A Laboratory Guide to the Tight Junction offers broad coverage of the unique methods required to investigate its characteristics. The methods are described in detail, including its biochemical and biophysical principles, step-by-step process, data analysis, troubleshooting, and optimization. The coverage includes various cell, tissue, and animal models. Chapter 1 provides the foundations of cell biology of tight junction. Chapter 2 covers the Biochemical approaches for paracellular channels and is followed by chapter 3 providing the Biophysical approaches. Chapter 4 describes and discusses Histological approaches for tissue fixation and preparation. Chapter 5 discusses Light microscopy, while chapter 6 presents Electron microscopic approaches. Chapter 7 covers Transgenic manipulation in cell cultures, including DNA and siRNA, Mutagenesis, and viral infection. Chapter 8 covers transgenic manipulation in mice, including: Knockout, Knockin, siRNA knockdown, GFP/LacZ reporter, and overexpression. The final chapter discusses the future developments of new approaches for tight junction research. Researchers and advanced students in bioscience working on topics of cell junction, ion channel and membrane protein will benefit from the described methods. Clinicians and pathologists interested in tissue barrier diseases will also benefit from the biochemical and biophysical characterization of tight junctions in organ systems, and their connection to human diseases.

This book provides therapists with the background knowledge they require before they can safely and accurately treat patients with musculoskeletal disorders of the spine. Thoroughly referenced and extensively illustrated with over 200 specially prepared and original diagrams of the highest quality, Functional Anatomy of the Spine will be invaluable to the student and practitioner physiotherapists, chiropractors and osteopaths, and indeed to all those who regularly treat spinal dysfunction. Accessory and physiological spinal movements are thoroughly described. Palpation is covered in detail. Numerous guidelines for safe practice are provided. A valuable, comprehensive chapter covers posture, lifting, and the prevention of injury. Coverage of applied anatomy and biomechanics is written by therapists for therapists. New theories on thoracic biomechanics are presented, rarely covered by other anatomy books. All topics have been updated to reflect recent scientific evidence, enabling the reader to more effectively formulate and manage treatment plans. New illustrations to complement the text and improve readers' understanding of the material. A one-of-a-kind chapter covering the sacroiliac joint has been comprehensively revised. Expanded material is provided on the autonomic nervous system, thoracic spine biomechanics, and the biomechanics of the lower limb as it relates to the spine. New sections address adverse neural tension, cervical discs, proprioception and muscle imbalance, and mechanics of the jaw and upper cervical spine. An update on vertebral artery and blood supply presents the latest knowledge on the subject.

An avalanche of recent newspapers, weekly newsmagazines, scholarly journals, and academic books has helped to spark a heated debate by publishing warnings of a "boy crisis" in which male students at all academic levels have begun falling behind their female peers. In Learning the Hard Way, Edward W. Morris explores and analyzes detailed ethnographic data on this purported gender gap between boys and girls in educational achievement at two low-income high schools-one rural and predominantly white, the other urban and mostly African American. Crucial questions arose from his study of gender at these two schools. Why did boys tend to show less interest in and more defiance toward school? Why did girls significantly outperform boys at both schools? Why did people at the schools still describe boys as especially "smart"? Morris examines these questions and, in the process, illuminates connections of gender to race, class, and place. This book is not simply about the educational troubles of boys, but the troubled and complex experience of gender in school. It reveals how particular race, class, and geographical experiences shape masculinity and femininity in ways that affect academic performance. His findings add a new perspective to the "gender gap" in achievement.

Met lewensgetroue hoedefinisie-illustrasies bied hierdie publikasie ’n uitsonderlike blik op al die belangrikste liggaamsdele en -stelsels, van kroontjie tot kleintoontjie. Akkurate terminologie in Afrikaans en Engels, asook definisies en verhelderende teks stel lesers verder in staat om grondige kennis van die spesiale eienskappe en werking van die verskillende liggaamstelsels op te doen.

