Master the concepts you need to know with Human Embryology and Developmental Biology. Dr. Bruce M. Carlson's clear explanations provide an easy-to-follow "road map" through the most up-to-date scientific knowledge, giving you a deeper understanding of the key information you need to know for your courses, exams, and ultimately clinical practice. Visualize normal and abnormal development with hundreds of superb clinical photos and embryological drawings. Access the fully searchable text online, view animations, answer self-assessment questions, and much more at www.studentconsult.com. Grasp the molecular basis of embryology, including the processes of branching and folding - essential knowledge for determining the root of many abnormalities. Understand the clinical manifestations of developmental abnormalities with clinical vignettes and Clinical Correlations boxes throughout. Your purchase entitles you to access the web site until the next edition is published, or until the current edition is no longer offered for sale by Elsevier, whichever occurs first. If the next edition is published less than one year after your purchase, you will be entitled to online access for one year from your date of purchase. Elsevier reserves the right to offer a suitable replacement product (such as a downloadable or CD-ROM-based electronic version) should access to the web site be discontinued.
The Human Body: Linking Structure and Function provides knowledge on the human body's unique structure and how it works. Each chapter is designed to be easily understood, making the reading interesting and approachable. Organized by organ system, this succinct publication presents the functional relevance of developmental studies and integrates anatomical function with structure. Focuses on bodily functions and the human body's unique structure Offers insights into disease and disorders and their likely anatomical origin Explains how developmental lineage influences the integration of organ systems
Master the concepts you need to know with Human Embryology and Developmental Biology. Dr. Bruce M. Carlson's clear explanations provide an easy-to-follow "road map" through the most up-to-date scientific knowledge, giving you a deeper understanding of the key information you need to know for your courses, exams, and ultimately clinical practice. Consult this title on your favorite e-reader with intuitive search tools and adjustable font sizes. Elsevier eBooks provide instant portable access to your entire library, no matter what device you're using or where you're located. Visualize normal and abnormal development with hundreds of superb clinical photos and embryological drawings. Access the fully searchable text online, view animations, answer self-assessment questions, and much more at www.studentconsult.com. Grasp the molecular basis of embryology, including the processes of branching and folding - essential knowledge for determining the root of many abnormalities. Understand the clinical manifestations of developmental abnormalities with clinical vignettes and Clinical Correlations boxes throughout.
Bruce Carlson’s Human Embryology and Developmental Biology is one of the most detailed texts available for those who want to truly understand both the morphological and molecular aspects of human embryological development. Fully updated in its seventh edition, the book provides a thorough grounding in all aspects of embryology. It presents in detail the molecular and cellular basis for embryological processes, from early development through to development of body systems. It covers examples of congenital malformations and their underlying mechanisms, and comes complete with clinical vignettes and review questions to support learning. This book will suit medical and science students taking embryology courses as well as scientists and clinicians who find themselves returning to this topic throughout their careers. Clear and consistent writing style – highly readable and well-focused Extensively illustrated to demystify complex topics Good selection of original photographs of congenital anomalies to assist with identification Review questions and suggested readings for further learning Series of animations of complex embryological processes to accompany the text explanations Clinical correlation boxes, vignettes and summary boxes for quick revision Many new drawings and photographs Thoroughly updated with recent research to advance understanding Expanded treatment of newly understood molecular pathways. Major updates on gametes, body axis formation, placental pathology, adipose tissue, intestinal and facial development
Completely revised from cover to cover, Human Embryology and Developmental Biology, 6th Edition, helps you master complex concepts on every aspect of normal and abnormal human development. Dr. Bruce M. Carlson provides authoritative, readable coverage of today’s scientific knowledge in this fast-changing field, keeping you up to date with what you need to know for coursework, exams, and clinical practice. Features an extensive, full-color illustration program, with hundreds of superb clinical photos and embryological drawings – more than 50 new to this edition. Presents information in an integrated, easy-to-follow manner, incorporating molecular, experimental, and morphological material into each relevant area of the text. Includes numerous new, high-quality photos of congenital malformations. Provides major updates to many topics, including neuroembryology, early embryology, fetal imaging techniques, somite formation, and craniofacial development. Newly added series of animations for visualization of complex embryological processes. Helps you understand the molecular basis of embryology, including the processes of branching and folding - essential knowledge for determining the root of many abnormalities. Features clinical vignettes and Clinical Correlations boxes to help you better understand the clinical manifestations of developmental abnormalities.
