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Lipidomics: Volume 1: Methods and Protocols (Methods in Molecular Biology #579)
by Donald ArmstrongEssential in biological functions like cell signaling and, when disturbed, a likely cause of disease, lipids have proven to be a vital force in cell biology. In Lipidomics: Methods and Protocols, an international panel of experts present a wide variety of reviewed as well as unpublished data on isolation techniques, structural analysis, lipid rafts, lipid trafficking and profiling, biomarkers, lipid peroxidation, biostatistics applied to lipids, software tools, and bioinformatics. These studies range from simple systems, such as in yeast, to complex biological models. Samples used in these studies include: mitochondria, microsomes, endosomal membranes, RBS and plasma membranes, vesicles, caveolae, liposomes, macrophages, meibum, brain, microglia, retina, adipose tissue, keratinocytes, pulmonary surfactant, and hepatic cultures. Volume 1 focuses on shotgun and global lipidomics, analytical approaches, and lipid maps. Written in the highly successful Methods in Molecular Biology™ series format, the chapters include useful introductions to their respective topics, lists of the necessary equipment and materials, step-by-step, readily reproducible laboratory protocols, and authoritative notes on troubleshooting and avoiding common pitfalls. Comprehensive and cutting-edge, Lipidomics: Methods and Protocols will support researchers who wish to increase their utilization of lipidomics, which will certainly lead to more powerful technology, improved diagnostic-prognostic capabilities, and the identification of new valuable products.
Lipidomics: Volume 2: Methods and Protocols (Methods in Molecular Biology #580)
by Donald ArmstrongEssential in biological functions like cell signaling and, when disturbed, a likely cause of disease, lipids have proven to be a vital force in cell biology. In Lipidomics: Methods and Protocols, an international panel of experts present a wide variety of reviewed as well as unpublished data on isolation techniques, structural analysis, lipid rafts, lipid trafficking and profiling, biomarkers, lipid peroxidation, biostatistics applied to lipids, software tools, and bioinformatics. These studies range from simple systems, such as in yeast, to complex biological models. Samples used in these studies include: mitochondria, microsomes, endosomal membranes, RBS and plasma membranes, vesicles, caveolae, liposomes, macrophages, meibum, brain, microglia, retina, adipose tissue, keratinocytes, pulmonary surfactant, and hepatic cultures. Volume 2 focuses on oxidized lipids, trafficking and profiling, software, bioinformatics, and biostatistics. Written in the highly successful Methods in Molecular Biology™ series format, the chapters include useful introductions to their respective topics, lists of the necessary equipment and materials, step-by-step, readily reproducible laboratory protocols, and authoritative notes on troubleshooting and avoiding common pitfalls. Comprehensive and cutting-edge, Lipidomics: Methods and Protocols will support researchers who wish to increase their utilization of lipidomics, which will certainly lead to more powerful technology, improved diagnostic-prognostic capabilities, and the identification of new valuable products.
Oxidants and Antioxidants: Ultrastructure and Molecular Biology Protocols (Methods in Molecular Biology #196)
by Donald ArmstrongIn our first protocols book, Free Radical and Antioxidant Protocols (1), r- erence to in vivo, ex vivo, or in situ techniques were few compared to classical biochemical assays and only 6 of the 40 chapters were concerned with these applications. In our second book, Oxidative Stress Biomarkers and Antioxidant Protocols (2), which is being published concurrently with this third volume, Oxidants and Antioxidants: Ultrastructure and Molecular Biology Protocols, the number of such chapters has increased. The literature dealing with histoche- cal/cytochemical and immunohistochemical techniques and staining to identify cellular/subcellular sites of oxidative stress has expanded rapidly, as has the molecular biology methodology used to analyze free radical and antioxidant (AOX) reactions, as well as the monitoring of living tissue. A two-way search was performed for each technique listed in Table 1, coupled with “oxidative stress” using the PUBMED search engine from the National Library of Medicine at NIH. Most of the techniques involved in m- suring oxidative stress employ molecular biology or ultrastructural approaches. Of these techniques, histology, polymerase chain reaction, and Western blotting are the most widely used. Several forms of therapy are now available for patients with increased oxidative stress. In addition to standard antioxidant therapy supplementation in vivo and in vitro, photodynamic therapy (PDT) employs excitation of a photon-emitting compound delivered systemically for free radical-mediated necrosis of affected tissues, and stem cells are also being used to induce signaling events or replace antioxidant enzymes.
