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Translational Pain Research
From Mouse to Man
Frontiers in Neuroscience
Editors: Lawrence Kruger and Alan R. Light.
Editor InformationOne of the Most Rapidly Advancing Fields in Modern Neuroscience
The success of molecular biology and the new tools derived from molecular genetics have revolutionized pain research and its translation to therapeutic effectiveness. Bringing together recent advances in modern neuroscience regarding genetic and genomic studies in mice and humans and the practicality of clinical trials, Translational Pain Research: From Mouse to Man effectively bridges the gap between basic research and patient care by humanely examining rodent models for pain associated with bone cancer, osteoarthritis, and cardiac episodes.
Distinguished Team of International Contributors
In addition to addressing the groundbreaking technical advances in tract tracing, endocannabinoids, cannabis, gene therapy, siRNA gene studies, and the role of glia, cytokines, P2X receptors, and ATP, this book also presents cutting-edge information on
- Nociceptor sensitization
- Visceral afferents in disease
- Innovative rodent model for bone cancer pain
- Highly specific receptor cloning
- Modular molecular mechanisms relevant to painful neuropathies
This sharply focused work also discusses unexpected discoveries derived from brain imaging studies related to thalamic pain. Translational Pain Research covers the progress made toward bringing laboratory science (much of it at the molecular level) to our understanding of pain phenomena in humans, with the ultimate goal of reducing the suffering that often accompanies pain and its indirect consequences.
Contents
- Series Preface
- Preface
- The Editors
- Contributors
- 1. Painful Multi-Symptom Disorders: A Systems PerspectiveC. Richard Chapman.
- 2. Neurotrophic Factors and Nociceptor SensitizationMichael P. Jankowski and H. Richard Koerber.
- 3. The Role of Visceral Afferents in DiseaseJulie A. Christianson and Brian M. Davis.
- 4. Cancer Pain: From the Development of Mouse Models to Human Clinical TrialsJuan Miguel Jimenez Andrade and Patrick Mantyh.
- 5. Therapeutic Targeting of Peripheral Cannabinoid Receptors in Inflammatory and Neuropathic Pain StatesIgor Spigelman.
- 5.1. INTRODUCTION
- 5.2. CANNABINOID RECEPTORS
- 5.3. ENDOCANNABINOIDS AND THEIR METABOLISM
- 5.4. ENDOCANNABINOIDS AND SYNAPTIC PLASTICITY
- 5.5. ANTINOCICEPTIVE ACTIONS OF CANNABINOIDS
- 5.6. CANNABINOID ACTIONS ON MOTOR CONTROL AND COGNITION
- 5.7. ENDOCANNABINOID SYSTEM ALTERATIONS IN INFLAMMATORY AND NEUROPATHIC PAIN STATES
- 5.8. HOMEOSTATIC ROLE OF THE ENDOCANNABINOID SYSTEM
- 5.9. ACTIONS AT NON-CANNABINOID RECEPTORS
- 5.10. DISSOCIATING EFFECTS OF PERIPHERAL AND CENTRAL CANNABINOID RECEPTOR ACTIVATION
- 5.11. STRATEGIES FOR PERIPHERAL CANNABINOID RECEPTOR TARGETING
- 5.12. FUTURE PROSPECTS
- ACKNOWLEDGMENT
- REFERENCES
- 6. Molecular Strategies for Therapeutic Targeting of Primary Sensory Neurons in Chronic Pain SyndromesIchiro Nishimura, Devang Thakor, Audrey Lin, Supanigar Ruangsri, and Igor Spigelman.
- 7. Transgenic Mouse Models for the Tracing of “Pain” PathwaysAllan I. Basbaum and João M. Bráz.
- 7.1. INTRODUCTION
- 7.2. TRADITIONAL ANATOMICAL TRACING APPROACHES
- 7.3. GENETIC TRACING WITH TRANSNEURONAL TRACERS
- 7.4. A GENETIC APPROACH TO THE ANATOMICAL MAPPING OF COMPLEX CIRCUITS: THE ZW MOUSE
- 7.5. GENETIC TRACING OF ASCENDING “PAIN” PATHWAYS: SELECTIVE INDUCTION OF A TRANSNEURONAL TRACER IN PRIMARY AFFERENT NOCICEPTORS
- 7.6. NERVE INJURY-INDUCED EXPRESSION OF WGA: A WINDOW INTO THE STUDY OF CIRCUIT PLASTICITY
- 7.7. GENETIC TRACING OF DESCENDING “MODULATORY” CIRCUITS: SELECTIVE INDUCTION OF WGA IN SEROTONERGIC NETWORKS
- 7.9. CONCLUSIONS
- ACKNOWLEDGMENTS
- REFERENCES
- 8. Cytokines in PainVeronica I. Shubayev, Kinshi Kato, and Robert R. Myers.