This set includes Volumes 1-7 of 15 short atlases reimagining the classic 5 volume Atlas of Human Central Nervous System Development. A handy paperback edition completes the coverage of the first trimester of human brain development. Serial sections from specimens between 4mm and 60mm are illustrated and annotated in great detail, together with 3D reconstructions. An introduction and glossary summarize these earliest stages of human Central Nervous System development. Key Features 1) Classic anatomical atlases 2) Detailed labeling of the earliest phases of prenatal neurological development 3) Appeals to neuroanatomists, developmental biologists and clinical practitioners. 4) Persistent relevance - brain development is not going to change.

Designed for the one-semester anatomy and physiology course, Hole's Essentials of Human Anatomy and Physiology assumes no prior science knowledge and supports core topics with clinical applications, making difficult concepts relevant to students pursuing careers in the allied health field. The Learn, Practice, and Assess system is used throughout the text and digital content for immediate application. "Learning" outcomes begin the chapter and set the stage for what students will learn, "Practice" questions conclude each major section and help students recall the information they've consumed, and "Assess" end-of-chapter resources allow students to confirm their accurate recall of what they learned and practiced. The learn, practice, and assess system is highly effective in providing students with a solid understanding of the important concepts in anatomy and physiology.

This book covers core and emerging in vitro and in vivo protocols used to study how various components of the tumor microenvironment are established and subsequently interact with tumor cells to facilitate carcinogenesis. In addition, the book examines research topics including cellular and molecular biology approaches, in vivo genetic approaches, various "omics"-based strategies, therapeutic strategies to target the microenvironment, and, finally, advanced techniques in the fields of tissue engineering and nanotechnology. Written and validated in the laboratories of a number of trusted collaborating authors for the highly successful Methods in Molecular Biology series, chapters contain introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Practical and authoritative, The Tumor Microenvironment: Methods and Protocols constitutes a compendium of techniques now available to a broad audience, including basic and clinician scientists, systems biologists, and biological engineers.

Powerful human anatomy desktop easel reference in 21 pages with more detailed illustrations and labeled parts per page than any other reference tool. Pages are laminated, making them rip and spill-proof and are spiral bound with an easel-stand making this a desktop reference that stands tall on your desk for hands-free reading. Simply flip pages to find the system you need to reference. Beautifully illustrated by award-winning anatomical artist Vincent Perez. There is no other source that offers this much anatomical reference in this amount of space and for this price. Systems covered include: Muscular System Origins & Insertions Skeletal System Joints & Ligaments Nervous System The Brain Cutaneous Innervation Circulatory System Heart Lymphatic System Digestive System & Viscera Respiratory & Urinary Systems Reproductive System Micro Anatomy Suggested uses: Students -- establish your core memory of human anatomy whether you will be a nurse, physical therapists, pre med, or even a massage therapist Medical Coders -- spiral reference stands upright on the desk for easy flip-through reference Medical Administration -- quick reference tool for the important roles on the other side of the medical profession

