1: Introduction.- Sensory Modalities and Channels.- Specificity versus Pattern Theories of Sensation.- Historical Perspective.- Specificity Theory.- Pattern Theory.- Gate Theory of Pain.- Supporting Evidence.- Molecular Basis of Specificity of Primary Afferent Neurons.- Sinclair's Challenge and Evidence for Specificity from Microneurography.- Sensory Role of Single Tactile Afferents in Human Subjects.- Criticism of Microneurography Results.- Rebuttal of this Criticism.- Microneurography and Pain.- Somatosensory System Dualities.- Epicritic versus Protopathic Sensations.- Lemniscal versus Non-lemniscal Systems.- Large- versus Small-Fiber Systems.- Conclusions.- 2: Sensory Receptors and Peripheral Nerves.- Composition of Peripheral Nerves.- Sensory Receptors.- Cutaneous Receptors.- Cutaneous Mechanoreceptors.- Mechanoreceptors in the Glabrous Skin of the Primate Hand.- Cutaneous Displacement and Velocity Detectors.- SA I Receptors.- SA II Receptors.- Cutaneous Velocity Detectors.- FA I receptors.- Hair Follicle Receptors.- Field Receptors.- C Mechanoreceptors.- Cutaneous Transient Detectors.- FA II Receptors.- G1 Hair Follicle Receptors.- Sinus Hairs.- The Role of Growth Factors in the Regulation of Mechanoreceptors.- SA I (Merkel Cell) Endings.- FA I (Meissner Corpuscle) Receptors.- FA II (Pacinian Corpuscle) Receptors.- Hair Follicle Receptors.- Transduction in Mechanoreceptors.- Cutaneous Nociceptors.- A? Nociceptors.- C Nociceptors.- Transduction in Nociceptors.- Sensitization of Nociceptors.- Neurogenic Inflammation.- Peptidergic and Non-Peptidergic Nociceptors.- Nociceptors and Neurogenic Inflammation.- Interaction of Growth Factors with Nociceptors.- Inhibitory Interactions with Peripheral Cutaneous Nociceptor Endings.- Cutaneous Chemoreceptors Possibly Responsible for Itch.- Cutaneous Thermoreceptors.- Cold Receptors.- Warm Receptors.- Transduction in Thermoreceptors.- Muscle Receptors.- Stretch Receptors.- Muscle Spindles.- Golgi Tendon Organs.- Pressure-Pain Endings and Muscle Nociception.- Group III Muscle Afferents.- Group IV Muscle Afferents.- Sensitization of High Threshold Muscle Afferents.- Joint Receptors.- Joint Mechanoreceptors.- Slowly Adapting Joint Receptors.- Rapidly Adapting Joint Receptors.- Joint Nociceptors.- Sensitization of Joint Nociceptors.- Peptide Content of Fine Joint Afferents.- Joint Inflammation.- Role of Dorsal Root Reflexes in the Neurogenic Inflammation of Arthritis.- Visceral Receptors.- Visceral Mechanoreceptors.- Visceral Nociceptors.- Peptides in Visceral Afferents.- Growth Factors and Visceral Afferents.- Sensitization of Visceral Afferents.- Visceral Thermoreceptors.- Conclusions.- 3: Dorsal Root Ganglion Cells and their Processes.- Dorsal Root Ganglion Cell Bodies.- DRG Cell Classifications.- Cytologic and Size Classifications.- Myelination.- Axon Conduction Velocity.- Action Potentials and After Polarizations.- Classifications by Chemical Neuroanatomical Criteria.- Topographic Organization.- Innervation of Ganglion Cell Bodies, Pericellular Baskets.- Dorsal Root Ganglion Cell Processes.- Dermatomes.- Branching.- Ventral Root Afferent Fibers.- Spinal Cord.- Blind Fibers.- Looping Fibers.