Oxidative Stress Biomarkers and Antioxidant Protocols (Methods in Molecular Biology #186)
by Donald ArmstrongThe first protocols book, Free Radical and Antioxidant Protocols (1) was published in late 1998. Sections were divided into three parts, covering selected biochemical techniques for measuring oxidative stress, antioxidant (AOX) activity, and combined applications. In choosing the 40 methods to be included in that book, I realized there were considerably more of equal value than that which we could have presented in a single volume. To produce a comprehensive resource, this book and a third are being compiled to expand coverage of the field. A summary of papers (2) published on this important subject emphasizes the continuing rapid growth in oxidative stress investigations relating to our understanding of biochemical reactions, their relevance to pathophysiological mechanisms, how disease may arise, and how therapeutic intervention may be achieved(3). Although there is some overlap between the categories, the ana- sis shown below illustrates where current studies are concentrated and are almost evenly distributed between free radicals and AOX. Over the last 4 yr, there has been a 55% increase in the number of papers published in the area.
Oxidative Stress and Antioxidant Protection: The Science of Free Radical Biology and Disease
by Donald Armstrong Robert D. StrattonOxidative Stress and Antioxidant Protection: The Science of Free Radical Biology and provides an overview of the basic principles of free radical formation. The text delves into free radical formation in molecular biology and its effect on subcellular damage, as well as the role of antioxidant reserves as a protective mechanism. Oxidative Stress and Antioxidant Protection begins with a historical perspective of pioneers in oxidative stress with an introductory section that explains the basic principles related to oxidative stress in biochemistry and molecular biology, demonstrating both pathways and biomarkers. This section also covers diagnostic imaging and differential diagnostics. The following section covers psychological, physiologic, pharmacologic and pathologic correlates. This section addresses inheritance, gender, nutrition, obesity, family history, behavior modification, natural herbal-botanical products, and supplementation in the treatment of disease. Clinical trials are also summarized for major medical disorders and efficacy of treatment, with particular focus on inflammation, immune response, recycling, disease progression, outcomes and interventions. Each of the chapters describes what biomarker(s) and physiological functions may be relevant to a concept of specific disease and potential alternative therapy. The chapters cover medical terminology, developmental change, effects of aging, senescence, lifespan, and wound healing, and also illustrates cross-over exposure to other fields. The final chapter covers how and when to interpret appropriate data used in entry level biostatistics and epidemiology. Authored and edited by leaders in the field, Oxidative Stress and Antioxidant Protection will be an invaluable resource for students and researchers studying cell biology, molecular biology, and biochemistry, as well professionals in various health science fields.
Oxidative Stress and Antioxidant Protection: The Science of Free Radical Biology and Disease
by Donald Armstrong Robert D. StrattonOxidative Stress and Antioxidant Protection: The Science of Free Radical Biology and provides an overview of the basic principles of free radical formation. The text delves into free radical formation in molecular biology and its effect on subcellular damage, as well as the role of antioxidant reserves as a protective mechanism. Oxidative Stress and Antioxidant Protection begins with a historical perspective of pioneers in oxidative stress with an introductory section that explains the basic principles related to oxidative stress in biochemistry and molecular biology, demonstrating both pathways and biomarkers. This section also covers diagnostic imaging and differential diagnostics. The following section covers psychological, physiologic, pharmacologic and pathologic correlates. This section addresses inheritance, gender, nutrition, obesity, family history, behavior modification, natural herbal-botanical products, and supplementation in the treatment of disease. Clinical trials are also summarized for major medical disorders and efficacy of treatment, with particular focus on inflammation, immune response, recycling, disease progression, outcomes and interventions. Each of the chapters describes what biomarker(s) and physiological functions may be relevant to a concept of specific disease and potential alternative therapy. The chapters cover medical terminology, developmental change, effects of aging, senescence, lifespan, and wound healing, and also illustrates cross-over exposure to other fields. The final chapter covers how and when to interpret appropriate data used in entry level biostatistics and epidemiology. Authored and edited by leaders in the field, Oxidative Stress and Antioxidant Protection will be an invaluable resource for students and researchers studying cell biology, molecular biology, and biochemistry, as well professionals in various health science fields.
