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Rapidly adapting receptors

Rapidly adapting receptor Responds to airway irritants, mechanical stimuli, interstitial edema... [Pg.27]

RARs rapidly adapting receptors, TRPV-l transient receptor potential vaniUoid-1, AA arachidonic acid, 5-HT 5-hydroxytryptamine, ASIC acid-sensing ion channel, BKB2 bradykinin B2... [Pg.5]

Fig. 2 Afferent pathways and central control of the cough reflex with peripheral and central sensitization of the reflex by a variety of mechanisms. CGRP calcitonin gene-related peptide, tiTS nucleus of the solitary tract, LTD4 leukotriene D4, NK neurokinin, PGE2 prostaglandin E2, RAR rapidly adapting receptors, SAR slowly adapting receptors, TRPV-1 transient receptor potential vanUloid-l... Fig. 2 Afferent pathways and central control of the cough reflex with peripheral and central sensitization of the reflex by a variety of mechanisms. CGRP calcitonin gene-related peptide, tiTS nucleus of the solitary tract, LTD4 leukotriene D4, NK neurokinin, PGE2 prostaglandin E2, RAR rapidly adapting receptors, SAR slowly adapting receptors, TRPV-1 transient receptor potential vanUloid-l...
Rapidly adapting receptors as defined by whole lung inflation correspond to the tracheal/bronchial stretch receptors described in the lower portion of the table. Many of the attributes listed (e.g., activated, not activated, low, high) are generahzed, not uniformly expressed in each subtype. See... [Pg.25]

Bonham AC, Kott KS, Joad JP (1996) Sidestream smoke exposure enhances rapidly adapting receptor responses to substance Pin young guinea pigs. J Appl Physiol 81 1715-1722 Burki NK, Dale WJ, Lee LY (2005) Intravenous adenosine and dyspnea in humans. J Appl Physiol 98 180-185... [Pg.40]

Hargreaves M, Ravi K, Kappagoda CT (1993) Effect of bradykinin on respiratory rate in anaesthetized rabbits role of rapidly adapting receptors, J Physiol 468 501-513... [Pg.42]

Yu 1 (2005) Airway mechanosensors. Respir Physiol Neurobiol 148 217-243 Yu 1, Coleridge JC, Coleridge HM (1987) Influence of lung stiffness on rapidly adapting receptors in rabbits and cats. Respir Physiol 68 161-176... [Pg.48]

Bergren DR, Sampson SR (1982) Characterization of intrapuhnonary, rapidly adapting receptors... [Pg.94]

Sant Ambrogio G, Widdicombe JG (2001) Reflexes from airway rapidly adapting receptors, Respir Physiol 125 33-45... [Pg.97]

RARs rapidly adapting receptors, ASICs, acid-sensing ion channels, nAChR nicotinic acetylcholine receptor, 5-HT 5- hydroxytryptamine, PGE2 prostaglandin E2, PAR2 protease-activated receptor-2, NKCCl furosemide-sensitive Na+/K+/2CP cotransporter Only agents that directly activate RARs are listed... [Pg.110]

Pack AI, DeLaney RG (1983) Response of pulmonary rapidly adapting receptors during lung inflation. J Appl Physiol 55(3) 955-63... [Pg.126]

Among sensory receptors in airway vagal afferents, rapidly adapting receptors (RARs), A5-nociceptors, and bronchial C-fiber receptors appear to be involved in cough responses. RARs are myelinated A5-fibers and have a low threshold for mechanical stimuli, but are resistant to chemical stimuli. A5-nociceptors and unmyelinated C-fiber receptors have a high threshold for mechanical stimuli, but a low threshold for chemical stimuli such as bradykinin and capsaicin. [Pg.220]

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See also in sourсe #XX -- [ Pg.4 , Pg.5 ]



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