- Pial Fibers.- Function.- Segregation of Dorsal Root Fibers.- Conclusions.- 4: Chemical Anatomy of Dorsal Root Ganglion Cells.- Amines.- Catecholamines (CAs).- Histamine.- Serotonin.- Amino Acids.- Glutamate.- Aspartate.- GABA.- Glycine.- Channels.- Calcium Channels.- Sodium Channels.- Voltage-Gated Sodium Channels.- Cell Size.- Co-localizations.- ? Subunits.- Development.- Inflammation.- Peripheral Axotomy.- Nerve Growth Factor (NGF).- Peripheral Sensory Axons.- Non-voltage Gated Sodium Channels.- Enzymes.- Alkaline Phosphatase.- Carbonic Anhydrase (CA).- Cholinergic Enzymes.- ChAT.- ACHE.- Cytochrome Oxidase.- Fluoride-resistant Acid Phosphatase (FRAP).- Monoamine Oxidase.- Nitric Oxide (NO), Nitric Oxide Synthase (NOS) and NADPHd.- Ca++ Calmodulin Kinase II.- Other Kinases.- Hormones.- Corticotrophin Releasing Factor (CRF).- Insulin.- Peptides.- Angiotensin.- Atrial and Brain Natriuretic Peptide.- Bombesin.- Cholycystokinin (CCK).- Calcitonin Gene-related Peptide (CGRP).- Classification.- Age.- Development.- Co-localizations.- SP.- GAL.- SOM.- CCK.- VIP.- Bombesin, ENK, DYN, VIP, NT, and NPY.- FRAP.- Cysteine Proteases.- Amino Acids.- IB4.- Peripherin.- BDNF.- GDNF.- TrkA.- P75.- Experimental Manipulations or Disease.- Dorsal Rhizotomy.- Peripheral Nerve Lesions.- Inflammation.- Diabetes.- Hypoxia.- Hereditary Sensory Neuropathy.- Capsaicin.- Axonal Transport Blockers.- NGF Treatment.- Female Steroid Hormones.- Sympathectomy.- Dorsal Roots.- Periphery.- Somatic Innervation.- Visceral Innervation.- Endothelin (ET).- Galanin.- Nerve Lesions.- Inflammation.- Resiniferatoxin.- Axonal Transport Blockers.- Co-localizations.- CGRP.- SP.- VIP.- NPY.- 5-HT.- Glucocorticoid Receptors.- Dorsal Roots.- Neuropeptide FF (NPFF).- Neuropeptide Y (NPY), Polypeptide Y (PPY), and Peptide YY.- Peripheral Axotomy or Compression.- Trophic Factors.- Development.- Co-localizations.- Peripheral Innervation.- Neurotensin (NT).- Opioids.- Dynorphin (DYN).- Endomorphin.- Endorphin.- Enkephalin.- Nociceptin.- Oxytocin and Vasopressin.- Secretoneurin and the Chromagranins.- Somatostatin.- Co-localizations.- GDNF and Peripheral Axotomy.- Development.- Periphery.- Substance P (SP).- Segmental Levels.- Age and Development.- Co-localizations.- Tachykinins.- CGRP.- GAL.- SOM.- CCK.- ENKandDYN.- Bombesin, VIP, NT, and NPY.- FRAP.- NOS.- Glutamate.- IB-4.- 200 KD Neurofilament Protein.- Peripherin.- GDNF.- Opioid Receptors.- Experimental Manipulations.- Dorsal Rhizotomy.- Peripheral Nerve Lesions.- Inflammation.- Trophic Factors.- Adrenalectomy.- Resiniferatoxin.- Periphery.- Somatic Innervation.- Visceral Innervation.- VIP.- Proteins.- Calcium Binding Proteins.- Glutamate Transporters.- Reg-2.- Bone Matrix Proteins.- ?-arrestin.- Receptors.- Aminergic Receptors.- Adrenergic Receptors.- Dopamine Receptors.- Histamine Receptors.- 5-HT Receptors.- 5-HT1A Receptors.- 5-HT1B Receptors.- 5-HTlC Receptors.- 5-HT1D Receptors.- 5-HT1E Receptors.- 5-HT1F Receptors.- 5-HT2 Receptors.- 5-HT3 Receptors.- 5-HT4, 5-HT5, and 5-HT7 Receptors.- Amino Acid Receptors.- Glutamate Receptors.- Ionotropic Glutamate Receptors.- Metabotropic Glutamate Receptors.- GABA Receptors.- Glycine Receptors.