Conceiving Risk, Bearing Responsibility: Fetal Alcohol Syndrome and the Diagnosis of Moral Disorder
by Elizabeth M. ArmstrongIn American society, the consumption of alcohol during pregnancy is considered dangerous, irresponsible, and in some cases illegal. Pregnant women who have even a single drink routinely face openly voiced reproach. Yet fetal alcohol syndrome (FAS) in infants and children is notoriously difficult to diagnose, and the relationship between alcohol and adverse birth outcomes is riddled with puzzles and paradoxes. Sociologist Elizabeth M. Armstrong uses fetal alcohol syndrome and the problem of drinking during pregnancy to examine the assumed relationship between somatic and social disorder, the ways in which social problems are individualized, and the intertwining of health and morality that characterizes American society. She traces the evolution of medical knowledge about the effects of alcohol on fetal development, from nineteenth-century debates about drinking and heredity to the modern diagnosis of FAS and its kindred syndromes. She argues that issues of race, class, and gender have influenced medical findings about alcohol and reproduction and that these findings have always reflected broader social and moral preoccupations and, in particular, concerns about women's roles and place in society, as well as the fitness of future generations. Medical beliefs about drinking during pregnancy have often ignored the poverty, chaos, and insufficiency of some women's lives—factors that may be more responsible than alcohol for adverse outcomes in babies and children. Using primary sources and interviews to explore relationships between doctors and patients and women and their unborn children, Armstrong offers a provocative and detailed analysis of how drinking during pregnancy came to be considered a pervasive social problem, despite the uncertainties surrounding the epidemiology and etiology of fetal alcohol syndrome.
Die einfachen Zuckerarten und die Glucoside
by Frankland Armstrong Eugen Unna Emil FischerDieser Buchtitel ist Teil des Digitalisierungsprojekts Springer Book Archives mit Publikationen, die seit den Anfängen des Verlags von 1842 erschienen sind. Der Verlag stellt mit diesem Archiv Quellen für die historische wie auch die disziplingeschichtliche Forschung zur Verfügung, die jeweils im historischen Kontext betrachtet werden müssen. Dieser Titel erschien in der Zeit vor 1945 und wird daher in seiner zeittypischen politisch-ideologischen Ausrichtung vom Verlag nicht beworben.
Microfossils
by Howard Armstrong Martin BrasierThis is a new and completely rewritten edition of the well-known text Microfossils (first published in 1980) covering all the major microfossil groups, with information on taxonomy, phylogeny, ecology and palaeoecology. particular attention is given to the uses of microfossils in environmental reconstruction and biostratigraphy numerous line and half-tone illustrations emphasis on practical applications of micropalaeontology only student-friendly micropaleontology text available
How the Earth Turned Green: A Brief 3.8-Billion-Year History of Plants
by Joseph E. ArmstrongOn this blue planet, long before pterodactyls took to the skies and tyrannosaurs prowled the continents, tiny green organisms populated the ancient oceans. Fossil and phylogenetic evidence suggests that chlorophyll, the green pigment responsible for coloring these organisms, has been in existence for some 85% of Earth’s long history—that is, for roughly 3.5 billion years. In How the Earth Turned Green, Joseph E. Armstrong traces the history of these verdant organisms, which many would call plants, from their ancient beginnings to the diversity of green life that inhabits the Earth today. Using an evolutionary framework, How the Earth Turned Green addresses questions such as: Should all green organisms be considered plants? Why do these organisms look the way they do? How are they related to one another and to other chlorophyll-free organisms? How do they reproduce? How have they changed and diversified over time? And how has the presence of green organisms changed the Earth’s ecosystems? More engaging than a traditional textbook and displaying an astonishing breadth, How the Earth Turned Green will both delight and enlighten embryonic botanists and any student interested in the evolutionary history of plants.
