Exercise-induced bronchoconstriction: pathogenesis.

S. D. Anderson; Pascale Kippelen

Exercise-induced bronchoconstriction: pathogenesis.

S. D. Anderson, Pascale Kippelen

Research output: Contribution to journal › Editorial › peer-review

Abstract

There is still active debate on the acute mechanism of exercise-induced bronchoconstriction (EIB). Although it is unlikely that vasoconstriction and hyperemia of the bronchial vasculature are essential events for EIB, it is likely that this vasculature enhances the airway response to dehydration and contributes to the pathogenesis of EIB, particularly in elite athletes. Accumulating evidence suggests that airway smooth muscle (ASM) becomes more sensitive as a result of repeated exposure to bulk plasma in response to airway injury from dehydration. Recent evidence also demonstrates sufficient concentrations of mediators that could affect ASM. Paradoxically, mediator release from mast cells may be enhanced and their contractile effects greater when beta(2)-receptor agonists are taken daily. The effect of drugs that have the potential to reduce microvascular leak and reduce or inhibit release or action of these mediators needs to be investigated in elite athletes.

Original language	English
Pages (from-to)	116-122
Number of pages	6
Journal	Current Allergy and Asthma Reports
Volume	5
Issue number	2
Publication status	Published - 2005

Keywords

CANINE PERIPHERAL AIRWAYS
THERMALLY-INDUCED ASTHMA
CROSS-COUNTRY SKIERS
MAST-CELL
BRONCHIAL HYPERRESPONSIVENESS
INDUCED BRONCHOSPASM
BETA(2)-ADRENOCEPTOR-MEDIATED RESPONSES
NONASTHMATIC SUBJECTS
ISOCAPNIC HYPERPNEA
ALLERGIC RHINITIS

Cite this

@article{dfa971b446cc45ddbb00e1995a146709,

title = "Exercise-induced bronchoconstriction: pathogenesis.",

abstract = "There is still active debate on the acute mechanism of exercise-induced bronchoconstriction (EIB). Although it is unlikely that vasoconstriction and hyperemia of the bronchial vasculature are essential events for EIB, it is likely that this vasculature enhances the airway response to dehydration and contributes to the pathogenesis of EIB, particularly in elite athletes. Accumulating evidence suggests that airway smooth muscle (ASM) becomes more sensitive as a result of repeated exposure to bulk plasma in response to airway injury from dehydration. Recent evidence also demonstrates sufficient concentrations of mediators that could affect ASM. Paradoxically, mediator release from mast cells may be enhanced and their contractile effects greater when beta(2)-receptor agonists are taken daily. The effect of drugs that have the potential to reduce microvascular leak and reduce or inhibit release or action of these mediators needs to be investigated in elite athletes.",

keywords = "CANINE PERIPHERAL AIRWAYS, THERMALLY-INDUCED ASTHMA, CROSS-COUNTRY SKIERS, MAST-CELL, BRONCHIAL HYPERRESPONSIVENESS, INDUCED BRONCHOSPASM, BETA(2)-ADRENOCEPTOR-MEDIATED RESPONSES, NONASTHMATIC SUBJECTS, ISOCAPNIC HYPERPNEA, ALLERGIC RHINITIS",

author = "Anderson, {S. D.} and Pascale Kippelen",

year = "2005",

language = "English",

volume = "5",

pages = "116--122",

journal = "Current Allergy and Asthma Reports",

issn = "1529-7322",

publisher = "Current Medicine Group",

number = "2",

}

TY - JOUR

T1 - Exercise-induced bronchoconstriction: pathogenesis.

AU - Anderson, S. D.

AU - Kippelen, Pascale

PY - 2005

Y1 - 2005

N2 - There is still active debate on the acute mechanism of exercise-induced bronchoconstriction (EIB). Although it is unlikely that vasoconstriction and hyperemia of the bronchial vasculature are essential events for EIB, it is likely that this vasculature enhances the airway response to dehydration and contributes to the pathogenesis of EIB, particularly in elite athletes. Accumulating evidence suggests that airway smooth muscle (ASM) becomes more sensitive as a result of repeated exposure to bulk plasma in response to airway injury from dehydration. Recent evidence also demonstrates sufficient concentrations of mediators that could affect ASM. Paradoxically, mediator release from mast cells may be enhanced and their contractile effects greater when beta(2)-receptor agonists are taken daily. The effect of drugs that have the potential to reduce microvascular leak and reduce or inhibit release or action of these mediators needs to be investigated in elite athletes.

AB - There is still active debate on the acute mechanism of exercise-induced bronchoconstriction (EIB). Although it is unlikely that vasoconstriction and hyperemia of the bronchial vasculature are essential events for EIB, it is likely that this vasculature enhances the airway response to dehydration and contributes to the pathogenesis of EIB, particularly in elite athletes. Accumulating evidence suggests that airway smooth muscle (ASM) becomes more sensitive as a result of repeated exposure to bulk plasma in response to airway injury from dehydration. Recent evidence also demonstrates sufficient concentrations of mediators that could affect ASM. Paradoxically, mediator release from mast cells may be enhanced and their contractile effects greater when beta(2)-receptor agonists are taken daily. The effect of drugs that have the potential to reduce microvascular leak and reduce or inhibit release or action of these mediators needs to be investigated in elite athletes.

KW - CANINE PERIPHERAL AIRWAYS

KW - THERMALLY-INDUCED ASTHMA

KW - CROSS-COUNTRY SKIERS

KW - MAST-CELL

KW - BRONCHIAL HYPERRESPONSIVENESS

KW - INDUCED BRONCHOSPASM

KW - BETA(2)-ADRENOCEPTOR-MEDIATED RESPONSES

KW - NONASTHMATIC SUBJECTS

KW - ISOCAPNIC HYPERPNEA

KW - ALLERGIC RHINITIS

M3 - Editorial

SN - 1529-7322

VL - 5

SP - 116

EP - 122

JO - Current Allergy and Asthma Reports

JF - Current Allergy and Asthma Reports

IS - 2

ER -

Exercise-induced bronchoconstriction: pathogenesis.

Abstract

Keywords

Fingerprint

Cite this