The rapid expansion of the area of free radical biology in the last 25 years has occurred within a framework of assumptions and preconceived notions that has at times directed the course of this movement. The most dominant of these notions has been the view that free radical production is without exception a bad thing, and that the more efficient our elimination of these toxic substances, the better off we will be. The very important observation by Bernard Babior and colleagues in 1973 that activated phagocytes produce superoxide in order to kill micro organisms, served to illustrate that constructive roles are possible for free radicals. For many in the field, however, this merely underscored the deadly nature of oxygen-derived radicals, both from the microbe's point of view and from the host's as well. (Phagocyte-produced superoxide is responsible in part for the tissue injury manifested as inflammation. See Harris and Granger, Chapter 5, and Leff, Hybertson and Repine, Chapter 6.)
Mother Nature, however, has a penchant for being able to make a silk purse from a sow's ear. If one is dealt a bad hand, one must simply make the best of it. After two decades of focusing on the destructive side of free radicals, the last few years have begun to reveal a new and finer perspective on free radical metabolism - a role in regulation of cellular function (see Schulze-Osthoff and Baeuerle, Chapter 2). Evidence from a number of sources suggests that an increase in the oxidative status of cell encourages that cell to grow and divide. Increasing the expression of mangnese superoxide dismutase can suppress the malignant phenotype of melanon cells (see Oberley and Oberley, Chapter 3). Oxidative stress beyond a certain poitosis (from the Greek, literally "to fall apart"). Is this suicide response an evolutionary fail-safe device to curtail tumorogenesis? Does oxidative stress-induced apoptosis account for the loss of immune cells in AIDS (see Flores and McCor Chapter 4)?
This volume attempts to present the spectrum of roles, both good and bad played by active oxygen species as understood at this point in the evolution of this field of free radical biology.

The book presents an integrative review of paleoneurology, the study of endocranial morphology in fossil species. The main focus is on showing how computed methods can be used to support advances in evolutionary neuroanatomy, paleoanthropology and archaeology and how they have contributed to creating a completely new perspective in cognitive neuroscience. Moreover, thanks to its multidisciplinary approach, the book addresses students and researchers approaching human paleoneurology from different angles and for different purposes, such as biologists, physicians, anthropologists, archaeologists and computer scientists. The individual chapters, written by international experts, represent authoritative reviews of the most important topics in the field. All the concepts are presented in an easy-to-understand style, making them accessible to university students, newcomers and also to anyone interested in understanding how methods like biomedical imaging, digital anatomy and computed and multivariate morphometrics can be used for analyzing ontogenetic and phylogenetic changes according to the principles of functional morphology, morphological integration and modularity.

Complete, labeled illustrations of the viscera.
Chart is loaded with beautifully illustrated diagrams, clearly and concisely labeled for easy identification.
Illustrations by award-winning medical illustrator Vincent Perez.

Chart includes detailed diagrams of:
. heart & lung lymphatics
. respiratory system
. anterior heart
. posterior heart
. viscera
. digestive system
. posterior digestive system
. bronchial tree
. circulatory system
. posterior circulatory system
. stomach & pancreatic lymphatics
. stomach
. bile & pancreatic duct
. hepatic portal veins
. large intestine
. lymphatics & large intestine
. small intestine
. ileocecal sphincter & appendix
. rectum
. male urinary system, anterior view
. lymphatic system
. kidneys
. female urogenital system, lateral view
. male urogenital system, lateral view
"