How the Earth Turned Green: A Brief 3.8-Billion-Year History of Plants
by Joseph E. ArmstrongOn this blue planet, long before pterodactyls took to the skies and tyrannosaurs prowled the continents, tiny green organisms populated the ancient oceans. Fossil and phylogenetic evidence suggests that chlorophyll, the green pigment responsible for coloring these organisms, has been in existence for some 85% of Earth’s long history—that is, for roughly 3.5 billion years. In How the Earth Turned Green, Joseph E. Armstrong traces the history of these verdant organisms, which many would call plants, from their ancient beginnings to the diversity of green life that inhabits the Earth today. Using an evolutionary framework, How the Earth Turned Green addresses questions such as: Should all green organisms be considered plants? Why do these organisms look the way they do? How are they related to one another and to other chlorophyll-free organisms? How do they reproduce? How have they changed and diversified over time? And how has the presence of green organisms changed the Earth’s ecosystems? More engaging than a traditional textbook and displaying an astonishing breadth, How the Earth Turned Green will both delight and enlighten embryonic botanists and any student interested in the evolutionary history of plants.
How the Earth Turned Green: A Brief 3.8-Billion-Year History of Plants
by Joseph E. ArmstrongOn this blue planet, long before pterodactyls took to the skies and tyrannosaurs prowled the continents, tiny green organisms populated the ancient oceans. Fossil and phylogenetic evidence suggests that chlorophyll, the green pigment responsible for coloring these organisms, has been in existence for some 85% of Earth’s long history—that is, for roughly 3.5 billion years. In How the Earth Turned Green, Joseph E. Armstrong traces the history of these verdant organisms, which many would call plants, from their ancient beginnings to the diversity of green life that inhabits the Earth today. Using an evolutionary framework, How the Earth Turned Green addresses questions such as: Should all green organisms be considered plants? Why do these organisms look the way they do? How are they related to one another and to other chlorophyll-free organisms? How do they reproduce? How have they changed and diversified over time? And how has the presence of green organisms changed the Earth’s ecosystems? More engaging than a traditional textbook and displaying an astonishing breadth, How the Earth Turned Green will both delight and enlighten embryonic botanists and any student interested in the evolutionary history of plants.
How the Earth Turned Green: A Brief 3.8-Billion-Year History of Plants
by Joseph E. ArmstrongOn this blue planet, long before pterodactyls took to the skies and tyrannosaurs prowled the continents, tiny green organisms populated the ancient oceans. Fossil and phylogenetic evidence suggests that chlorophyll, the green pigment responsible for coloring these organisms, has been in existence for some 85% of Earth’s long history—that is, for roughly 3.5 billion years. In How the Earth Turned Green, Joseph E. Armstrong traces the history of these verdant organisms, which many would call plants, from their ancient beginnings to the diversity of green life that inhabits the Earth today. Using an evolutionary framework, How the Earth Turned Green addresses questions such as: Should all green organisms be considered plants? Why do these organisms look the way they do? How are they related to one another and to other chlorophyll-free organisms? How do they reproduce? How have they changed and diversified over time? And how has the presence of green organisms changed the Earth’s ecosystems? More engaging than a traditional textbook and displaying an astonishing breadth, How the Earth Turned Green will both delight and enlighten embryonic botanists and any student interested in the evolutionary history of plants.
How the Earth Turned Green: A Brief 3.8-Billion-Year History of Plants
by Joseph E. ArmstrongOn this blue planet, long before pterodactyls took to the skies and tyrannosaurs prowled the continents, tiny green organisms populated the ancient oceans. Fossil and phylogenetic evidence suggests that chlorophyll, the green pigment responsible for coloring these organisms, has been in existence for some 85% of Earth’s long history—that is, for roughly 3.5 billion years. In How the Earth Turned Green, Joseph E. Armstrong traces the history of these verdant organisms, which many would call plants, from their ancient beginnings to the diversity of green life that inhabits the Earth today. Using an evolutionary framework, How the Earth Turned Green addresses questions such as: Should all green organisms be considered plants? Why do these organisms look the way they do? How are they related to one another and to other chlorophyll-free organisms? How do they reproduce? How have they changed and diversified over time? And how has the presence of green organisms changed the Earth’s ecosystems? More engaging than a traditional textbook and displaying an astonishing breadth, How the Earth Turned Green will both delight and enlighten embryonic botanists and any student interested in the evolutionary history of plants.