- 9. Glial Modulation in Pain States: Translation into HumansRyan J. Horvath, Edgar Alfonso Romero-Sandoval, and Joyce A. De Leo.
- 10. On the Role of ATP-Gated P2X Receptors in Acute, Inflammatory and Neuropathic PainEstelle Toulme, Makoto Tsuda, Baljit S. Khakh, and Kazuhide Inoue.
- 11. Myalgia and Fatigue: Translation from Mouse Sensory Neurons to Fibromyalgia and Chronic Fatigue SyndromesAlan R. Light, Charles J. Vierck, and Kathleen C. Light.
- 11.1. INTRODUCTION
- 11.2. DO SKELETAL MUSCLES HAVE TWO UNIQUE TYPES OF SENSORY RECEPTORS THAT DETECT METABOLITES: ONE TYPE NOCICEPTIVE (CAPABLE OF SIGNALING PAIN), THE OTHER ERGORECEPTIVE (CAPABLE OF DETECTING MUSCLE WORK)?
- 11.3. MOLECULAR RECEPTORS THAT ARE ACTIVATED BY METABOLITES PRODUCED BY MUSCLE CONTRACTION
- 11.4. THE NEED FOR TRANSLATIONAL BRIDGES TO FIBROMYALGIA AND CHRONIC FATIGUE SYNDROME
- 11.5. ARE THESE MOLECULAR RECEPTORS RESPONSIBLE FOR SENSORY MUSCLE FATIGUE AND MUSCLE PAIN?
- 11.6. TRANSLATION FROM MOUSE TO HUMAN
- 11.7. MOLECULAR RECEPTORS INVOLVED IN CHRONIC FATIGUE SYNDROME
- 11.8. DYSREGULATED MRNAS MAY ALSO EXPLAIN COMMON CO-MORBIDITIES OF CFS
- 11.9. CAN ACUTE FATIGUE LEAD TO CHRONIC FATIGUE?
- 11.10. COMMON CAUSES OF ACUTE FATIGUE MIGHT CAUSE UP-REGULATION OF THE mRNA FOR THE MOLECULAR RECEPTORS SUGGESTED TO MEDIATE SENSORY MUSCLE FATIGUE AND PAIN
- 11.11. MENTAL FATIGUE
- 11.12. SYMPATHETIC DYSREGULATION CONTRIBUTES TO ENHANCED SENSORY FATIGUE
- 11.13. ADRENERGIC RECEPTORS ON SENSORY NEURONS?
- 11.14. BACK TO THE MOUSE TO FIGURE OUT HOW ADRENERGIC RECEPTORS COULD INCREASE MUSCLE PAIN AND FATIGUE
- 11.15. FUTURE RESEARCH DIRECTIONS
- ACKNOWLEDGMENTS
- REFERENCES
- 12. Reflex Autonomic Responses Evoked by Group III and IV Muscle AfferentsJennifer L. McCord and Marc P. Kaufman.
- 13. Central Pain as a Thalamocortical Dysrhythmia: A Thalamic Efference Disconnection?Kerry D. Walton and Rodolfo R. Llinás.
- 14. What Can Neuroimaging Tell Us about Central Pain?D.S. Veldhuijzen, F.A. Lenz, S.C. LaGraize, and J.D. Greenspan.
- 14.1. INTRODUCTION
- 14.2. THE NATURE OF SENSORY ABNORMALITIES IN CENTRAL PAIN
- 14.3. IDENTIFYING COLD ALLODYNIA
- 14.4. CENTRAL PAIN MECHANISMS: ONGOING PAIN
- 14.5. CEREBRAL MECHANISMS OF COLD ALLODYNIA IN CENTRAL PAIN
- 14.6. CEREBRAL MECHANISMS OF TACTILE ALLODYNIA IN CENTRAL PAIN
- 14.7. CONCLUSIONS
- ACKNOWLEDGMENT
- REFERENCES
- 15. Human Brain Imaging Studies of Chronic Pain: Translational OpportunitiesA. Vania Apkarian.