Volume 6 provides coverage of the mechanisms of regulation of autophagy; intracellular pathogen use of the autophagy mechanism; the role of autophagy in host immunity; and selective autophagy. Attention is given to a number of mechanistic advances in the understanding of regulation, particularly the importance of nutrient availability; microRNAs; and cross-talk with other protein degradation pathways. Intracellular pathogen repurposing of autophagy for pathogenic benefit is also provided, with coverage of Herpesvirus protein modulation of autophagy; the varicella-zoster virus and the maintenance of homeostasis; and the relationship between autophagy and the hepatitis b virus. The significance of autophagy in host defense is elucidated, providing a specific focus on facilitation of antigen presentation; participation in thymic development; and the sharing of regulatory nodes with innate immunity. Selective autophagy for the degradation of mitochondria and endocytosed gap junctions are also explored. This book is an asset to newcomers as a concise overview of the regulation of autophagy, its role in host defense and immunity, and selective autophagy, while serving as an excellent reference for more experienced scientists and clinicians looking to update their knowledge. Volumes in the Series Volume 1: Molecular Mechanisms. Elucidates autophagy's association with numerous biological processes, including cellular development and differentiation, cancer, immunity, infectious diseases, inflammation, maintenance of homeostasis, response to cellular stress, and degenerative diseases such as Alzheimer's, Parkinson's, Huntington's, amyotrophic lateral sclerosis, and prion diseases. Volume 2: Role in General Diseases. Describes the various aspects of the complex process of autophagy in a myriad of devastating human diseases, expanding from a discussion of essential autophagic functions into the role of autophagy in proteins, pathogens, immunity, and general diseases. Volume 3: Role in Specific Diseases. Explores the role of autophagy in specific diseases and developments, including: Crohn's Disease, Gaucher Disease, Huntington's Disease, HCV infection, osteoarthritis, and liver injury, with a full section devoted to in-depth exploration of autophagy in tumor development and cancer, as well as the relationship between autophagy and apoptosis. Volume 4: Mitophagy. Presents detailed information on the role of mitophagy, the selective autophagy of mitochondria, in health and disease, by delivering an in-depth treatment of the molecular mechanisms involved in mitophagy initiation and execution, as well as the role of mitophagy in Parkinson Disease, cardiac aging, and skeletal muscle atrophy. Volume 5: Role in Human Diseases. Comprehensively describes the role of autophagy in human diseases, delivering coverage of the antitumor and protumor roles of autophagy; the therapeutic inhibition of autophagy in cancer; and the duality of autophagy's effects in various cardiovascular, metabolic, and neurodegenerative disorders. Volume 6: Regulation of Autophagy and Selective Autophagy. Provides coverage of the mechanisms of regulation of autophagy; intracellular pathogen use of the autophagy mechanism; the role of autophagy in host immunity; and selective autophagy. Volume 7: Role of Autophagy in Therapeutic Applications. Provides coverage of the latest developments in autophagosome biogenesis and regulation; the role of autophagy in protein quality control; the role of autophagy in apoptosis; autophagy in the cardiovascular system; and the relationships between autophagy and lifestyle. Volume 8: Autophagy and Human Diseases. Reviews recent advancements in the molecular mechanisms underlying a large number of genetic and epigenetic diseases and abnormalities, and introduces new, more effective therapeutic strategies, in the development of targeted drugs and programmed cell death, providing information that will aid on preventing detrimental inflammation. Volume 9: Necrosis and Inflammation in Human Diseases. Emphasizes the role of Autophagy in necrosis and inflammation, explaining in detail the molecular mechanism(s) underlying the formation of autophagosomes, including the progression of Omegasomes to autophagosomes.