- Cholinergic Receptors.- Nicotinic Receptors.- Muscarinic Receptors.- Hormone Receptors.- Androgen Receptors.- Estrogen Receptors.- Gender Differences.- Development.- Castration.- Glucocorticoid Receptors.- Insulin Receptors.- TRH Receptors.- Vitamin D Receptors.- Peptide Receptors.- Angiotensin Receptors.- Bombesin Receptors.- Bradykinin Receptors.- Cannabinoid Receptors.- CCK Receptors.- CGRP Receptors.- Endothelin (ET) Receptors.- Galanin Receptors (GALR).- Neuropeptide Y Receptors (Y-Rs).- Neurotensin Receptors (NT-R).- Neurokinin-1 Receptors (NKR1s).- NPFF Receptors.- Opioid Receptors.- MORs, DORs, and KORs.- Co-localizations.- Peripheral Axotomy.- Inflammation.- Development.- Periphery.- Endomorphin Receptors.- Endorphin Receptors.- Opioid-like Receptor 1 (ORL1).- Sigma Receptors.- Oxytocin and Vasopressin Receptors.- Somatostatin Receptors.- Vasoactive Intestinal Polypeptide (VIP) Receptors.- Purinergic Receptors or Purinoceptors.- Adenosine Receptors.- ATP (P) Receptors.- P2X Purinoceptors.- P2Y Purinoceptors.- Vanilloid Receptors (VRs).- Conclusions.- 5: Structure of the Dorsal Horn.- Lamina I.- Cell Types.- Classic Types: Marginal and Smaller Cells.- Modern Types.- Primary Afferent Input into Lamina I.- The Marginal Plexus.- Large versus Small Fibers.- A? versus C Fibers.- Propriospinal versus Primary Afferent Fibers.- Cutaneous, Muscular, and Visceral Afferent Input.- Neuropil Organization.- Lamina II (The Substantia Gelatinosa).- Cell Types.- Classic Cell Types.- Limiting (Limitrophe, Border) Cells.- Central Cells.- Funicular Cells.- Short-Axoned Cells.- The Gelatinosa as a Closed System?.- Modern Cell Types.- Stalked Cells.- Islet Cells.- Other Cell Types.- Arboreal Cells.- II-III Border Cells.- Spiny Cells.- Filamentous Cells.- Curly Cells.- Stellate Cells.- Adequacy of Dendritic Classifications for Lamina II Cells.- Axonal Projections.- Primary Afferent Input.- Coarse Primary Afferents.- Fine Primary Afferents.- Fine Myelinated (A?) Primary Afferents.- Neuropil Organization.- Glomeruli.- Central Terminals.- Dense or Dark Terminals.- Light (Electron-lucent or Regular Synaptic Vesicle) Terminals.- Large Dense-Core Vesicle Terminals.- Peripheral Dendrites.- Peripheral Terminals.- Chemical Markers.- Nonglomerular Synapses.- Lamina III.- Cell Types.- Axonal Projections.- Primary Afferent Input.- Neuropil Organization.- Fine Structure of Terminals of Identified Axons.- Lamina IV.- Cell Types.- Axonal Projections.- Primary Afferent Input.- Neuropil Organization.- Lamina V.- Cell Types.- Axonal Projections.- Primary Afferent Input.- Lamina VI.- Cell Types.- Axonal Projections.- Primary Afferent Input.- Conclusions.- 6: Chemical Anatomy of the Dorsal Horn.- Amines.- Catecholamines (CA).- Dopa.- Dopamine (DA).- Noradrenaline (NA).- Adrenaline.- Histamine.- Serotonin (5-HT).- Laminar Localizations and Intrinsic Cells.- Synaptic Organization.- Co-localizations.- Experimental Manipulations.- Development.- Amino Acids.- Glutamate.- Laminar Localizations.- Synaptic Organization.- Aspartate.- Gamma-Aminobutyric Acid (GABA).- Laminar Localizations.- Intrinsic Cells.- Synaptic Organization.- Axoaxonic Synapses.