Muscle Biology: The Life History of a Muscle looks at the story of a muscle from its embryonic beginnings, through its growth and ability to adapt to changing functional circumstances during adult life, to its eventual decline in both structure and function as old age progresses. Injury occurs to muscle during normal activity, after trauma, and during the source of certain diseases. Chapters on both muscle regeneration and muscle diseases emphasize the possibilities and limitsations of the healing capacity of muscle fibers. Muscle Biology begins with a brief review about the structure and function of a normal mature muscle and then proceeds to follow the developmental history of a muscle from the embryo to old age in a manner that gives the reader a perspective about not only developmental controls but also how at any stage of development a muscle is able to adapt to its functional environment. The book discusses both normal and abnormal changes in the muscle, the mechanisms behind those changes and how to mitigate deleterious changes from disease, 'normal' aging, and disuse/lack of physical activity. This is a must-have reference for students, researchers and practitioners in need of a comprehensive overview of muscle biology. Provides an overview of muscle biology over the course of one’s entire lifespan Explains the important elements of each aspect of muscle biology without drowning the reader in excessive detail Contains over 300 illustrations and includes chapter summaries
With the explosion of knowledge from molecular biology and the burgeoning interest in generating or regenerating tissues or organs through various bioengineering or stem cell approaches, many scientists and students have shown a renewed interest in the phenomenon of regeneration. Because relatively few have had the luxury of being able to approach the phenomenon of regeneration from a broad biological perspective, Dr. Carlson has produced a book that outlines the fundamental principles of regeneration biology. Subject matters focus principally on regeneration in vertebrate systems, but also invertebrate regeneration. In order to manipulate regenerative processes, it is important to understand the underlying principles of regeneration. Principles of Regnerative Biology is the key introductory reference for all developmental biologists, geneticists, and tissue and stem cell researchers. Creates a general understanding of one of the most fascinating and complex phenomena in biology Discusses the ability and diversity of regeneration in various organisms Explains the history and origins of cells in regenerating systems Includes information on stem cells and its important role in regeneration
A wonderfully readable mix of natural history, biology, lake dynamics, and fishing tips, this beautiful illustrated volume reveals the fascinating underwater world of a north country lake.
This thoroughly revised 4th edition offers both clear descriptions and explanations of human embryonic development based on all the most up-to-date scientific discoveries and understanding. Particular attention is paid to the fundamental aspects of molecular mechanisms in development, introducing you to major families of important developmental molecules. Clinical aspects of development are covered throughout in boxed sections of text. First-rate illustrations complete this essential package. Integrates contemporary developmental knowledge with classical embryological understanding. Interprets complex molecular developments, to help you learn how exactly the embryo develops. Presents first-rate clinical photos and clear drawings, to help you to memorize and understand normal and abnormal development. Uses clear sections within the chapter and summaries at the end of each to help you navigate this complex subject. Includes review questions at the end of each chapter to help you assess your knowledge. Provides more coverage of molecular development to help you interpret complex information. Revises the section on the development of the head, particularly useful for dental students.
Completely revised from cover to cover, Human Embryology and Developmental Biology, 6th Edition, helps you master complex concepts on every aspect of normal and abnormal human development. Dr. Bruce M. Carlson provides authoritative, readable coverage of today’s scientific knowledge in this fast-changing field, keeping you up to date with what you need to know for coursework, exams, and clinical practice. Features an extensive, full-color illustration program, with hundreds of superb clinical photos and embryological drawings – more than 50 new to this edition. Presents information in an integrated, easy-to-follow manner, incorporating molecular, experimental, and morphological material into each relevant area of the text. Includes numerous new, high-quality photos of congenital malformations. Provides major updates to many topics, including neuroembryology, early embryology, fetal imaging techniques, somite formation, and craniofacial development. Newly added series of animations for visualization of complex embryological processes. Helps you understand the molecular basis of embryology, including the processes of branching and folding - essential knowledge for determining the root of many abnormalities. Features clinical vignettes and Clinical Correlations boxes to help you better understand the clinical manifestations of developmental abnormalities.
Foundations of Orientation and Mobility, the classic professional reference and textbook has been completely revised and expanded to two volumes by the most knowledgeable experts in the field. The new third edition includes both the latest research in O&M and expanded information on practice and teaching strategies. Volume 1, History and Theory, includes the bases of O&M knowledge, including perception, orientation, low vision, audition, kinesiology, psychosocial issues, and learning theories, as well as chapters on technology, dog guides, orientation aids, and environmental accessibility. A section on the profession of O&M includes its international history; administration, assessment and program planning; and a chapter on research in O&M. No O&M student or professional can afford to be without this essential resource.
