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This book illuminates mechanisms of resilience. Threats and defense systems lead to adaptive changes in gene expression. Environmental conditions may dampen adaptive responses at the level of RNA expression. The first seven chapters elaborate threats to human health. Human populations spontaneously invade niche boundaries exposing us to threats that drive the resilience process. Emerging RNA viruses are a significant threat to human health. Antiviral drugs are reviewed and how viral genomes respond to the environment driving genome sequence plasticity. Limitations in predicting the human outcome are described in “nonlinear anomalies.” An example includes medical countermeasures for Ebola and Marburg viruses under the “Animal Rule.” Bacterial infections and a review of antibacterial drugs and bacterial resilience mediated by horizontal gene transfer follow. Chapter 6 shifts focus to cancer and discovery of novel therapeutics for leukemia. The spontaneous resolution of AML in children with Down syndrome highlights human resilience. Chapter 7 explores chemicals in the environment. Examples of chemical carcinogenesis illustrate how chemicals disrupt genomes. Historic research ignored RNA damage from chemically induced nucleic acid damage. The emergence of important forms of RNA and their possible role in resilience is proposed. Chapters 8-10 discuss threat recognition and defense systems responding to improve resilience. Chapter 8 describes the immune response as a threat recognition system and response via diverse RNA expression. Oligonucleotides designed to suppress specific RNA to manipulate the immune response including exon-skipping strategies are described. Threat recognition and response by the cytochrome P450 enzymes parallels immune responses. The author proposes metabolic clearance of small molecules is a companion to the immune system. Chapter 10 highlights RNA diversity expressed from a single gene. Molecular Resilience lists paths to RNA transcriptome plasticity forms the molecular basis for resilience. Chapter 11 is an account of ExonDys 51, an approved drug for the treatment of Duchenne muscular dystrophy. Chapter 12 addresses the question “what informs molecular mechanisms of resilience?” that drives the limits to adaptation and boundaries for molecular resilience. He speculates that radical oxygen, epigenetic modifications, and ligands to nuclear hormone receptors play critical roles in regulating molecular resilience.
Stress Resilience: Molecular and Behavioral Aspects presents the first reference available on the full-breadth of cutting-edge research being carried out in this field. It includes a wide range of basic molecular knowledge on the potential associations between resilience phenomenon and biochemical balance, but also focuses on the molecular and cellular mechanisms underlying stress resilience. World-renowned experts provide chapters that cover everything from the neural circuits of resilience, the effects of early-life adversity, and the transgenerational inheritance of resilience. This unique and timely book will be a go-to resource for neuroscientists and biological psychiatrists who want to improve their understanding of the consequences of stress and on how some people are able to avoid it.
Now more than ever, biology has the potential to contribute practical solutions to many of the major challenges confronting the United States and the world. A New Biology for the 21st Century recommends that a "New Biology" approach-one that depends on greater integration within biology, and closer collaboration with physical, computational, and earth scientists, mathematicians and engineers-be used to find solutions to four key societal needs: sustainable food production, ecosystem restoration, optimized biofuel production, and improvement in human health. The approach calls for a coordinated effort to leverage resources across the federal, private, and academic sectors to help meet challenges and improve the return on life science research in general.