How the Earth Turned Green: A Brief 3.8-Billion-Year History of Plants
by Joseph E. ArmstrongOn this blue planet, long before pterodactyls took to the skies and tyrannosaurs prowled the continents, tiny green organisms populated the ancient oceans. Fossil and phylogenetic evidence suggests that chlorophyll, the green pigment responsible for coloring these organisms, has been in existence for some 85% of Earth’s long history—that is, for roughly 3.5 billion years. In How the Earth Turned Green, Joseph E. Armstrong traces the history of these verdant organisms, which many would call plants, from their ancient beginnings to the diversity of green life that inhabits the Earth today. Using an evolutionary framework, How the Earth Turned Green addresses questions such as: Should all green organisms be considered plants? Why do these organisms look the way they do? How are they related to one another and to other chlorophyll-free organisms? How do they reproduce? How have they changed and diversified over time? And how has the presence of green organisms changed the Earth’s ecosystems? More engaging than a traditional textbook and displaying an astonishing breadth, How the Earth Turned Green will both delight and enlighten embryonic botanists and any student interested in the evolutionary history of plants.
The Case for God: What religion really means
by Karen ArmstrongThere is widespread confusion about the nature of religious truth. For the first time in history, a significantly large number of people want nothing to do with God. Militant atheists preach a gospel of godlessness with the zeal of missionaries and find an eager audience. Tracing the history of faith from the Palaeolithic Age to the present, Karen Armstrong shows that meaning of words such as 'belief', 'faith', and 'mystery' has been entirely altered, so that atheists and theists alike now think and speak about God - and, indeed, reason itself - in a way that our ancestors would have found astonishing.Does God have a future? Karen Armstrong examines how we can build a faith that speaks to the needs of our troubled and dangerously polarised world.
Epigenetics
by Lyle ArmstrongThe concept of epigenetics has been known about since the 1940s, but it is only in the last 10 years that research has shown just how wide ranging its effects are. It is now a very widely-used term, but there is still a lot of confusion surrounding what it actually is and does.Epigenetics is a new textbook that brings together the structure and mac
Epigenetics
by Lyle ArmstrongThe concept of epigenetics has been known about since the 1940s, but it is only in the last 10 years that research has shown just how wide ranging its effects are. It is now a very widely-used term, but there is still a lot of confusion surrounding what it actually is and does.Epigenetics is a new textbook that brings together the structure and mac
Geostatistical Simulations: Proceedings of the Geostatistical Simulation Workshop, Fontainebleau, France, 27–28 May 1993 (Quantitative Geology and Geostatistics #7)
by M. Armstrong P. A. DowdWhen this two-day meeting was proposed, it was certainly not conceived as a celebration, much less as a party. However, on reflection, this might have been a wholly appropriate gesture because geostatistical simulation came of age this year: it is now 21 years since it was first proposed and implemented in the form of the turning bands method. The impetus for the original development was the mining industry, principally the problems encountered in mine planning and design based on smoothed estimates which did not reflect the degree of variability and detail present in the real, mined values. The sustained period of development over recent years has been driven by hydrocarbon applications. In addition to the original turning bands method there are now at least six other established methods of geostatistical simulation. Having reached adulthood, it is entirely appropriate that geostatistical simulation should now be subjected to an intense period of reflection and assessment. That we have now entered this period was evident in many of the papers and much of the discussion at the Fontainebleau meeting. Many questions were clearly articulated for the first time and, although many ofthem were not unambiguously answered, their presentation at the meeting and publication in this book will generate confirmatory studies and further research.
