Pain is the number one reason that people seek medical attention but pain is still under- and poorly-treated world-wide. The purpose of this book is to give an up to date picture of what causes pain, how pain becomes chronic and what pharmacological targets might be manipulated to alleviate acute and chronic pain. The book will cover a wide array of topics from gene polymorphisms to voltage-gated ion channels moving from cellular biology to whole animal physiology. - Written by future leaders in the pain field - Covers a wide range of targets - Contains provocative ideas about the future direction of the pain field.
This text covers the fundamentals of pain, the pharmacology of drugs used, and summarises the current evidence base for the management of acute pain. It provides practical direct clinical applications and strategies for the management of specific medical conditions in patient groups such as the elderly
"Review of immune and glial factors within the peripheral and central nervous systems that relate to chronic pain states. Discussion of novel immune and glial targets for clinical pain control that may yield new analgesic drugs"--Provided by publisher.
Since the first TRP ion channel was discovered in Drosophila melanogaster in 1989, the progress made in this area of signaling research has yielded findings that offer the potential to dramatically impact human health and wellness. Involved in gateway activity for all five of our senses, TRP channels have been shown to respond to a wide range of st
Pain is an inevitable part of existence, but severe debilitating or chronic pain is a pathological condition that diminishes the quality of life. The Brain and Pain explores the present and future of pain management, providing a comprehensive understanding based on the latest discoveries from many branches of neuroscience. Richard Ambron—the former director of a neuroscience lab that conducted leading research in this field—explains the science of how and why we feel pain. He describes how the nervous system and brain process information that leads to the experience of pain, detailing the cellular and molecular functions that are responsible for the initial perceptions of an injury. He discusses how pharmacological agents such as opiates affect the duration and intensity of pain. Ambron examines new evidence showing that discrete circuits in the brain modulate the experience of pain in response to a placebo, fear, anxiety, belief, or other circumstances, as well as how pain can be relieved by activating these circuits using mindfulness training and other nonpharmacological treatments. The book also evaluates the prospects of procedures such as deep brain stimulation and optogenetics. Current and thorough, The Brain and Pain will be invaluable for a range of people seeking to understand their options for treatment as well as students in neuroscience and medicine.
This handbook is currently in development, with individual articles publishing online in advance of print publication. At this time, we cannot add information about unpublished articles in this handbook, however the table of contents will continue to grow as additional articles pass through the review process and are added to the site. Please note that the online publication date for this handbook is the date that the first article in the title was published online.
If you suffer from chronic pain, whether as a result of an injury, illness, or accident, you know it can interfere with every aspect of your life. You may also know the medical treatments currently available are limited and, for many, ineffective. Current research has shown hypnosis to be an effective treatment for managing chronic pain, and almost all patients who learn self-hypnosis skills benefit from this approach. The hypnosis treatment found in this workbook has been scientifically tested and proven effective for reducing the intensity of chronic pain, including migraines, back pain, and tension headaches, among others. This workbook explains how to use these techniques to manage your chronic pain and take back control of your life and your health. Used in combination with the program described in the corresponding therapist guide, this workbook teaches you self-hypnosis skills for lessening your pain, enhancing your sleep, and improving your mood. The first chapters will help you understand how hypnosis works by changing how your brain deals with information it receives from the body. The complete hypnosis treatment described in this book, alongside the treatment you receive from your clinician, will ultimately teach you skills for pain management that you can use at any time, and for the rest of your life. "An excellent blueprint to understanding pain and the fundamentals of how hypnosis combined with CBT can offer pain amelioration. Perfect, even for uninitiated practitioners who wish to use empirically based scripts."--Jeffrey Zeig, Ph.D., The Milton Erickson Foundation "Pain can too easily enslave people, holding them captive in many different ways. It is a liberating theme of empowerment that echoes throughout Dr. Jensen's work: he empowers clinicians to work more knowledgeably and skillfully with people who suffer painful conditions using his therapist guide, and he encourages the suffering individual to break free from pain's grip with the practical pain management skills taught in his workbook. Dr. Jensen's vision for the many ways hypnosis can help reduce the debilitating effects of painful conditions is fresh, inspiring and should be regularly integrated into every pain management program."--Michael D. Yapko, Ph.D., Clinical Psychologist and author of Trancework: An Introduction to the Practice of Clinical Hypnosis (Third Edition) and Treating Depression with Hypnosis
This volume represents edited material that was presented at a conference on brainstem modulation of spinal nociception held in Beaune, France during July, 1987. Pain Modulation, Volume 77 in the series Progress in Brain Research reviews, analyses and suggests new research strategies on several relevant topics including: the endogenous opioid peptides; sites of action of opiates; the role of biogenic animes and non-opioid peptides in analgesia; dorsal horn circuitry; behavioural factors in the activation of pain modulating networks and clinical studies of nociceptive modulation.
The purpose of this book is to examine immune-to-brain communication from the viewpoint of its effect on pain processing, and to clarify the major role that substances released by immune cells play in pain modulation. In these chapters, contributed by major laboratories whose focus is understanding how cytokines modulate pain, the perspectives examined range from evolutionary approaches across diverse species, to the basics of the immune response, to the effect of cytokines on peripheral and central nervous system sites, to therapeutic potential in humans. -- book cover.