"Suffering is an unavoidable reality in health care. Not only are patients and families suffering but also the clinicians who care for them. Commonly the suffering experienced by clinicians is moral in nature, reflecting the increasing complexity of health care, their roles within it, and the expanding range of available interventions. Moral suffering is the anguish experienced in response to various forms of moral adversity including moral harms, wrongs or failures, or unrelieved moral stress. Confronting moral adversity challenges clinicians' integrity: the inner harmony that arises when their essential values and commitments are aligned with their choices and actions. The most studied response to moral adversity is moral distress. The sources and sequelae of moral distress, one type of moral suffering, have been documented among clinicians across specialties. Recent interest has expanded to include a more corrosive form of moral suffering, moral injury. Moral resilience, the capacity to restore or sustain integrity in response to moral adversity, offers a path designing individual and system solutions to address moral suffering. It encompasses capacities aimed at developing self- regulation and self-awareness, buoyancy, moral efficacy, self-stewardship and ultimately personal and relational integrity. Moral resilience has been shown to be a protective resource that reduces the detrimental impact of moral suffering. Clinicians and healthcare organizations must work together to transform moral suffering by cultivating the individual capacities for moral resilience and designing a new architecture to support ethical practice. Used worldwide for scalable and sustainable change, the Conscious Full Spectrum Response, offers a method to solve problems to support integrity, shift patterns that undermine moral resilience and ethical practice, and source the inner potential of clinicians and leaders to produce meaningful and sustainable results that benefit all"--
A reference on mental health and disasters, focused on the full spectrum of psychopathologies associated with many different types of disasters.
How do we become resilient? Three experts provide practical steps for overcoming stress and becoming more resilient to life's challenges.
This volume of Progress in Molecular Biology and Translational Science focuses on the molecular basis of drug addiction. - Contains contributions from leading authorities - Informs and updates on all the latest developments in the field
Mirror neurons are premotor neurons, originally discovered in the macaque brain , that discharge both during execution of goal-directed actions and during the observation of similar actions executed by another individual. They therefore ¿mirror¿ others¿ actions on the observer's motor repertoire. In the last decade an impressive amount of work has been devoted to the study of their properties and to investigate if they are present also in our species. Neuroimaging and electrophysiological techniques have shown that a mirror-neuron system does exist in the human brain as well. Among ¿mirror¿ human areas, Broca¿s area (the frontal area for speech production) is almost constantly activated by action observation. This suggests a possible evolutionary link between action understanding and verbal communication. In the most recent years, mirror-like phenomena have been demonstrated also for domains others than the pure motor one. Examples of that are the somatosensory and the emotional systems, possibly providing a neurophysiological basis to phenomena such as embodiment and empathy. This special issue collects some of the most representative works on the mirror-neuron system to give a panoramic view on current research and to stimulate new experiments in this exciting field.
Developmental Psychopathology, Volume 3, Risk, Disorder, and Adaptation provides a life span developmental perspective on "high-risk" conditions and mental disorders. Moreover, it examines developmental pathways to resilient adaptation in the face of adversity.
Depression is one of the most common mental-health disorders, caused by a variety of genetic, biological, environmental, and psychological factors combined. Major depressive disorder (MDD) is typically treated with first-line antidepressant agents that primarily target monoamine neurotransmission; however, only approximately one third of patients with MDD achieve remission following a trial with such an antidepressant. Furthermore, MDD is a heterogeneous phenotype, and new frameworks such as the NIMH Research Domain Criteria (RDoC) may provide a more accurate, biologically based comprehension of the symptomatic heterogeneity of this devastating illness, and certain symptomatic clusters may be promising targets for novel therapeutics, such as drug and psychological treatments for the management of the cognitive impairments that can encompass several domains and contribute to psychosocial function, and that can persist for many patients even in periods of symptomatic remission. Neurobiology of Depression synthesizes the basic neurobiology of major depressive disorder with discussion of the most recent advances in research, including the interacting pathways implicated in the pathophysiology of MDD, omics technologies, genetic approaches, and the development of novel optogenetic approaches that are changing researchers' perspectives and may revolutionize research into depression. The basic foundational understanding of the neurobiology underlying the disorder, as well as the comprehensive summary of the most recent advances in research, combine to aid advanced students and researchers in their understanding of MDD and change the landscape of the management of depression with the development of novel and fast-acting pharmaceutical and neuromodulatory approaches. Aids readers in understanding major depressive disorder in the context of NIMH Research Domain Criteria (RDoC) recommendations Covers range of existing and potential pharmacologic and non-pharmacologic treatment options, from lifestyle adjustments to antidepressants to novel therapeutics Synthesizes discussion of cellular and molecular mechanisms underlying symptoms with clinical aspects of depression for a thorough understanding of the disorder