Add to ORKGThe protective properties of common volatile agents against generalized lung constriction have previously been addressed only via estimations of parameters that combine airway and tissue mechanics. Their effectiveness in preventing airway constriction have not been compared systematically. Therefore, the authors investigated the abilities of halothane, isoflurane, sevoflurane, and desflurane to provide protection against airway constriction induced by methacholine
Ventilator-induced lung injury aggravates the existing lung injury. This study investigated the effe...
Volatile anesthetics are potent bronchodilators, but the site of action for the dilation is unclear....
294–297, 1999.—To determine whether methacholine causes vagally mediated reflex constriction of airw...
The protective properties of common volatile agents against generalized lung constriction have previ...
The potential of desflurane to alter respiratory mechanics in the presence of bronchial hyperrespons...
Background. Although volatile anaesthetics afford protection against bronchospasm, their potential t...
Volatile inhaled anesthetics exert a differential protective effect against bronchospasm development...
To determine the predominant site of action of methacholine (MCh) on lung mechanics, two groups of o...
1323, 1987.-We measured the changes in upper and lower airway resistance after inhalation of aerosol...
Efficacy Of beta(2)-agonists (B2), anticholinergics, corticosteroids, anti-inflammatory drugs or ant...
The ability of inotropic agents to alter airway reactivity and lung tissue mechanics has not been co...
It is generally accepted that methacholine (MCh) acts predominantly on the central airways and hista...
The ability of inotropic agents to alter airway reactivity and lung tissue mechanics has not been co...
The data of a corresponding animal experiment demonstrates that nebulized methacholine (MCh) induced...
The present study has established a method for obtaining low-frequency forced oscillation measuremen...
Ventilator-induced lung injury aggravates the existing lung injury. This study investigated the effe...
Volatile anesthetics are potent bronchodilators, but the site of action for the dilation is unclear....
294–297, 1999.—To determine whether methacholine causes vagally mediated reflex constriction of airw...
The protective properties of common volatile agents against generalized lung constriction have previ...
The potential of desflurane to alter respiratory mechanics in the presence of bronchial hyperrespons...
Background. Although volatile anaesthetics afford protection against bronchospasm, their potential t...
Volatile inhaled anesthetics exert a differential protective effect against bronchospasm development...
To determine the predominant site of action of methacholine (MCh) on lung mechanics, two groups of o...
1323, 1987.-We measured the changes in upper and lower airway resistance after inhalation of aerosol...
Efficacy Of beta(2)-agonists (B2), anticholinergics, corticosteroids, anti-inflammatory drugs or ant...
The ability of inotropic agents to alter airway reactivity and lung tissue mechanics has not been co...
It is generally accepted that methacholine (MCh) acts predominantly on the central airways and hista...
The ability of inotropic agents to alter airway reactivity and lung tissue mechanics has not been co...
The data of a corresponding animal experiment demonstrates that nebulized methacholine (MCh) induced...
The present study has established a method for obtaining low-frequency forced oscillation measuremen...
Ventilator-induced lung injury aggravates the existing lung injury. This study investigated the effe...
Volatile anesthetics are potent bronchodilators, but the site of action for the dilation is unclear....
294–297, 1999.—To determine whether methacholine causes vagally mediated reflex constriction of airw...