This text introduces underlying principles of the endocrine regulation of behavior in animals and humans. Every chapter begins by stating a principle, followed by specific examples of hormone actions derived from scientific experiments and clinical observations, and concludes with a few challenging unanswered questions. The reference source Hormones, Brain & Behavior identified this field as rapidly expanding within neurobiology and endocrinology. Now, this well-illustrated and referenced text will serve students from undergraduate school to medical school as they learn this new discipline.
* Uniform presentation of material across all chapter, with each chapter addressing a key principle, illustrated by basic experimental and clinical examples
* Includes user-friendly features such as boxed figures with extended captions and references, numerous clinical notes, and a comprehensive list of abbreviations
* Illustrations highlight both the clinical and basic science information

SocialBonding,aProductofEvolution: anIntroductiontotheVolume Mechanisms underlying reproductive and maternal functions or coping represent the initialstructuringforcebehindmanysocialbehaviors.Theyareaccompaniedbysel- tivehormonalenvironmentsaimedatfacilitatingor stabilizingthem.Sexandadrenal steroids are major players in the regulation of reproductive functions and coping challenges, but other hormones also participate in a variety of social behaviors (in particular,oxytocinandvasopressin,twophylogeneticallyveryoldmoietiesoriginally associated with maternal care and water balance) and are receiving increasing att- tion. Their role is highlighted in the present volume, which gathers contributions to theColloqueMedicineetRecherche"HormonesandSocialBehavior"organizedbythe FondationIPSENinDecember 2007. Whatisthekeytounderstandingtherationaleofhormonalsubstratesofbehavior? Evolution, of course. Higher manifestations of social behavior have evolved from - productivebehavior,characterizedbyErnstMayras"theleadingedgeofevolutionary change." As formulated by one contributor to thisvolume, however, "the evolutionary increase in neocortex seen in primates has induced a signi?cant emancipation of - havior from hormonal determinants, and in parallel, an increasing role for intelligent socialstrategies"(Keverne 2008). In so-called "lower" mammalian animals, many social behaviors are closely - pendent upon the olfactory system, a component of autonomous regulation of such importancethatitexpressesalargeproportionofallreceptorgenespresentinthebrain. Whenonelooksat"higher"mammalssuchasprimates,olfactorycontrolbecomesless stringent. Olfactory structures exhibit the same number of receptor genes, but a large number are transformed into non-coding "pseudogenes." In parallel, hormones i- tially targeted on physiological functions become increasingly associated with more diversi?edcognitivefunctions.

Utilizing the flood of information derived from the Human Genome Project and corresponding efforts to elucidate the mouse genome, Genetic Influences on Neural and Behavioral Functions provides a scholarly catalog, organized logically, of relations between the expression of specific genes, nerve cell biology and behavior, normal and abnormal, in animals AND humans. Sample topics include genes in relation to schiziphrenia, panic disorder, epilepsy, alcoholism, sleep, eating disorders, and more.

The book, written for a general educated public, compares the most important elements of the human nervous system to the corresponding capacities of robots. Crucial are the areas of activities for which the constraints limiting human and robot performances are much different. Those areas offer opportunities for synergies.The book argues that we now understand mechanisms for emotional feelings in the human brain so well that we will be able to program robots to act as though they also have emotion. Written in a clear and open fashion by an expert neuroscientist, the book will appeal to interested lay readers in addition to neuroscientists and computer scientists.

The book, written for a general educated public, compares the most important elements of the human nervous system to the corresponding capacities of robots. Crucial are the areas of activities for which the constraints limiting human and robot performances are much different. Those areas offer opportunities for synergies.The book argues that we now understand mechanisms for emotional feelings in the human brain so well that we will be able to program robots to act as though they also have emotion. Written in a clear and open fashion by an expert neuroscientist, the book will appeal to interested lay readers in addition to neuroscientists and computer scientists.