Bruce Carlson’s Human Embryology and Developmental Biology is one of the most detailed texts available for those who want to truly understand both the morphological and molecular aspects of human embryological development. Fully updated in its seventh edition, the book provides a thorough grounding in all aspects of embryology. It presents in detail the molecular and cellular basis for embryological processes, from early development through to development of body systems. It covers examples of congenital malformations and their underlying mechanisms, and comes complete with clinical vignettes and review questions to support learning. This book will suit medical and science students taking embryology courses as well as scientists and clinicians who find themselves returning to this topic throughout their careers. Clear and consistent writing style – highly readable and well-focused Extensively illustrated to demystify complex topics Good selection of original photographs of congenital anomalies to assist with identification Review questions and suggested readings for further learning Series of animations of complex embryological processes to accompany the text explanations Clinical correlation boxes, vignettes and summary boxes for quick revision Many new drawings and photographs Thoroughly updated with recent research to advance understanding Expanded treatment of newly understood molecular pathways. Major updates on gametes, body axis formation, placental pathology, adipose tissue, intestinal and facial development
Master the concepts you need to know with Human Embryology and Developmental Biology. Dr. Bruce M. Carlson's clear explanations provide an easy-to-follow "road map" through the most up-to-date scientific knowledge, giving you a deeper understanding of the key information you need to know for your courses, exams, and ultimately clinical practice. Visualize normal and abnormal development with hundreds of superb clinical photos and embryological drawings. Access the fully searchable text online, view animations, answer self-assessment questions, and much more at www.studentconsult.com. Grasp the molecular basis of embryology, including the processes of branching and folding - essential knowledge for determining the root of many abnormalities. Understand the clinical manifestations of developmental abnormalities with clinical vignettes and Clinical Correlations boxes throughout. Your purchase entitles you to access the web site until the next edition is published, or until the current edition is no longer offered for sale by Elsevier, whichever occurs first. If the next edition is published less than one year after your purchase, you will be entitled to online access for one year from your date of purchase. Elsevier reserves the right to offer a suitable replacement product (such as a downloadable or CD-ROM-based electronic version) should access to the web site be discontinued.
Muscle Biology: The Life History of a Muscle looks at the story of a muscle from its embryonic beginnings, through its growth and ability to adapt to changing functional circumstances during adult life, to its eventual decline in both structure and function as old age progresses. Injury occurs to muscle during normal activity, after trauma, and during the source of certain diseases. Chapters on both muscle regeneration and muscle diseases emphasize the possibilities and limitsations of the healing capacity of muscle fibers. Muscle Biology begins with a brief review about the structure and function of a normal mature muscle and then proceeds to follow the developmental history of a muscle from the embryo to old age in a manner that gives the reader a perspective about not only developmental controls but also how at any stage of development a muscle is able to adapt to its functional environment. The book discusses both normal and abnormal changes in the muscle, the mechanisms behind those changes and how to mitigate deleterious changes from disease, 'normal' aging, and disuse/lack of physical activity. This is a must-have reference for students, researchers and practitioners in need of a comprehensive overview of muscle biology. Provides an overview of muscle biology over the course of one’s entire lifespan Explains the important elements of each aspect of muscle biology without drowning the reader in excessive detail Contains over 300 illustrations and includes chapter summaries
The Human Body: Linking Structure and Function provides knowledge on the human body's unique structure and how it works. Each chapter is designed to be easily understood, making the reading interesting and approachable. Organized by organ system, this succinct publication presents the functional relevance of developmental studies and integrates anatomical function with structure. Focuses on bodily functions and the human body's unique structure Offers insights into disease and disorders and their likely anatomical origin Explains how developmental lineage influences the integration of organ systems
What makes us social animals? Why do we behave the way we do? How does the brain influence our behaviour? The brain may have initially evolved to cope with a threatening world of beasts, limited food and adverse weather, but we now use it to navigate an equally unpredictable social landscape. In The Domesticated Brain, renowned psychologist Bruce Hood explores the relationship between the brain and social behaviour, looking for clues as to origins and operations of the mechanisms that keep us bound together. How do our brains enable us to live together, to raise children, and to learn and pass on information and culture? Combining social psychology with neuroscience, Hood provides an essential introduction to the hidden operations of the brain, and explores what makes us who we are.
