Handbook of experimental pharmacology
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Neuropathic pain syndromes, i.e., pain after a lesion or disease of the peripheral or central nervous system, are clinically characterized by spontaneous pain (ongoing, paroxysms) and evoked types of pain (hyperalgesia, allodynia). A variety of distinct pathophysiological mechanisms in the peripheral and central nervous system operate in concert: In some patients the nerve lesion triggers molecular changes in nociceptive neurons that become abnormally sensitive and develop pathological spontaneous activity (upregulation of sodium channels and receptors, e.g., vanilloid TRPV1 receptors, menthol-sensitive TRPM8 receptors, or alpha-receptors). These phenomena may lead to spontaneous pain, shooting pain sensations, as well as heat hyperalgesia, cold hyperalgesia, and sympathetically maintained pain. ⋯ Therefore, a new hypothetical concept was proposed in which pain is analyzed on the basis of underlying mechanisms. The increased knowledge of pain-generating mechanisms and their translation into symptoms and signs may in the future allow a dissection of the mechanisms that operate in each patient. If a systematic clinical examination of the neuropathic pain patient and a precise phenotypic characterization is combined with a selection of drugs acting against those particular mechanisms, it should ultimately be possible to design optimal treatments for the individual patient.
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For more than a half century, tobacco manufacturers have conducted sophisticated internal research to evaluate nicotine delivery, and modified their products to ensure availability of nicotine to smokers and to optimize its effects. Tobacco has proven to be a particularly effective vehicle for nicotine, enabling manipulation of smoke chemistry and of mechanisms of delivery, and providing sensory cues that critically inform patterns of smoking behavior as well as reinforce the impact of nicotine. ⋯ A review of internal documents indicates important historical differences, as well as significant differences between commercial brands, underscoring the effectiveness of methods adopted by manufacturers to control nicotine dosing and target the needs of specific populations of smokers through commercial product development. Although the focus of the current review is on the manipulation of nicotine dosing characteristics, the evidence indicates that product design facilitates tobacco addiction through diverse addiction-potentiating mechanisms.
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Handb Exp Pharmacol · Jan 2009
ReviewCough sensors. II. Transient receptor potential membrane receptors on cough sensors.
The transient receptor potential (TRP) family of channels is represented by at least six members in primary sensory neurons. These include the TRP vanilloid subtypes 1 (TRPV1), 2, 3, and 4, the cold and menthol receptor TRPM8, and TRPA1. ⋯ Evidence in experimental animals and in patients with airway diseases indicates a marked hypersensitivity to cough induced by TRPV1 agonists. Recent studies with newly developed high-affinity and selective TRPV1 antagonists have revealed that TRPV1 inhibition reduces cough induced by citric acid or antigen challenge.
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Migraine is a neurovascular disorder which affects one fifth of the general population. Disability due to migraine is severe and involves patients from infancy through senescence and it is aggravated by the fact there is no complete cure. ⋯ These novel antagonists block the receptor for the sensory neuropeptide calcitonin gene-related peptide (CGRP), which upon release from peripheral terminals of trigeminal perivascular neurons dilates cranial arterial vessels. Whether neurogenic vasodilatation is the major contributing factor to generate the pain and the associated symptoms of the migraine attack or whether other sites of action of CGRP receptor antagonists are responsible for the antimigraine effect of these compounds is the subject of current and intense research.
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Handb Exp Pharmacol · Jan 2009
ReviewCough sensors. V. Pharmacological modulation of cough sensors.
Several airway afferent nerve subtypes have been implicated in coughing. These include bronchopulmonary C-fibers, rapidly adapting airway mechanoreceptors and touch-sensitive tracheal Adelta-fibers (also called cough receptors). ⋯ In this review we catalogue the chemical agents that stimulate and/or modulate the activity of the airway afferent nerves involved in cough, and describe the specific mechanisms involved in these effects. In addition, we describe the mechanisms of action of a number of chemical inhibitors of these afferent nerve subtypes, and attempt to relate this information to the regulation of coughing in health and disease.