The saga of sex differences in brain and behavior begins with a tiny sperm swimming toward a huge egg, to contribute its tiny Y chromosome plus its copies of the other chromosomes. Genetic, anatomic and physiologic alterations in the male ensue, making his brain and behavior different in specific respects from his sister. Brain-wise, specific cell groups develop differently in males compared to females, in some cases right after birth and in other cases at puberty. But genetics and neuroanatomy do not dominate the scene. Prenatal stress, postnatal stress and lousy treatment at puberty all can affect males and females in different ways. The upshot of all these genetic and environmental factors produces small sex differences in certain abilities and huge sex differences in feelings, in pain and in suffering. Put this all together and the reader will see that biological and cultural influences on gender roles operate at so many different levels to influence behavioral mechanisms that gender role choices are flexible, reversible and non-dichotomous, especially in modern societies.

Utilizing the flood of new information derived from the Human Genome Project and corresponding efforts to elucidate the mouse genome, Genetic Influences on Neural and Behavioral Functions provides a scholarly catalog, organized logically, of relations between the expression of specific genes, nerve cell biology and behavior, normal and abnormal, in animals AND humans.
Sample topics include genes in relation to schiziphrenia, panic disorder, epilepsy, alcoholism, sleep, eating disorders, and more.

The mammalian neurohypophyseal peptide hormones oxytocin and vasopressin act to mediate human social behavior - they affect trust and social relationships and have an influence on avoidance responses. Describing the evolutionary roots of the effects that these neuropeptides have on behavior, this book examines remarkable parallel findings in both humans and non-human animals. The chapters are structured around three key issues: the molecular and neurohormonal mechanisms of peptides; phylogenetic considerations of their role in vertebrates; and their related effects on human behavior, social cognition and clinical applications involving psychiatric disorders such as autism. A final chapter summarizes current research perspectives and reflects on the outlook for future developments. Providing a comparative overview and featuring contributions from leading researchers, this is a valuable resource for graduate students, researchers and clinicians in this rapidly developing field.

In theoretical terms, sex differences in brains and behaviors of laboratory animals offer the possibility of fascinating scientific studies on a range of molecular phenomena such as genomic imprinting, DNA methylation, chromatin protein modification, non-coding DNA, potentially resulting in important neuroanatomical and neurochemical sex differences in the brain. Such sex differences could arise consequent to exposures to testosterone early in development, or to other effects deriving from the Y chromosome. However, this general subject has been treated with much hyperbole. Historically, sex differences were assumed to be present where they did not really exist, e.g. with respect to mathematics, executive leadership, etc. etc. Under what circumstances do we really care about sex differences in brain and behavior? These circumstances concern human maladies whose diagnoses are much different between boys and girls, or between women and men. Prominent examples discussed in this volume include autism, attention deficit hyperactivity disorders and congenital adrenal hyperplasia. In fact, infant boys are more susceptible than infant girls to a variety of disorders that arise early in development. This volume then ends with a consideration of effects of estrogenic hormones on the injured brain, and their roles as protective agents.

Hormones strongly influence and even "drive" certain primitive behaviors. In "Central Neural States Relating Sex and Pain," Richard J. Bodnar, Kathryn Commons, and Donald W. Pfaff examine hormonal, neural, and genetic mechanisms of reproductive, pain-sensing, and pain-inhibitory systems. The authors show that there are remarkable neuroanatomical, biochemical, and functional overlaps among these systems. They consider sensory inputs triggering both classes of behaviors and focus on the role of sex hormones in modulating both forms of behavior. Sex hormones acting in different regions of the brain not only energize reproductive behaviors but also modulate opioid-dependent pain-inhibitory pathways. The authors also summarize some intriguing gender differences in hormone actions and responsivity to pain.

The clinical implications of this field of research are numerous. "Central Neural States Relating Sex and Pain" will appeal to anyone interested in new ways of looking at behavioral dispositions as they are influenced by specific genetic, neural, and hormonal states.