Invertebrate Immune Responses: Cell Activities and the Environment (Advances in Comparative and Environmental Physiology #24)
by P. B. Armstrong G. Beck E. L. Cooper C. Franceschi A. J. Goven G. S. Habicht J. Kennedy J. A. Olafsen E. Ottaviani J. P. Quigley D. A. Raftos G. R. Vasta T. P. YoshinoE. L. Cooper In Volume 23 we considered, in seven chapters, the basic armamentarium of the invertebrate immune system and its cells, as well as an analysis of antigens, setting the stage for the initiation of an immune response. We studied cell products, natural or induced, as revealed by nonspecific and specific responses following antigenic challenge such as the pro phenol oxidase system, the lytic responses, the Ig superfamily, and the place this family offers invertebrates and insect hemolymph proteins as candidates for membership. At this point, these various topics seemed to converge, almost to overlap, in some instances, presenting a challenge as to how to move from one subject to another. Chapter 1, in this volume offers the bridge to Volume 23 and its final Chapter 7. This Volume 24 contains contributions pertaining to cell activities and the environment. Chapters 1-4 refer specifically to interactions between cells and the integration of cell activities. The focus is on a functional immune system, with antigenic challenge as a subtopic. In Chapters 5-7, the environment is considered from several points of view and the main subtopic here is the result of the consequences of connections and missed signals. The internal and external environments are treated, revealing what may happen when normal immune responses are interfered with. All this is integrated by the consideration of the three great regulatory systems, the ever-present network that somehow acts as the monitor or control for all incoming and outgoing signals.
How Literature Plays with the Brain: The Neuroscience of Reading and Art
by Paul B. Armstrong"Literature matters," says Paul B. Armstrong, "for what it reveals about human experience, and the very different perspective of neuroscience on how the brain works is part of that story." In How Literature Plays with the Brain, Armstrong examines the parallels between certain features of literary experience and functions of the brain. His central argument is that literature plays with the brain through experiences of harmony and dissonance which set in motion oppositions that are fundamental to the neurobiology of mental functioning. These oppositions negotiate basic tensions in the operation of the brain between the drive for pattern, synthesis, and constancy and the need for flexibility, adaptability, and openness to change.The challenge, Armstrong argues, is to account for the ability of readers to find incommensurable meanings in the same text, for example, or to take pleasure in art that is harmonious or dissonant, symmetrical or distorted, unified or discontinuous and disruptive.How Literature Plays with the Brain is the first book to use the resources of neuroscience and phenomenology to analyze aesthetic experience. For the neuroscientific community, the study suggests that different areas of research—the neurobiology of vision and reading, the brain-body interactions underlying emotions—may be connected to a variety of aesthetic and literary phenomena. For critics and students of literature, the study engages fundamental questions within the humanities: What is aesthetic experience? What happens when we read a literary work? How does the interpretation of literature relate to other ways of knowing?
How Literature Plays with the Brain: The Neuroscience of Reading and Art
by Paul B. Armstrong"Literature matters," says Paul B. Armstrong, "for what it reveals about human experience, and the very different perspective of neuroscience on how the brain works is part of that story." In How Literature Plays with the Brain, Armstrong examines the parallels between certain features of literary experience and functions of the brain. His central argument is that literature plays with the brain through experiences of harmony and dissonance which set in motion oppositions that are fundamental to the neurobiology of mental functioning. These oppositions negotiate basic tensions in the operation of the brain between the drive for pattern, synthesis, and constancy and the need for flexibility, adaptability, and openness to change.The challenge, Armstrong argues, is to account for the ability of readers to find incommensurable meanings in the same text, for example, or to take pleasure in art that is harmonious or dissonant, symmetrical or distorted, unified or discontinuous and disruptive.How Literature Plays with the Brain is the first book to use the resources of neuroscience and phenomenology to analyze aesthetic experience. For the neuroscientific community, the study suggests that different areas of research—the neurobiology of vision and reading, the brain-body interactions underlying emotions—may be connected to a variety of aesthetic and literary phenomena. For critics and students of literature, the study engages fundamental questions within the humanities: What is aesthetic experience? What happens when we read a literary work? How does the interpretation of literature relate to other ways of knowing?
