Sayuri Sakamoto

Effects of methacholine induced bronchoconstriction and procaterol induced bronchodilation on cough receptor sensitivity to inhaled capsaicin and tartaric acid.

BACKGROUND: The direct effect of bronchoconstriction on cough receptor sensitivity is unknown, and the antitussive effect of beta 2 adrenergic agonists in man has been controversial. This study was designed to throw light on these questions. METHODS: The threshold of the cough response to inhaled capsaicin, a stimulant acting on C fibre endings, and tartaric acid, a chemostimulant, was measured before and 10 minutes after inhalation of methacholine, which caused a nearly 20% fall in forced expiratory volume in one second (FEV1), in 14 normal subjects (study 1), and also before and 30 minutes after inhalation of procaterol (30 micrograms), placebo, and saline in eight normal subjects (study 2). Progressively increasing concentrations of capsaicin and tartaric acid solutions were inhaled for 15 seconds by mouth tidal breathing at one minute intervals and cough threshold was defined as the lowest concentration of capsaicin and tartaric acid that elicited five or more coughs. RESULTS: In study 1 the geometric mean values of the cough threshold of response to capsaicin and tartaric acid before methacholine callenge, 2.98 (GSE 1.30) micrograms/ml and 46.6 (1.22) mg/ml, were not significantly different from those of the response to methacholine inhalation, 3.45 (1.33) micrograms/ml and 32.9 (1.37) mg/ml. In study 2 the geometric mean value of the cough threshold of response to capsaicin before inhalation of procaterol (4.61 (GSE 1.84) micrograms/ml) was not different from that after inhalation of procaterol (4.61 (GSE 1.84) micrograms/ml), which had significant bronchodilator effects. The cough threshold was not altered by placebo or saline. CONCLUSIONS: These findings suggest that muscarinic receptor stimulation, bronchoconstriction, beta 2 receptor stimulation, or bronchodilation might have no direct effect on the sensitivity of the cough receptors in normal subjects.

Effect of a leukotriene antagonist, ONO-1078, on bronchial hyperresponsiveness in patients with asthma

To evaluate the involvement of sulphidopeptide leukotrienes on bronchial hyperresponsiveness in asthma, we examined the effects of a specific orally active leukotriene antagonist (ONO-1078) on bronchial responsiveness to methacholine in stable asthmatic subjects by a double-blinded, randomized, two-phase crossover study. Eleven asthmatic subjects received ONO-1078 (225 mg twice a day) or placebo. After 1 week administration of ONO-1078 or placebo, the subjects underwent methacholine challenge test. Test drug administrations were then discontinued for 1 week, and the subjects were then crossed over to the alternative treatment regimen. After 1 week of the alternate regimen, the subjects underwent a second methacholine challenge. Mean baseline values of forced vital capacity (FVC) and forced expiratory volume in 1 s (FEV1) and geometric mean value of provocative concentration of methacholine causing a 20% fall in FEV1 (PC20-FEV1) were equal between the first and the second methacholine test. The geometric mean value of PC20-FEV1 after the administration of ONO-1078 was 0.48 (geometric SEM, 1.48) mg ml-1, which was significantly (P < 0.01) greater than the value after the placebo administration (0.30 geometric SEM, 1.41 mg ml-1), but the baseline values of FVC and FEV1 were not altered by ONO-1078. We conclude that sulphidopeptide leukotrienes are significantly involved in the development of bronchial hyperresponsiveness in asthma but the degree of the involvement may be small.

Sex difference in the inhaled tartaric acid cough threshold in non-atopic healthy subjects.

The threshold for cough induced by inhaled tartaric acid was measured in 71 non-atopic healthy volunteers. The cough threshold was lower in women than in men, which may be relevant to previous reports that angiotensin converting enzyme inhibitors induce cough more frequently in women than in men.

Effect of a thromboxane A2 receptor antagonist (AA-2414) on bronchial hyperresponsiveness to methacholine in subjects with asthma

Bronchial hyperresponsiveness (BHR) to various stimuli is one of the major clinical features of bronchial asthma. In this study, the effect of a thromboxane A2 (TXA2) receptor antagonist, AA-2414, on BHR to methacholine was evaluated in 15 patients with asthma. The methacholine inhalation test was performed before and after oral administration of AA-2414 for 4 days (20 or 40 mg/day). The provocative concentration of methacholine producing a 20% fall in FEV1 (PC20) was measured as an index of BHR. There was a significant increase in PC20 (p less than 0.01) from 0.43 (geometric SEM, 1.42) mg/ml to 0.93 (geometric SEM, 1.43) mg/ml after 40 mg/day of AA-2414, whereas baseline values of FVC and FEV1 were not changed by the treatment. Twenty milligrams per day of AA-2414 did not alter the PC20 value nor the parameter of baseline pulmonary functions. These findings might support our hypothesis that the subthreshold concentration of TXA2 in the bronchial tissues, which has no effect on bronchomotor tone per se, may be involved in BHR in asthma. Further studies with more potent and specific TXA2 receptor antagonists are needed to confirm the conclusion.