Hormones, Brain and Behavior, Third Edition offers a state-of-the-art overview of hormonally-mediated behaviors, including an extensive discussion of the effects of hormones on insects, fish, amphibians, birds, rodents, and humans. Entries have been carefully designed to provide a valuable source of information for students and researchers in neuroendocrinology and those working in related areas, such as biology, psychology, psychiatry, and neurology. This third edition has been substantially restructured to include both foundational information and recent developments in the field. Continuing the emphasis on interdisciplinary research and practical applications, the book includes articles aligned in five main subject sections, with new chapters included on genetic and genomic techniques and clinical investigations. This reference provides unique treatment of all major vertebrate and invertebrate model systems with excellent opportunities for relating behavior to molecular genetics. The topics cover an unusual breadth (from molecules to ecophysiology), ranging from basic science to clinical research, making this reference of interest to a broad range of scientists in a variety of fields.

Neuroendocrinology, the discipline concerned with how the nervous system controls hormonal secretion and how hormones control the brain, is pivotal to physiology and medicine. Neuroendocrinology has disclosed and underpins fundamental physiological, molecular biological and genetic principles such as the regulation of gene transcription and translation, the mechanisms of chemical neurotransmission and intracellular and systemic feedback control systems. Reproduction, growth, stress, aggression, metabolism, birth, feeding and drinking and blood pressure are some of the bodily functions that are triggered and/or controlled by neuroendocrine systems. In turn, neuroendocrine dysfunction due to genetic or other deficits can lead, for example, to infertility, impotence, precocious or delayed puberty, defective or excessive growth, obesity and anorexia, Cushing s Syndrome, hypertension or thyroid disorders. These as well as neuroendocrine tumors are some of the themes covered in the 36 chapters of the Handbook. Drafted by internationally acknowledged experts in the field, the Handbook chapters feature detailed up-to-date bibliographies as well as "how do we know?" call out sections that highlight the experimental or technical foundations for major concepts, principles, or methodological advances in each area. Aimed at senior undergraduate and graduate students, post-doctoral fellows and faculty in neuroscience, medicine, endocrinology, psychiatry, psychology and cognate disciplines, the "Handbook of Neuroendocrinology" satisfies an unmet need that will prove useful at the laboratory bench as well as in the office.
The most comprehensive up-to-date source covering basic principles, neural regulation, hormone/brain function and behavior, and neuroendocrine pathology "How do we know?" callout sections highlight core conceptsHeavily illustrated with over 350 figures, 4-color throughout"

A single volume of 41 articles, Hormone/Behavior Relations of Clinical Importance is an authoritative selection of relevant chapters from the Hormones Brain and Behavior 2e MRW, the most comprehensive source of neuroendocrinological information assembled to date (AP July 2009).
The study of hormones as they impact the brain and, subsequently, behavior is a central topic in neuroscience, endocrinology and psychiatry. This volume offers an overview of neuroendocrinological topics, approaching the subject from the perspective of hormone-brain function, hormone-behavior relations, sex differences, and the impact on various diseases/pathologies. Many basic human behavioral functions are subject to the influence of hormones - sexual orientation, the experience of pain, fertility, immunity - as are clinical conditions such as diabetes, substance abuse disorder, eating disorders, PTSD, TBI, pain, Alzheimer's, stress/anxiety, affective disorders, and more. There is considerable commercial clinical potential in the study of hormones - drug companies are currently developing a Cholecystokinin (hormonal peptide) booster to reduce appetite in those who suffer from sever obesity, and catamenial epilepsy (features seizure exacerbation in relation to the menstrual cycle) is resistant to treatment by standard antiepileptic medications, but may be hormonally controlled. These issues and more are covered, and there is simply no other current single-volume reference with such comprehensive coverage and depth.
Authors selected are the internationally renowned experts for the particular topics on which they write, and the volume is richly illustrated with over 150 figures (50 in color). A collection of articles reviewing our fundamental knowledge of neuroendocrinology, the book provides an essential, affordable reference for researchers, clinicians and graduate students in the area.
- Offering outstanding scholarship, each chapter is written by an expert in the topic area and approximately 25% of chapters are written by international contributors (7 countries represented)
- Provides more fully vetted expert knowledge than any existing work with broad appeal for the US, UK and Europe, accurately crediting the contributions to research in those regions
- Heavily illustrated with 150 figures, approximately 50 in color, presenting the material in the most visually useful form for the reader
- Fully explores various clinical conditions associated with the hormones and the brain (PTSD, TBI, Stress & Anxiety, eating disorders, diabetes, addictive disorders, Alzheimer's, affective disorders)
- Broad coverage of disorders makes the volume relevant to clinicians as well as researchers and basic scientists