- Dendrodendritic, Dendrosomatic, and Dendroaxonic Synapses.- Postsynaptic Targets.- Co-localizations.- Glutamate.- Glycine.- ChAT.- NOS and NADPH Diaphorase.- CGRP.- Enkephalin.- Galanin.- Neuropeptide Y.- Neurotensin.- Somatostatin.- SP.- Thyrotropin-releasing Hormone.- Parvalbumin.- Glycine Receptor.- MORs.- Experimental Manipulations and Development.- Glycine.- Laminar Localizations.- Synaptic Organization.- Co-localizations.- Gephryin.- GABA.- Glycine Transporter GLYT2.- NADPH Diaphorase.- ChAT.- Somatostatin.- Taurine.- Channels.- Calcium Channels.- Sodium Channels.- Enzymes.- Cholinergic Enzymes (ChAT and ACHE).- ChAT.- AChE.- Cytochrome Oxidase.- Fluoride Resistant Acid Phosphatase (FRAP).- Monoamine Oxidase.- Nitric Oxide (NO).- Laminar Localizations.- Co-localizations.- Experimental Manipulations.- Dorsal Rhizotomy.- Spinal Damage.- Inflammation.- Development.- Protein Kinase C.- Hormones.- Corticotrophin Releasing Factor (CRF).- Thyroid-releasing Hormone (TRH).- Peptides.- Angiotensin.- Atrial and Brain Natriuretic Peptide.- Bombesin.- Cholycystokinin (CCK).- Calcitonin Gene-related Peptide (CGRP).- Laminar Localizations.- Intrinsic Neurons.- Synaptic Organization.- Dorsal Column Organization.- Descending Fibers.- Experimental Manipulations.- Deafferentation.- Peripheral Nerve Lesions.- Spinal Hemisection.- Inflammation.- Morphine and Tolerance.- Electrical Stimulation.- MK-801.- Dietary Calcium.- Development and Age.- Sprouting.- Endothelin (ET).- Galanin.- Laminar Localizations.- Synaptic Organization.- Experimental Manipulations.- Hypocretin.- Neuropeptide FF (NPFF).- Neuropeptide Y (NPY), Pancreatic Polypeptide (PPY) and Peptide YY.- Laminar Localizations.- Synaptic Organization.- Co-localizations.- Experimental Manipulations.- Dorsal Rhizotomy or Spinal Transection.- Peripheral Axotomy.- Inflammation.- Neurotensin (NT).- Opioids.- Dynorphin (DYN).- Laminar Localizations.- Intrinsic Cell Types.- Co-localizations.- Synaptic Organization.- Experimental Manipulations.- Dorsal Rhizotomy and Peripheral Axotomy.- Spinal Injury.- Inflammation.- Endomorphins.- Endorphin.- Enkephalin (ENK).- Laminar Localizations.- Segmental Levels.- Cell Types.- Synaptic Organization.- Development.- Experimental Manipulations.- Deafferentation.- Spinal Injury.- Nerve Transection.- Inflammation.- Ovariectomy and Noxious Stimuli.- Co-localizations.- Nociceptin (Orphanin FQ).- Oxytocin (OXY) and Vasopressin (VP).- Secretoneurin.- Somatostatin.- Laminar Localizations and Intrinsic Cells.- Deafferentation and Peripheral Axotomy.- Synaptic Organization.- Development.- Substance P (SP).- Laminar Localizations.- Intrinsic Cells.- Synaptic Organization.- Experimental Manipulations.- Deafferentation.- Peripheral Nerve Lesions.- Spinal Lesions.- Inflammation.- Nerve Growth Factor.- Local Anesthesia.- Capsaicin.- MK-801.- Thiamine Deficiency.- Electrical Stimulation.- Prostate Stimulation.- SP Antisera.- Hereditary Sensory Neuropathy.- Age and Development.- Vasointestinal Polypeptide (VIP).- Laminar Localizations.- Intrinsic Cells.- Synaptic Organization.- Experimental Manipulations.- Dorsal Rhizotomy.- Peripheral Nerve Section or Crush.- Spinal Transection.- Proteins.- Calcium Binding Proteins.