Board Certification in Clinical Neuropsychology: A Guide to Becoming ABPP/ABCN Certified Without Sacrificing Your Sanity (AACN Workshop Series)
by Kira E. Armstrong, PhD, ABPP Dean W. Beebe, PhD, ABPP Robin C. Hilsabeck, PhD, ABPP Michael W. Kirkwood PhD, ABPPPursuit of board certification through the American Board of Professional Psychology (ABPP) has become a standard expectation for clinical neuropsychologists. At the time this book was published, the American Board of Clinical Neuropsychology (ABCN) was the fastest growing specialty board of ABPP with over 1,000 active members. However, the board certification process is challenging and can be intimidating. The objectives of this book are to demystify the process and provide practical advice for achieving board certification through ABPP/ABCN. To start, benefits of board certification are summarized and common myths debunked. Next, individual chapters for each step in the process, as well as a chapter devoted to pursuit of the pediatric subspecialty, provide details about essential elements of the task, the process, the timeline, strategies for success, common pitfalls, and what happens behind the scenes at ABPP/ABCN. Each of these chapters also has tips for trainees and supervisors who want to get a jump on preparing for board certification. Finally, encouragement and guidance for individuals who encounter setbacks at any step along the way are offered.
Board Certification in Clinical Neuropsychology: A Guide to Becoming ABPP/ABCN Certified Without Sacrificing Your Sanity (AACN Workshop Series)
by Kira E. Armstrong, PhD, ABPP Dean W. Beebe, PhD, ABPP Robin C. Hilsabeck, PhD, ABPP Michael W. Kirkwood PhD, ABPPPursuit of board certification through the American Board of Professional Psychology (ABPP) has become a standard expectation for clinical neuropsychologists. At the time this book was published, the American Board of Clinical Neuropsychology (ABCN) was the fastest growing specialty board of ABPP with over 1,000 active members. However, the board certification process is challenging and can be intimidating. The objectives of this book are to demystify the process and provide practical advice for achieving board certification through ABPP/ABCN. To start, benefits of board certification are summarized and common myths debunked. Next, individual chapters for each step in the process, as well as a chapter devoted to pursuit of the pediatric subspecialty, provide details about essential elements of the task, the process, the timeline, strategies for success, common pitfalls, and what happens behind the scenes at ABPP/ABCN. Each of these chapters also has tips for trainees and supervisors who want to get a jump on preparing for board certification. Finally, encouragement and guidance for individuals who encounter setbacks at any step along the way are offered.
Star Ark: A Living, Self-Sustaining Spaceship (Springer Praxis Books)
by Rachel ArmstrongAs space ventures have become more numerous, leading scientists and theorists have offered ways of building a living habitat in a hostile environment, taking an ‘ecosystems’ view of space colonization. The contributors to this volume take a radical multi-disciplinary view of the challenge of human space colonization through the ongoing project Persephone. This book fundamentally challenges prevalent ideas about sustainability and proposes a new approach to resource austerity and conservation and providing truly sustainable approaches that are life-promoting. Readers will learn the details of the plans for Persephone – a real project that is part of the company Icarus Interstellar’s plans for the design and engineering of a living interior on a worldship to be constructed in Earth’s orbit within 100 years. Although the timeframe itself is only an estimate, since it is contingent on many significant developments, including funding and technological advances, the industry consensus is that within 100 years we will see manned space exploration beyond our solar system. This notion is shared by organizations such as the Initiative for Interstellar Studies and the DARPA-funded 100-year starship project. This book specifically develops the principles for the construction of a living habitat within a worldship – a multi-generational starship that contains its own world that supports colonists as it travels across great distances between stars at a speed much slower than light. Far from being a sterile industrial setup, such as the ISS, or even being a bucolic suburbia as proposed by Gerard O’Neill in the 1970s, this worldship will provide the pre-conditions for sustaining life beyond Earth’s environment, which may also lead to the evolution of non-terrestrial ecologies. Drawing on the principles of ecopoiesis and insights offered by the Biosphere 2 experiment that demonstrated what we have to learn about ecosystem construction, this book proposes first designing the soils of such a space. It should then be possible to set up the conditions that a first generation of colonists may experience in leaving our solar system to find new worlds to settle - perhaps in spreading life throughout the universe. Although the book takes a unique view of ecology and sustainability within the setting of a traveling starship it is equally concerned with the human experience on artificial worlds. Chapters come from a range of multi disciplinary thinkers who shed light on the brave new future ahead from different angles.