A single volume of 31 articles, Mechanisms of Hormone Actions on Behavior is an authoritative selection of relevant chapters from the Hormones Brain and Behavior 2e MRW, the most comprehensive source of neuroendocrinological information assembled to date (AP June 2009).
The study of hormones as they impact the brain and, subsequently, behavior is a central topic in neuroscience, endocrinology and psychiatry. This volume offers an overview of neuroendocrinological topics, approaching the subject from the perspective of the mechanisms which control hormone actions on behavior. Female, male and stress hormones are discussed at the cellular, behavioral and developmental level, and sexual differentiation of the development of hormone-dependent neuronal systems, neuropeptides/neuromodulators, and steroid-inducedneuroplasticity are addressed. There is simply no other current single-volume reference with such comprehensive coverage and depth.
Authors selected are the internationally renowned experts for the particular topics on which they write, and the volume is richly illustrated with over 175 figures (over 50 in color). A collection of articles reviewing our fundamental knowledge of the mechanisms of neuroendocrinology, the book provides an essential, affordable reference for researchers, clinicians and graduate students in the area.
- The most comprehensive single-volume source of up-to-date data on the mechanisms behind neuroendocrinology, with review articles covering x, y z
- Chapters synthesize information otherwise dispersed across a number of journal articles and book chapters, thus saving researchers the time consuming process of finding and integrating this information themselves
- Offering outstanding scholarship, each chapter is written by an expert in the topic area and approximately 35% of chapters are written by international contributors
- Provides more fully vetted expert knowledge than any existing work with broad appeal for the US, UK and Europe, accurately crediting the contributions to research in those regions
- Heavily illustrated with 175 figures, approximately 54 in color
- Presents material in most visually useful form for the reader

The mammalian neurohypophyseal peptide hormones oxytocin and vasopressin act to mediate human social behavior - they affect trust and social relationships and have an influence on avoidance responses. Describing the evolutionary roots of the effects that these neuropeptides have on behavior, this book examines remarkable parallel findings in both humans and non-human animals. The chapters are structured around three key issues: the molecular and neurohormonal mechanisms of peptides; phylogenetic considerations of their role in vertebrates; and their related effects on human behavior, social cognition and clinical applications involving psychiatric disorders such as autism. A final chapter summarizes current research perspectives and reflects on the outlook for future developments. Providing a comparative overview and featuring contributions from leading researchers, this is a valuable resource for graduate students, researchers and clinicians in this rapidly developing field.

Origins of Human Socialization introduces a new concept on the origins of basic human instinct. The book combines the three disciplinary approaches, including neuroscience, paleoanthropology and developmental psychology as an intertwined foundation for prosocial behavior. It argues that humans have the basic brain mechanisms for prosocial activity, offering new insights into more sophisticated social behavior. It also examines both visual and auditory systems in both humans and animals to explain the evolution of social interactions. Written by world-renowned researcher Dr. Donald Pfaff, this book is the first to explore why we have basic social instinct and how it works. For centuries, researchers have argued over the foundations of human behavior in society. Anthropologists point to transitions from hunter/gathers to urban dwellers leading to human domestication. Developmental psychologists highlight social competences in babies. Neuroscientists focus on specific genetic and neurochemical mechanisms that attribute to social behavior. This book brings all of these important areas together in an interdisciplinary approach that helps readers understand how they are linked.

