The Biology of Violence


Book Description

A unique synthesis of breakthrough research, this landmark book shatters myths about the causes of aggression, maintaining that the roots of violent behavior lie in the way the brain works.




The Anatomy of Violence


Book Description

Provocative and timely: a pioneering neurocriminologist introduces the latest biological research into the causes of--and potential cures for--criminal behavior. With an 8-page full-color insert, and black-and-white illustrations throughout.




Biology of Aggression


Book Description

Unchecked aggression and violence take a significant toll on society. With recent advances in pharmacology and genetic manipulation techniques, new interest has developed in the biological mechanisms of aggression. The primary goal of this title is to summarise and synthesis recent advances in the subject.




Neurobiopsychosocial Perspectives on Aggression and Violence


Book Description

This book bridges the gap between basic science, which deals with general concepts of aggression and its neurobiological foundations, and law enforcement as one of the applied fields of aggression research. It addresses the current state of research and practice and compares and integrates the concept of aggression with violent crime. Chapters examine the types of criminal careers that cross the boundary between the two and summarize the biological, psychological, and social factors that underlie particular types of criminal careers. Subsequent chapters discuss overlaps between biological and psychological factors and detail how and to what extent aggression may serve as explanatory mechanisms for violence. The book also discusses the relationship between social problems and neuropsychological deficits, addressing how the neuropsychological deficits lead to the intergenerational recycling of social problems. Finally, the volume explores violence and aggression from a neurobiological perspective. Topics featured in this book include: The heritability of aggressiveness and violence-proneness. Glucocorticoids in humans. Aggression circuitry in animals. Distorted circuitry in violent animals. Biological factors of psychological change. Neurobiopsychosocial Perspectives on Aggression and Violence is a must-have resource for researchers, clinicians and other professionals, and graduate students in forensic psychology, criminology/criminal justice, public health, developmental psychology, psychotherapy/counseling, psychiatry, social work, educational policy and politics, health psychology, nursing, and behavioral therapy/rehabilitation.




Human Aggression


Book Description

The leading theoretical models that explain aggression are discussed and applied to the analysis of several kinds of real-life aggressive behavior, such as sexual violence, aggression in close relationships, bullying, and the activities of spectators at sporting events.




Behave


Book Description

New York Times bestseller • Winner of the Los Angeles Times Book Prize • One of the Washington Post's 10 Best Books of the Year “It’s no exaggeration to say that Behave is one of the best nonfiction books I’ve ever read.” —David P. Barash, The Wall Street Journal "It has my vote for science book of the year.” —Parul Sehgal, The New York Times "Immensely readable, often hilarious...Hands-down one of the best books I’ve read in years. I loved it." —Dina Temple-Raston, The Washington Post From the bestselling author of A Primate's Memoir and the forthcoming Determined: A Science of Life Without Free Will comes a landmark, genre-defining examination of human behavior and an answer to the question: Why do we do the things we do? Behave is one of the most dazzling tours d’horizon of the science of human behavior ever attempted. Moving across a range of disciplines, Sapolsky—a neuroscientist and primatologist—uncovers the hidden story of our actions. Undertaking some of our thorniest questions relating to tribalism and xenophobia, hierarchy and competition, and war and peace, Behave is a towering achievement—a majestic synthesis of cutting-edge research and a heroic exploration of why we ultimately do the things we do . . . for good and for ill.




The Biology of Aggression


Book Description

Proceedings of the NATO Advanced Study Institute on The Biology of Aggression, Château de Bonas, Toulouse, France, July 21-30, 1980




Developmental Psychobiology of Aggression


Book Description

This book is the outgrowth of a memorial conference to honour the scientific contributions of Robert B. Cairns, an internationally recognised interdisciplinary developmental scientist. It is organised around research themes that were an integral part of Dr Cairns' theories and research: neural and developmental plasticity; brain-behaviour bidirectionality; gene-environment interactions. Throughout this book, these themes are linked together by employing animal models and clinical investigations through multiple levels of analysis approach to understanding the origins, development, desistance and prevention of aggression. These studies will add to the compendium of basic knowledge on the developmental psychobiology of aggression and will aid in the ultimate translation of this knowledge to clinical and community settings. This book hopes to foster the legacy of Robert B. Cairns to facilitate the theoretical development and research of a new generation of developmental scientists dedicated to relieving the tragic consequences of aggression on the individual and society.







Biological Psychiatry


Book Description

It is now widely recognised that biological psychiatry is rapidly coming into its own. For over the last three decades dramatic advances in this young discipline have been made, all of which attest to the staying power of the experimental method. Those who made this revolution in knowledge happen are a breed of investigators availing themselves of the tools of molecular biology, pharmacology, genetics, and perhaps, above all, the technology of neuroimaging. The introduction of the interdisciplinary method of approach to the study of psychopathology had made it very clear that neuroimaging, as a set of techniques, is unique in that it is gradually providing us with evidence supporting Kraepelin's original view that mental illness is closely associated with abnormal changes in the brain.Broadly speaking, there are presently two structural techniques in neuroimaging - computed tomography and magnetic resonance imaging (MRI) - and three functional techniques - single photon emission tomography (SPECT), positron emission tomography and magnetic resonance imaging (fMRI). Through PET technology, for example, we have learned that, in early brain development, the primitive areas, mostly the brain stem and thalamus, are the first to show high activity in an infant. This is followed by the development of cortical areas by year one. Between the ages of four to 10, the cortex is almost twice as active in the child as in the adult. This information alerts us to what might happen in the way of trauma in abused children, especially those under the age of three. Child abuse increases the risk of physical changes, not only in the stress systems, but also in brain development (Glaser and Weissman). In addition to the difficult problem of post-traumatic stress disorder (PTSD), we have to take into account the possibility of other types of mental illness as the consequences of child abuse. These include depression, eating disorders, and drug and alcohol problems.The combination of PET and fMRI represents a more remarkable example of the power of neuroimaging since the two have made it feasible to map accurately in vitro identifiable cortical fields, or networks. In a landmark NIH investigation of human cortical reorganization (plasticity), persuasive evidence was brought forward showing that the process of learning as a motor task involves a specific network of neurons. These neurons occur in the cortical field that is responsible for that particular task. Such findings are important partly because they provide evidence supporting the current notion that labor in the cortex is divided among ensembles of specialized neurons that cooperate in the performance of complex tasks. Cooperation, then, in this, sense implies crosstalk among ensembles and that signals are both processed and retransmitted to neighbouring ensembles. To understand the workings of these ensembles, much better spatial and temporal resolution in functional brain mapping is required. This can be achieved with an NMR instrument whose magnet is 4.1 Tesla or more.