases. Stem Cell Innovation in Health and Disease: Volume 2: The Lung, contains two major sections describing cutting edge research for understanding stem cell functions in the lung and respiratory system, and for developing methods to bring stem cells from bench to bedside; respectively. Each section includes insights ranging from using mouse and human organoid cultures, genetic editing in vitro and in vivo, and human induced pluripotent cells (iPSCs) to study stem cell functions and model lung diseases, through the cutting-edge research aiming to bring stem cells from bench to bedside, including the potential application of iPSCs, ESCs and blood stem cells (stem cell transplants) in the treatment of lung diseases/disorders. This book, therefore, discusses the fact-based promise of stem cells and regenerative medicine in the lung in the real world.

The intestine is among the leading organs, in which several cutting edge in vitro and in vivo research tools and approaches have recently been developed and used to investigate stem cell biology/function, and the potential applications of stem cells in the treatment of intestinal diseases. These cutting-edge research tools and approaches involve human and murine organoid cultures, genetic editing in vitro and in vivo, human induced pluripotent cell (iPS cell) models of disease, haploid cells for genetic as well as compound screening paradigms, genetically engineered mice, and stem cell transplantation to cure diseases. Stem Cell Innovation in Health and Disease: Volume 1: The Intestine contains two major sections describing cutting edge research for understanding stem cell functions in the intestine, and for developing methods to bring stem cells from bench to bedside; respectively. Each section includes insights ranging from using mouse and human organoid cultures, genetic editing in vitro and in vivo, and human induced pluripotent cells (iPSCs) to study stem cell functions and model intestinal diseases, through the cutting-edge research, including the potential application of iPSCs, ESCs and blood stem cells (stem cell transplants) in the treatment of intestinal diseases/disorders. This volume, therefore, discusses the fact-based promise of stem cells and regenerative medicine in the intestine in the real world.