- Glutamate Transporters.- Receptors.- Aminergic Receptors.- Adrenergic Receptors.- ? Adrenergic Receptors.- ?1 Receptors.- ?2 Receptors.- Dopamine Receptors.- 5-HT Receptors.- 5-HT1 and 5-HT1A Receptors.- 5-HT1B Receptors.- 5-HT1C Receptors.- 5-HT1D Receptors.- 5-HT1s Receptors.- 5-HT2 Receptors.- 5-HT3 Receptors.- 5-HT7 Receptors.- Amino Acid Receptors.- Glutamate Receptors.- Ionotropic Glutamate Receptors.- Metabotropic Glutamate Receptors.- GABA and Benzodiazepine Receptors.- GABAA Receptors.- GABAB Receptors.- Glycine Receptors.- Cholinergic Receptors.- Nicotinic Receptors.- Muscarinic Receptors.- Hormone Receptors.- Androgen Receptors.- Corticosteroid Receptors.- Corticotrophin Releasing Factor (CRF) Receptors.- Estrogen Receptors.- Insulin Receptors.- TRH Receptors.- Peptide Receptors.- Angiotensin Receptors.- Bombesin Receptors.- Bradykinin Receptors.- Cannabinoid Receptors.- CCK Receptors.- CGRP Receptors.- Endothelin Receptors.- Galanin Receptors.- Neurokinin Receptors.- Laminar Localizations.- Segmental Localizations.- Intrinsic Neurons.- Synaptic Organization.- Experimental Manipulations.- Neurotoxicity and Therapy.- Neural Injuries.- Development.- Other Neurokinin Receptors.- Neuropeptide Y Receptors (Y-Rs).- Neurotensin Receptors.- NeuropeptideFF (NPFF) Receptors.- Opioid Receptors.- MORs, DORs, and KORs.- Laminar Localizations.- Autoradiographic Binding.- Immunocytochemical Labeling.- Segmental Variability.- Proportions of Opioid Receptor Subtypes.- Primary Afferent Input.- Intrinsic Neurons.- Synaptic Organization.- Co-localizations.- Experimental Manipulations.- Development.- Estrus.- Other Opioid Receptors.- Endomorphin Receptors.- Endorphin Receptors.- ORL1 Receptors.- Sigma Receptors.- Oxytocin and Vasopressin Receptors.- Somatostatin (SRIF) Receptors.- Vasoactive Intestinal Polypeptide (VIP) Receptors.- Purinoceptors.- Vanilloid Receptors.- Conclusions.- 7: Functional Organization of Dorsal Horn Interneurons.- Electrophysiological Recordings from Interneurons.- Recording Techniques.- In Vivo Preparations.- Extracellular Recordings from Interneurons.- Intracellular Recordings from Interneurons.- In Vitro Preparations.- Responses of Interneurons to Peripheral Nerve Volleys Evoked by Electrical Stimulation.- Volleys in A Fibers.- Volleys in A and C Fibers.- Population Responses.- Cord Dorsum Potentials and Intraspinal Field Potentials.- Cord Dorsum Potentials.- Negative Field Potentials.- Population Responses to Muscle Afferent Volleys.- Population Responses to Joint Afferent Volleys.- Population Responses to Visceral Afferent Volleys.- Positive Cord Dorsum Potential and Primary Afferent Depolarization.- Primary Afferent Depolarization.- Changes in Metabolic Activity and Intracellular Signaling.- 2-Deoxyglucose.- Expression of Immediate, Early Genes.- Summary.- Afferent Projections to the Dorsal Horn.- Laminae I-IV.- Laminae V, VI, and X.- Responses to Electrical Stimulation.- Lamina I.- Lamina II.- Laminae III-VI.- Responses to Natural Stimulation.- Lamina I.- Lamina II.- Laminae III-VI.- Lamina X.- Classification of Dorsal Horn Interneurons.- Monosynaptic Input.- PAD-related.- Laminar Position.- A or A Plus C Input.