Understanding the importance and necessity of the role of autophagy in health and disease is vital for the studies of cancer, aging, neurodegeneration, immunology, and infectious diseases. Comprehensive and up-to-date, this book offers a valuable guide to these cellular processes whilst inciting researchers to explore their potentially important connections. Volume 5 comprehensively describes the role of autophagy in human diseases, delivering coverage of the antitumor and protumor roles of autophagy; the therapeutic inhibition of autophagy in cancer; and the duality of autophagy's effects in various cardiovascular, metabolic, and neurodegenerative disorders. In spite of the increasing importance of autophagy in the various pathophysiological conditions mentioned above, this process remains underestimated and overlooked. As a consequence, its role in the initiation, stability, maintenance, and progression of these and other diseases remains poorly understood. This book is an asset to newcomers as a concise overview of the diverse disease implications of autophagy, while serving as an excellent reference for more experienced scientists and clinicians looking to update their knowledge. Volumes in the Series Volume 1: Molecular Mechanisms. Elucidates autophagy's association with numerous biological processes, including cellular development and differentiation, cancer, immunity, infectious diseases, inflammation, maintenance of homeostasis, response to cellular stress, and degenerative diseases such as Alzheimer's, Parkinson's, Huntington's, amyotrophic lateral sclerosis, and prion diseases. Volume 2: Role in General Diseases. Describes the various aspects of the complex process of autophagy in a myriad of devastating human diseases, expanding from a discussion of essential autophagic functions into the role of autophagy in proteins, pathogens, immunity, and general diseases. Volume 3: Role in Specific Diseases. Explores the role of autophagy in specific diseases and developments, including: Crohn's Disease, Gaucher Disease, Huntington's Disease, HCV infection, osteoarthritis, and liver injury, with a full section devoted to in-depth exploration of autophagy in tumor development and cancer, as well as the relationship between autophagy and apoptosis. Volume 4: Mitophagy. Presents detailed information on the role of mitophagy, the selective autophagy of mitochondria, in health and disease, by delivering an in-depth treatment of the molecular mechanisms involved in mitophagy initiation and execution, as well as the role of mitophagy in Parkinson Disease, cardiac aging, and skeletal muscle atrophy. Volume 5: Role in Human Diseases. Comprehensively describes the role of autophagy in human diseases, delivering coverage of the antitumor and protumor roles of autophagy; the therapeutic inhibition of autophagy in cancer; and the duality of autophagy's effects in various cardiovascular, metabolic, and neurodegenerative disorders. Volume 6: Regulation of Autophagy and Selective Autophagy. Provides coverage of the mechanisms of regulation of autophagy; intracellular pathogen use of the autophagy mechanism; the role of autophagy in host immunity; and selective autophagy. Volume 7: Role of Autophagy in Therapeutic Applications. Provides coverage of the latest developments in autophagosome biogenesis and regulation; the role of autophagy in protein quality control; the role of autophagy in apoptosis; autophagy in the cardiovascular system; and the relationships between autophagy and lifestyle. Volume 8: Autophagy and Human Diseases. Reviews recent advancements in the molecular mechanisms underlying a large number of genetic and epigenetic diseases and abnormalities, and introduces new, more effective therapeutic strategies, in the development of targeted drugs and programmed cell death, providing information that will aid on preventing detrimental inflammation. Volume 9: Necrosis and Inflammation in Human Diseases. Emphasizes the role of Autophagy in necrosis and inflammation, explaining in detail the molecular mechanism(s) underlying the formation of autophagosomes, including the progression of Omegasomes to autophagosomes.

Autophagy: Cancer, Other Pathologies, Inflammation, Immunity, Infection and Aging, Volume 4 - Mitophagy presents detailed information on the role of mitophagy, the selective autophagy of mitochondria, in health and disease, by delivering an in-depth treatment of the molecular mechanisms involved in mitophagy initiation and execution, as well as the role of mitophagy in Parkinson's Disease, cardiac aging, and skeletal muscle atrophy. The most current understanding of the proteins and pathways involved in mitophagy are covered, with specific attention to Nix and Bnip3, PINK1/Parkin, Atg32, and FUNDC1. The role of mitophagy in cancer, neurodegeneration, aging, infection, and inflammation is also discussed providing essential insights into the pathogenesis of a variety of mitochondria dysfunction-related diseases. This book is an asset to newcomers as a concise overview of the current knowledge on mitophagy, while serving as an excellent update reference for more experienced scientists working on other aspects of autophagy. From these well-developed foundations, researchers, translational scientists, and practitioners may work to better implement more effective therapies against some of the most devastating human diseases. Volumes in the Series Volume 1: Molecular Mechanisms. Elucidates autophagy's association with numerous biological processes, including cellular development and differentiation, cancer, immunity, infectious diseases, inflammation, maintenance of homeostasis, response to cellular stress, and degenerative diseases such as Alzheimer's, Parkinson's, Huntington's, amyotrophic lateral sclerosis, and prion diseases. Volume 2: Role in General Diseases. Describes the various aspects of the complex process of autophagy in a myriad of devastating human diseases, expanding from a discussion of essential autophagic functions into the role of autophagy in proteins, pathogens, immunity, and general diseases. Volume 3: Role in Specific Diseases. Explores the role of autophagy in specific diseases and developments, including: Crohn's Disease, Gaucher Disease, Huntington's Disease, HCV infection, osteoarthritis, and liver injury, with a full section devoted to in-depth exploration of autophagy in tumor development and cancer, as well as the relationship between autophagy and apoptosis. Volume 4: Mitophagy. Presents detailed information on the role of mitophagy, the selective autophagy of mitochondria, in health and disease, by delivering an in-depth treatment of the molecular mechanisms involved in mitophagy initiation and execution, as well as the role of mitophagy in Parkinson Disease, cardiac aging, and skeletal muscle atrophy. Volume 5: Role in Human Diseases. Comprehensively describes the role of autophagy in human diseases, delivering coverage of the antitumor and protumor roles of autophagy; the therapeutic inhibition of autophagy in cancer; and the duality of autophagy's effects in various cardiovascular, metabolic, and neurodegenerative disorders. Volume 6: Regulation of Autophagy and Selective Autophagy. Provides coverage of the mechanisms of regulation of autophagy; intracellular pathogen use of the autophagy mechanism; the role of autophagy in host immunity; and selective autophagy. Volume 7: Role of Autophagy in Therapeutic Applications. Provides coverage of the latest developments in autophagosome biogenesis and regulation; the role of autophagy in protein quality control; the role of autophagy in apoptosis; autophagy in the cardiovascular system; and the relationships between autophagy and lifestyle. Volume 8: Autophagy and Human Diseases. Reviews recent advancements in the molecular mechanisms underlying a large number of genetic and epigenetic diseases and abnormalities, and introduces new, more effective therapeutic strategies, in the development of targeted drugs and programmed cell death, providing information that will aid on preventing detrimental inflammation. Volume 9: Necrosis and Inflammation in Human Diseases. Emphasizes the role of Autophagy in necrosis and inflammation, explaining in detail the molecular mechanism(s) underlying the formation of autophagosomes, including the progression of Omegasomes to autophagosomes.

