Pulmonary pharmacology & therapeutics
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Pulm Pharmacol Ther · Jan 2005
Clinical TrialReproducibility and validity of a Yan-style portable citric acid cough challenge.
Although many different methods of measuring cough reflex sensitivity have been published, few are simple enough to use outside of a hospital or laboratory environment. The aim of this study was to develop a simple, quick, and portable cough challenge, assess its reproducibility, and compare its results with those measured by an existing established hospital protocol. Twenty-five volunteers performed cough challenges based on an established hospital dosimeter protocol, and, on a separate occasion, by a protocol inhaling citric acid from DeVilbiss 40 hand-held nebulisers (citric acid concentrations of 10-3000 mM). ⋯ The coefficient of repeatability for the hand-held method was 0.40 log mM. Administering citric acid from DeVilbiss 40 hand-held nebulisers offers a rapid, portable, and reproducible cough challenge in healthy volunteers. The results correlate well with an existing Mefar dosimeter challenge, but give two to three times greater cough thresholds.
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Pulm Pharmacol Ther · Jan 2005
Effect of histamine, albuterol and deep inspiration on airway and lung tissue mechanics in cynomolgus monkeys.
Forced oscillation is a technique that has been used to measure airway and lung tissue impedance. To evaluate airway and lung tissue impedance in a colony of cynomolgus monkeys housed at Schering-Plough Research Institute, a forced oscillation technique was used to measure Newtonian resistance (R(N)), tissue damping (G), tissue elastance (H) and lung hysteresivity (eta). Functional residual capacity (FRC) was also measured to correlate the lung impedance data with FRC. ⋯ Aerosolized albuterol (0.003-3mg/ml) produced a concentration-dependent reversal of the increases in R(N), G, H and eta induced by histamine with the greatest reversal seen on R(N). Deep inspiration, performed after the aerosolized albuterol exposure, also reversed the histamine-induced changes in R(N), G, and H with the complete reversal seen on the increase in H. These results demonstrate that significant correlations exist between airway and lung tissue impedance and FRC and that airway and lung tissue mechanics contribute significantly to inherent bronchoconstrictor reactivity and to the bronchodilator response to a beta-adrenergic agonist and deep inspiration in cynomolgus monkeys.