- 15.1. PSYCHOLOGICAL, COGNITIVE, AND SENSORY ABNORMALITIES
- 15.2. BRAIN METABOLITES
- 15.3. SPONTANEOUS PAIN
- 15.4. BRAIN ACTIVITY DURING CHRONIC PAIN
- 15.5. BRAIN ACTIVITY FOR THERAPIES FOR CHRONIC PAIN
- 15.6. BRAIN MORPHOLOGICAL CHANGES WITH CHRONIC PAIN
- 15.7. PUTTING ALL THE HUMAN OBSERVATIONS TOGETHER
- 15.8. ANIMAL MODELS AND CORRELATES FOR HUMAN CHRONIC PAIN
- 15.9. NOVEL PHARMACOTHERAPY BASED ON THE ROLE OF THE CORTEX IN CHRONIC PAIN
- 15.10. TOWARD A NEW THEORY OF CHRONIC PAIN
- REFERENCES
- 16. Consideration of Pharmacokinetic Pharmacodynamic Relationships in the Discovery of New Pain DrugsGarth T. Whiteside and Jeffrey D. Kennedy.
- 17. Large Animal Models for Pain Therapeutic DevelopmentDarrell A. Henze and Mark O. Urban.
- 17.1. THE IMPORTANCE OF PREDICTIVE ANIMAL MODELS FOR DRUG DISCOVERY AND DEVELOPMENT
- 17.2. THE POTENTIAL VALUE OF LARGE ANIMAL MODELS
- 17.3. MODELS OF ACUTE NOCICEPTION
- 17.4. MODELS OF ACUTE INFLAMMATORY PAIN
- 17.5. MODELS OF CHRONIC INFLAMMATORY PAIN
- 17.6. MODELS OF CHRONIC NEUROPATHIC PAIN
- 17.7. ALGOGENIC/PHARMACODYNAMIC MODELS
- 17.8. SUMMARY
- REFERENCES
- 18. Drug Discovery and Development for PainSandra R. Chaplan, William A. Eckert III, and Nicholas I. Carruthers.
- NLM CatalogRelated NLM Catalog Entries
- Recent advances in basic neurosciences and brain disease: from synapses to behavior.[Mol Pain. 2006]Recent advances in basic neurosciences and brain disease: from synapses to behavior.Bi GQ, Bolshakov V, Bu G, Cahill CM, Chen ZF, Collingridge GL, Cooper RL, Coorssen JR, El-Husseini A, Galhardo V, et al. Mol Pain. 2006 Dec 30; 2:38. Epub 2006 Dec 30.
- Review On the Role of ATP-Gated P2X Receptors in Acute, Inflammatory and Neuropathic Pain.[Translational Pain Research: F...]Review On the Role of ATP-Gated P2X Receptors in Acute, Inflammatory and Neuropathic Pain.Toulme E, Tsuda M, Khakh BS, Inoue K. Translational Pain Research: From Mouse to Man. 2010
- Review Painful purinergic receptors.[J Pharmacol Exp Ther. 2008]Review Painful purinergic receptors.Donnelly-Roberts D, McGaraughty S, Shieh CC, Honore P, Jarvis MF. J Pharmacol Exp Ther. 2008 Feb; 324(2):409-15. Epub 2007 Nov 27.
- Review Cytokines in Pain.[Translational Pain Research: F...]Review Cytokines in Pain.Shubayev VI, Kato K, Myers RR. Translational Pain Research: From Mouse to Man. 2010
- Review Translational Metabolomics of Head Injury: Exploring Dysfunctional Cerebral Metabolism with Ex Vivo NMR Spectroscopy-Based Metabolite Quantification.[Brain Neurotrauma: Molecular, ...]Review Translational Metabolomics of Head Injury: Exploring Dysfunctional Cerebral Metabolism with Ex Vivo NMR Spectroscopy-Based Metabolite Quantification.Wolahan SM, Hirt D, Glenn TC. Brain Neurotrauma: Molecular, Neuropsychological, and Rehabilitation Aspects. 2015
- Translational Pain ResearchTranslational Pain Research
- 1769-7298[ISSN] (0)NLM Catalog
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