- Bandwidth.- Cluster Analysis.- Dorsal Horn Neurons in Unanesthetized, Behaving Animals.- Summary.- Pharmacology of Dorsal Horn Interneurons.- Pharmacological Techniques.- Systemic Drug Administration.- Superfusion of the Spinal Cord.- Intrathecal Administration.- Microdialysis.- Microiontophoresis.- Limitations of Electrophysiological Recordings in Drug Studies.- Excitatory Transmitters in the Dorsal Horn.- Excitatory Amino Acids: Glutamate and Aspartate.- Release of Excitatory Amino Acids in the Spinal Cord.- Excitatory Action of Glutamate and Aspartate.- Excitatory Amino Acid Receptors.- Ionotropic Glutamate Receptors.- Functions of Ionotropic Glutamate Receptors.- Metabotropic Glutamate Receptors.- Functions of Metabotropic Glutamate Receptors.- ATP.- Purinergic Receptors.- Functions of Purinergic Receptors.- Excitatory Neuropeptides.- Substance P (SP).- Other Neurokinins: Neurokinin A (NKA) and Neurokinin B (NKB).- Calcitonin Gene-related Peptide (CGRP).- Combined Action of Excitatory Amino Acids and Peptides.- Other Excitatory Peptides.- Vasoactive Intestinal Polypeptide (VIP).- Neurotensin.- Cholecystokinin (CCK).- Thyrotropin-releasing Hormone (TRH).- Corticotropin-releasing hormone (CRH).- Pituitary Adenylate Cyclase-activating Polypeptide (PACAP).- Islet Amyloid Polypeptide (IAPP or Amylin).- Inhibitory Transmitters in the Dorsal Horn.- Inhibitory Amino Acids.- Gamma-aminobutyric Acid (GABA).- Glycine.- Acetylcholine (ACh).- Inhibitory Peptides in the Dorsal Horn.- Opioid Peptides.- Other Inhibitory Peptides.- Nocistatin and Nociceptin.- Somatostatin.- Galanin.- Bombesin.- Neuropeptide Y (NPY).- Pharmacology of PAD.- Role of Excitatory Amino Acids.- Role of GABA.- Ionic Mechanism.- Other Transmitters.- Potassium Release.- Summary.- Modulation of the Responses of Dorsal Horn Neurons.- Receptive Fields and Alterations in their Sizes.- Excitatory Receptive Fields.- Cascade Theory.- Somatotopic Organization.- Changes in Receptive Fields.- Long-term Potentiation and Long-term Depression.- Inhibitory Receptive Fields.- Gate Theory and Diffuse Noxious Inhibitory Controls.- Gate Theory of Pain.- Diffuse Noxious Inhibitory Controls.- Summary.- Models of Human Disease.- Inflammatory Pain.- Experimental Arthritis.- Kaolin and Carrageenan Model.- Adjuvant Model.- Cutaneous Inflammation.- Mustard Oil.- Carrageenan.- Complete Freund's Adjuvant.- Formalin Injection.- Bee Venom Injection.- Intradermal Injection of Capsaicin.- Neuropathic Pain.- Deafferentation.- Spared Root Paradigm.- Nerve Transection.- Autotomy.- Models of Peripheral Neuropathic Pain.- Bennett Model.- Seltzer Model.- Chung Model.- Models of Central Neuropathic Pain.- Cordotomy Model.- Contusion Injury Model.- Spinal Cord Hemisection Model.- Quisqualic Acid Model.- Ischemia Model.- Summary.- Genetic Influences on Spinal Cord Sensory Processing.- Genetic Basis of Spinal Cord Sensory Functions.- Mechanoreceptor-related Genes.- Cold-related Gene.- Nociception-related Genes.- TrkA and Congenital Insensitivity to Pain.- Deletion of Neurokinin-1 Receptors.- Deletion of CGRP.- Changes in Signal Transduction Molecules.- Opiate Receptors.- Summary.- Conclusions.- References.
