R Péčová scite author profile

Gastro-oesophageal reflux disease (GORD) is one of the most common causes of chronic cough; however, the mechanisms by which GOR initiates coughing are incompletely understood. We address the hypothesis that acidification of oesophagus acutely increases the cough reflex sensitivity in patients with GORD and chronic cough. Nine patients with GORD with chronic cough and 16 patients with GORD without cough were recruited. In a randomized double blind study, saline and acid (HCl, 0.1 mol L(-1)) were separately infused into oesophagus via naso-oesophageal catheter. Cough reflex sensitivity to inhaled capsaicin was determined immediately after completion of each infusion. Infusion of acid into oesophagus increased capsaicin cough reflex sensitivity in patients with GORD and chronic cough. In contrast, acid had no effect on the cough sensitivity in patients with GORD without cough. In a separate study, acid infusion into oesophagus did not affect the cough sensitivity in 18 healthy subjects. We conclude that acid in the oesophagus acutely increases the cough reflex sensitivity to capsaicin in patients with GORD and chronic cough. This phenomenon may contribute to the pathogenesis of cough due to GORD.

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Mechanisms of the cough associated with rhinosinusitis

Tatár

Plevková

Brozmanová

et al. 2009

Pulmonary Pharmacology & Therapeutics

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The diseases of the nose and paranasal sinuses (rhinosinusitis) often in combination with asthma and gastroesophageal reflux are common causes of chronic cough in patients with normal chest radiograph. The relationships between rhinosinusitis and cough are incompletely understood. We investigated modulation of the cough reflex by the inputs from the nose. We demonstrate that the cough reflex is sensitized by the intranasal administration of sensory nerve activators in animal models and in humans. Cough reflex is also sensitized in the guinea pig model of allergic nasal inflammation and in patients with allergic rhinitis. In patients with allergic rhinitis the cough sensitization is augmented during the allergen season. We conclude that the cough reflex can be sensitized from the nose. Our data indicate that this sensitization is mediated by nasal sensory nerves. We speculate that by inducing the cough reflex sensitization rhinosinusitis contributes to chronic cough. If combined with environmental or endogenous cough triggers, the cough reflex sensitization is predicted to cause excessive coughing. The potential endogenous cough triggers may be associated with rhinosinusitis (postnasal drip, aspiration of nasal secrets) or secondary to a coexistent disease such as asthma or gastroesophageal reflux.

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The effects of nasal histamine challenge on cough reflex in healthy volunteers

Plevková

Brozmanová

Péčová

et al. 2006

Pulmonary Pharmacology & Therapeutics

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Cough in Allergic Rhinitis

Péčová¹,

Tatár²

2012

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Allergic Rhinitis 82 study and to define them separately quite difficult. By gross dividing, however, these physiological and morphological attributes can be used to identify at least three broad classes of afferent nerve fibers: rapidly adapting mechanoreceptors (RARs), slowly adapting mechanoreceptors (SARs) and unmyelinated C-fibers (C-fibers) (Mazzone et al., 2003). 2.1.1 Rapidly adapting receptors (RARs) While the anatomical arrangement of RARs termination is unknown, functional studies suggest that these receptors terminate within or beneath the epithelium and are localized to both intra-and extrapulmonary airways (Bergren & Sampson, 1982; Riccio et al., 1996c, Ho et al., 2001). RARs, as its name implies, is differentiated from the other airway afferent nerves by their rapid (1-2sec) adaptation to sustained lung inflations (

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Upper Airway Cough Syndrome in Pathogenesis of Chronic Cough

Lucanska¹,

Hajtman²,

Calkovský³

et al. 2020

Physiol Res

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Cough is one of the most important defensive reflexes. However, extensive non- productive cough is a harmful mechanism leading to the damage of human airways. Cough is initiated by activation of vagal afferents in the airways. The site of their convergence is particularly the nucleus of the solitary tract (nTS). The second-order neurons terminate in the pons, medulla and spinal cord and there is also the cortical and subcortical control of coughing. Upper airway cough syndrome (UACS) – previously postnasal drip syndrome - is one of the most common causes of chronic cough together with asthma and gastroesophageal reflux. The main mechanisms leading to cough in patients with nasal and sinus diseases are postnasal drip, direct irritation of nasal mucosa, inflammation in the lower airways, upper airway inflammation and the cough reflex sensitization. The cough demonstrated by UACS patients is probably due to hypersensitivity of the upper airways sensory nerve or lower airways sensory nerve, or a combination of both. Further studies are needed to clarify this mechanism.

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R Péčová

Acidification of the oesophagus acutely increases the cough sensitivity in patients with gastro‐oesophageal reflux and chronic cough

Mechanisms of the cough associated with rhinosinusitis

The effects of nasal histamine challenge on cough reflex in healthy volunteers

Cough in Allergic Rhinitis

Upper Airway Cough Syndrome in Pathogenesis of Chronic Cough

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