This highly readable volume illuminates the interplay among biological, psychological, and social-contextual processes in the development of such prevalent problems as depression, schizophrenia, ADHD, dyslexia, and autism. Leading developmental scientist Bruce F. Pennington explains the variety of methods currently being used to investigate the mind-brain connection, including behavioral and molecular genetics, studies of brain structure and function, neuropsychology, and treatment studies. Shedding new light on where mental disorders come from, how they develop, and why they are so common, the book also examines the implications for treatment and prevention.
The Second Edition of this single-authored volume integrates multiple disciplines of basic and clinical research to help clinicians further develop the best possible care for the rehabilitation of patients with neurologic diseases. From the readable descriptions of the structures and functions of pathways for movement and cognition, the reader comes to understand the potential for training induced, pharmacologic, and near-future biologic interventions to enhance recovery. Dr. Dobkin shows how functional neuroimaging serves as a marker for whether physical, cognitive, and neuromodulating therapies work and how they sculpt the plasticity of the brain. Themes, such as how the manipulation of sensory experience can serve as a formidable tool for rehabilitation, run throughout the text, built from the level of the synapse to behaviors such as grasping, walking, and thinking. From illustrating how we may one day repair the brain and spinal cord to how to retrain spared and new pathways, Dr. Dobkin draws insights from a broad swath of fundamental research to give clinicians tools they can translate into bedside practices. The book treats the medical complications and therapeutic approaches to neurologic diseases as an interconnected matrix. The management of common medical issues, impairments, and disabilities are described across diseases. Special problems posed by patients with stroke, myelopathies, brain injury, multiple sclerosis, degenerative diseases, and motor unit disorders receive individual comment. Short-term and delayed pulse interventions for patients, along with clinical trials, are dissected and put into perspective. The First Edition of this book was titled Neurologic Rehabilitation. The title has been changed to reflect Dr. Dobkin's sense that fundamental research now drives the field of neurologic rehabilitation even more than it could in 1996 when the First Edition was published. The Second Edition features entirely new chapters on functional neuroimaging of recovery; neurostimulators and neuroprosteses; integration into the book of many new clinical and neuroscientific observations relevant to the clinician; and extensive updating and expansion of all chapters. Readers, whether clinicians serving the rehabilitation team, or students or researchers in neuroscience, neurology, physical medicine, allied health, or bioengineering, will acquire new insights and tools for creative pursuits that aim to lessen the disabilities of patients.
This book explains the anatomy and physiology of cartilage tissue in an integrated way. The emphasis is on how cartilage tissue functions and maintains homeostasis in a challenging mechanical environment. Supported by hundreds of references, the book posts new hypotheses explaining how cartilage adapts and achieves homeostasis in vivo, and tests them against available data. This exploratory approach creates a sense of discovery that the reader can join, or perhaps test themselves through their own research. The main benefit will be obtained by research students and professors looking to understand the deeper concepts that will further their own research, or clinicians (including health professionals and surgeons) who want to gain a deeper physiological understanding of cartilage tissue, which can then serve as a basis for more rational clinical decision-making they need to make on a daily basis. To help bridge the gap between basic science and clinically relevant joint disease, applications and interpretations of key physiological concepts are discussed in the context of osteoarthritis at the end of most chapters.
Quantitative traits-be they morphological or physiological characters, aspects of behavior, or genome-level features such as the amount of RNA or protein expression for a specific gene-usually show considerable variation within and among populations. Quantitative genetics, also referred to as the genetics of complex traits, is the study of such characters and is based on mathematical models of evolution in which many genes influence the trait and in which non-genetic factors may also be important. Evolution and Selection of Quantitative Traits presents a holistic treatment of the subject, showing the interplay between theory and data with extensive discussions on statistical issues relating to the estimation of the biologically relevant parameters for these models. Quantitative genetics is viewed as the bridge between complex mathematical models of trait evolution and real-world data, and the authors have clearly framed their treatment as such. This is the second volume in a planned trilogy that summarizes the modern field of quantitative genetics, informed by empirical observations from wide-ranging fields (agriculture, evolution, ecology, and human biology) as well as population genetics, statistical theory, mathematical modeling, genetics, and genomics. Whilst volume 1 (1998) dealt with the genetics of such traits, the main focus of volume 2 is on their evolution, with a special emphasis on detecting selection (ranging from the use of genomic and historical data through to ecological field data) and examining its consequences.
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