Human chorionic gonadotropin (hCG) is produced during pregnancy by the embryo. It promotes progesterone production by corpus luteal cells. It also functions in pregnancy to promote angiogenesis in uterine vasculature, it immuno-blands the invading placental tissue so it is not rejected by the maternal uterine tissues, promotes the growth of the uterus in line with the growth of the fetus, promotes the differentiation of growing cytotrophoblast cells, promotes the quiescence of contractions in the uterine myometrium during the course of pregnancy, and also has function in growth and development of fetal organs. The first edition described the detailed biology, clinical chemistry, and clinical perspectives of hCG and associated molecules, and examines hCG, hyperglycosylated hCG and hCG free ss-subunit, 3 separate and independent molecules with totally sovereign physiological functions. The second edition will include coverage of the many new discoveries that have been made in the last five years: hCG analogues may be the actual driving signal of all human cancers. The editor estimates that 40% of the out of date material will be excluded and replaced with 40% of the exciting new findings. The book will also have a much clearer pregnancy and cancer focus.

This book, part contributed volume, part proceedings, discusses state-of-the-art advances on human cell transformation in cell models for the study of cancer and aging. Several of the chapters are from the Human Cell Transformation: Advances in Cell Models for the Study of Cancer and Aging conference that was held in June 2018 at McGill University. The authors represent international expertise on a wide variety of topics ranging from different types of cancer (prostate, bone, breast, etc.) to tumor microenvironment, tumor progression, homogeneity, and possible therapies and treatments.

This new volume of "Methods in Enzymology" continues the legacy of this premier serial with quality chapters authored by leaders in the field. This volume covers cytoskeletal structure, including such topics as rotational movement of formins studied by fluorescence polarization microscopy, in vitro assembly assays for bacterial actin filaments, and modulators of microtubule plus end growth.
Continues the legacy of this premier serial with quality chapters authored by leaders in the fieldCovers cytoskeletal structureContains chapters with such topics as reconstitution of organelle transport and assaying microtubule nucleation by gamma-tubulin ring complex.

