neuropeptide-y and Toothache

neuropeptide-y has been researched along with Toothache* in 2 studies

Reviews

2 review(s) available for neuropeptide-y and Toothache

ArticleYear
Neuropeptides in dental pulp: the silent protagonists.
    Journal of endodontics, 2008, Volume: 34, Issue:7

    Dental pulp is a soft mesenchymal tissue densely innervated by afferent (sensory) fibers, sympathetic fibers, and parasympathetic fibers. This complexity in pulp innervation has motivated numerous investigations regarding how these 3 major neuronal systems regulate pulp physiology and pathology. Most of this research is focused on neuropeptides and their role in regulating pulpal blood flow and the development of neurogenic inflammation. These neuropeptides include substance P, calcitonin gene-related peptide, neurokinin A, neuropeptide Y, and vasoactive intestinal polypeptide among others. The purpose of this article is to review recent advances in neuropeptide research on dental pulp, including their role in pulp physiology, their release in response to common dental procedures, and their plasticity in response to extensive pulp and dentin injuries. Special attention will be given to neuropeptide interactions with pulp and immune cells via receptors, including studies regarding receptor identification, characterization, mechanisms of action, and their effects in the development of neurogenic inflammation leading to pulp necrosis. Their role in the growth and expansion of periapical lesions will also be discussed. Because centrally released neuropeptides are involved in the development of dental pain, the pain mechanisms of the pulpodentin complex and the effectiveness of present and future pharmacologic therapies for the control of dental pain will be reviewed, including receptor antagonists currently under research. Finally, potential clinical therapies will be proposed, particularly aimed to manipulate neuropeptide expression or blocking their receptors, to modulate a variety of biologic mechanisms, which preliminary results have shown optimistic results.

    Topics: Alveolar Bone Loss; Animals; Calcitonin Gene-Related Peptide; Dental Pulp; Humans; Neurogenic Inflammation; Neurokinin A; Neurons, Afferent; Neuropeptide Y; Neuropeptides; Pulpitis; Substance P; Toothache; Vasoactive Intestinal Peptide

2008
Neural control of pulpal blood flow.
    Critical reviews in oral biology and medicine : an official publication of the American Association of Oral Biologists, 1996, Volume: 7, Issue:2

    Blood flow of mammalian dental pulp is under both remote and local control. There is evidence for the existence of parasympathetic nerves in the pulp, but functionally the cholinergic influence is weak, and the physiological significance of this autonomic system seems to be low. The evidence for sympathetic vasoconstrictor nerves in the pulp is robust, and there is convincing support for the contention that these nerves play a physiological role, operating via release of noradrenaline and neuropeptide Y. However, there is no significant functional evidence in support of sympathetic beta-adrenoceptor-mediated vasodilation in the pulp. The local control of blood flow involves a subset of intradental sensory nerves. By virtue of their neuropeptide content, these afferent fibers cause vasodilation and inhibit sympathetic vasoconstriction in response to painful stimulation of the tooth. Such locally governed control may serve to meet immediate demands of the pulp tissue. A locally triggered reflex activation of sympathetic nerves in the pulp may modulate this control and limit its magnitude. Thus, there are competitive interactions between local and remote vascular controls which may be put out of balance in the injured and inflamed dental pulp.

    Topics: Animals; Autonomic Nervous System; Cholinergic Fibers; Dental Pulp; Humans; Mammals; Neurons, Afferent; Neuropeptide Y; Norepinephrine; Parasympathetic Nervous System; Pulpitis; Receptors, Adrenergic, beta; Regional Blood Flow; Sympathetic Nervous System; Toothache; Vasoconstriction; Vasoconstrictor Agents; Vasodilation

1996