Principles of Hormone/Behavior Relations, Second Edition, provides an introduction to the underlying principles of endocrine regulation of behavior, a newly emerging area of research within neurobiology and endocrinology. It addresses the properties of hormone/behavior relations, including the influence of family background, timing issues, neuroanatomical features, cellular mechanisms, and the importance of environmental context and evolution. This new edition incorporates critical advances in the field, also including increased coverage of hormonal influences on food intake, and on the cardiovascular system. The addition of entirely new principles provides further coverage of epigenetics and appetite. Thoroughly revised and updated, this book is an ideal resource for neuroscientists and researchers engaging in this rapidly expanding field of study.

Neuroendocrinology is a discipline which originated about 50 years ago as a branch of Endocrinology and that is now strictly linked to neuroscience.

Volumes 181 and 182 of Progress in Brain Researchprovide a rapid view of the major points presently discussed at biological and clinical levels.

The chapters have been written by top scientists who are directly involved in basic or clinical research and who use the most sophisticated biotechnological techniques.

The volumes cover of the role of genetics in many endocrine-related events, like neuroendocrinological diseases and endocrine depenedent cancers (prostate, breast, etc, ). Interesting information is also provided on possibile treatments of neurodegenerative brain diseases (e.g., Alzheimer and similar syndromes).

The best researchers in the field provide their conclusions in the context of the latest experimental results

Chapters are extensively referenced to provide readers with a comprehensive list of resources on the topics covered

Of great value for researchers and experts, but also for students as a background reference"

Neuroendocrinology is a discipline which originated about 50 years ago as a branch of Endocrinology and that is now strictly linked to neuroscience.

Volumes 181 and 182 of Progress in Brain Researchprovide a rapid view of the major points presently discussed at biological and clinical levels.

The chapters have been written by top scientists who are directly involved in basic or clinical research and who use the most sophisticated biotechnological techniques.

The volumes cover of the role of genetics in many endocrine-related events, like neuroendocrinological diseases and endocrine depenedent cancers (prostate, breast, etc, ). Interesting information is also provided on possibile treatments of neurodegenerative brain diseases (e.g., Alzheimer and similar syndromes).

The best researchers in the field provide their conclusions in the context of the latest experimental results

Chapters are extensively referenced to provide readers with a comprehensive list of resources on the topics covered

Of great value for researchers and experts, but also for students as a background reference"

Since the beginning of recorded history, law and religion have provided "rules" that define good behavior. When we obey such rules, we assign to some external authority the capacity to determine how we should act. Even anarchists recognize the existence of a choice as to whether or not to obey, since no one has seriously doubted that the source of social order resides in our vast ethical systems. Debate has focused only on whose system is best, never for an instant imagining that law, religion, or some philosophical permutation of either was not the basis of prosocial action. The only divergence from this uniform understanding of human society has come from the behavioral sciences, which cite various biological bases for human goodness. Putting aside both ancient and relatively modern ethical systems, neuroscientists, psychologists, and evolutionary biologists have started a revolution more profound than any anarchist ever dreamed of. In essence, these researchers argue that the source of good human behavior - of the benevolence that we associate with the highest religious teachings - emanates from our physical make-up. Our brains, hormones, and genes literally embody our social compasses. In The Altruistic Brain, renowned neuroscientist Donald Pfaff provides the latest, most far-reaching argument in support of this revolution, explaining in exquisite detail how our neuroanatomical structure favors kindness towards others. Unlike any other study in its field, The Altruistic Brain synthesizes all the most important research into how and why - at a purely physical level - humans empathize with one another and respond altruistically. It demonstrates that human beings are "wired" to behave altruistically in the first instance, such that unprompted, spontaneous kindness is our default behavior; such behavior comes naturally, irrespective of religious or cultural determinants. Based on his own research and that of some of the world's most eminent scientists, Dr. Pfaff puts together well-established brain mechanisms into a theory that is at once novel but also easily demonstrable. He further explains how, using psycho-social approaches that are now well understood, we can clear away obstacles to the brain's natural, altruistic inclinations. This is the first book not only to explain why we are naturally good, but to suggest means of making us behave as well as we can. The Altruistic Brain is required reading for anyone who wants to understand the behavioral revolution in science and the promise that it holds for reorienting society towards greater cooperation.