"Clinical Anatomy of the Cranial Nerves" combines anatomical knowledge, pathology, clinical examination, and explanation of clinical findings, drawing together material typically scattered throughout anatomical textbooks. All of the pertinent anatomical topics are conveniently organized to instruct on anatomy, but also on how to examine the functioning of this anatomy in the patient. Providing a clear and succinct presentation of the underlying anatomy, with directly related applications of the anatomy to clinical examination, the book also provides unique images of anatomical structures of plastinated cadaveric dissections. These images are the only ones that exist in this form, and have been professionally produced in the Laboratory of Human Anatomy, University of Glasgow under the auspices of the author. These specimens offer a novel way of visualizing the cranial nerves and related important anatomical structures.
Anatomy of cranial nerves described in text format with accompanying high-resolution images of professional, high-quality prosected cadaveric material, demonstrating exactly what the structures (and related ones) look likeSuccinct yet comprehensive format with quick and easy access to facts in clearly laid out key regions, common throughout the different cranial nervesIncludes clinical examination and related pathologies, featuring diagnostic summaries of potential clinical presentations and clinically relevant questions on the anatomy of these nerves"

"Methods of Adipose Tissue Biology" is a must-have for anyone interested in obesity or the physiology of white or brown adipose tissues. It contains state-of-the-art methods from researchers who are world leaders in this field. Detailed lab protocols include methods to visualize adipocytes and adipose tissues in humans and experimental models, converting stem cells into white and brown adipocytes in vitro, evaluating aspects of adipocyte metabolism, inducibly knocking out genes in adipose tissues, and evaluating transcriptional control of adipogenesis on a global scale.
The study of adipose tissue goes hand in hand with our global effort to understand and reverse the epidemic of obesity and associated medical complicationsContributors include leading researchers who have made tremendous contributions to our ability to investigate white and brown adipose tissuesThe wide variety of experimental approaches detailed within this volume: including the evaluation of adipose tissue biology at the molecular, biochemical, cellular, tissue, and organismal levels

Andreas Vesalius 1514-1564 By Stephen N. Joffe, M.D. Vesalius was the foremost pioneer of modern anatomy. Born in Brussels, he came from a family of physicians. Educated in Louvain, he studied medicine in Montpelier and Paris, returning to Louvain to teach anatomy. In 1535 he went to France to be an army surgeon to King Charles V and two years later became a professor of anatomy in Padua, Italy. Subsequently he became a physician to the court of Philip II of Spain. On a pilgrimage to Jerusalem, he received a call to return to Padua to occupy chair of Fallopius. In a storm leading to a shipwreck and subsequent death on the Isle of Zante, Vesalius was buried there in an unmarked grave in 1564. This marked the end of the 'prince of anatomy.' Vesalius' book De Humani Corporus Fabrica published in Basel in 1543, contributes one of the greatest treasures of western civilization and culture. With its companion volume the Epitome, began the modern observational science and research.

This new volume of Current Topics in Developmental Biology covers Stem Cells in Development and Disease. The chapters provide a comprehensive set of reviews covering such topics as the mechanisms of pluripotency in vivo and in vitro, hematopoietic stem cell development, intestinal stem cells and their defining niche, epithelial stem cells in adult skin, the mammary stem cell hierarchy, satellite cells, neural stem cells of the hippocampus, lung stem and progenitor cells in tissue homeostasis and disease, spermatogonial stem cell functions in physiological and pathological conditions, the origin, biology, and therapeutic potential of facultative adult hepatic progenitor cells, nephron progenitor cells, adult stem cell niches, cancer stem cells, pluripotency and cellular heterogeneity, and cellular mechanisms of somatic stem cell aging
Covers the area of Stem Cells in Development and DiseaseInternational board of authors Provides a comprehensive set of reviews covering such topics as Intestinal Stem Cells, Nephron Stem Cells/Progenitors, Skin epithelial Stem Cells and Lung Stem Cells