Effect of inhaled procaterol on cough receptor sensitivity to capsaicin in patients with asthma or chronic bronchitis and in normal subjects.

BACKGROUND--To evaluate the effect of inhaled beta 2 adrenergic agonists on the sensitivity of airway cough receptors, the effect of inhaled procaterol on cough induced by aerosolised capsaicin, a stimulant of C fibres, was studied in patients with asthma or chronic bronchitis and in normal subjects. METHOD--Eleven patients with asthma and 10 with chronic bronchitis and 14 normal subjects participated. Increasing concentrations of capsaicin solution were inhaled for 15 seconds by tidal breathing through the mouth at one minute intervals until five or more coughs were elicited, before and 30 minutes after inhalation of 20 micrograms procaterol or placebo (freon gas alone) through a metered dose inhaler. Cough threshold was defined as the lowest concentration of capsaicin that elicited five or more coughs. To evaluate the bronchodilator effect of procaterol and the bronchoconstrictor effect of inhaled capsaicin, forced expiratory volume in one second (FEV1) was measured before and one minute after a capsaicin provocation test. This test was carried out both before and 30 minutes after treatment with procaterol or placebo. RESULTS--The geometric mean value of cough threshold to capsaicin was significantly increased by procaterol and placebo in both groups of patients but not in the control subjects. The increment in the cough threshold was not significantly different between the treatments with procaterol and placebo in each group. FEV1 was significantly increased by procaterol but not by placebo in all three groups. CONCLUSIONS--Inhaled procaterol has no effect on airway cough receptor sensitivity to capsaicin. The attenuation of the cough sensitivity seen after inhalation of procaterol in patients with asthma and bronchitis may result from tachyphylaxis to capsaicin.

Tachyphylaxis to capsaicin-induced cough and its reversal by indomethacin, in patients with the sinobronchial syndrome.

Cough reflex testing with capsaicin has been used to study the pathophysiology of the cough reflex and the antitussive effects of various drugs. Although the reproducibility of capsaicin-induced cough has been well established in normal subjects, it is not known if prior challenge with capsaicin reduces the subsequent cough response to inhaled capsaicin in patients with the sinobronchial syndrome, a condition characterized by chronic upper and lower airway inflammation. Measurement of the capsaicin cough threshold, defined as the lowest concentration of capsaicin eliciting five or more coughs, was repeated four times at intervals of 15, 30 and 60 min in eleven patients with the SBS and ten normal subjects. The cough thresholds at 15, 30 and 60 min were greater than the initial value in patients with the SBS but not in normal subjects. In addition, we examined the effect of 4 days treatment with indomethacin (100 mg/day) on the cough thresholds measured twice at an interval of 15 min in eight patients with the SBS. Indomehacin increased the initial cough threshold and reduced the increment in the post-15 min cough threshold from the initial value compared with placebo, thus reducing the tachyphylaxis. These results indicate that chronic airway inflammation may be responsible for the decreased response (tachyphylaxis) to repeated inhalation of capsaicin, and suggest that cyclooxygenase products released by the airway inflammation may be involved in tachyphylaxis, cough receptor sensitivity to inhaled capsaicin, or both, in patients with the SBS.

INHIBITORY EFFECT OF INHALED PROCATEROL ON ANAPHYLACTIC BRONCHOCONSTRICTION AND THROMBOXANE A2 PRODUCTION IN GUINEA-PIGS

This study was designed to examine whether an inhaled β2‐agonist, procaterol, inhibits thromboxane A2 (TXA2) production induced by antigen challenge in passively sensitized guinea‐pigs in vivo. Antigen‐induced bronchoconstriction was markedly inhibited by pre‐treatment with procaterol. Inhaled procaterol significantly reduced in a dose‐dependent manner the increment in TXB2 concentration in bronchoalveolar lavage fluid obtained 5 min after antigen challenge. Aerosol administration of procaterol significantly inhibited bronchoconstriction induced by inhaled hislainine. These results suggest that inhalation of procalerol has an inhibitory effect on antigen‐induced TXA2 production as well as a protective effect against bronchoconstriction induced by bronchoactive agents.

Bronchoconstrictive Properties and Potentiating Effect on Bronchial Responsiveness of Inhaled Thromboxane A2 Analogue (STA2) in Guinea Pigs

Effect of subthreshold concentration of inhaled STA2, a thromboxane A2 (TXA2) analogue, on bronchial responsiveness to histamine was investigated in anesthetized and artificially ventilated guinea pigs. Percent increase in pressure of the airway opening (Pao) by aerosol histamine (50, 100 micrograms/ml) was significantly potentiated by subthreshold dose of aerosol STA2 (0.10 micrograms/ml) which was determined by dose-response curve of % increase in Pao by inhaled STA2 (0.033, 0.10, 0.33, 1.0 micrograms/ml). These results demonstrated that thromboxane A2 could contribute to bronchial hyperresponsiveness which is one of the major clinical features of bronchial asthma.

Involvement of arachidonate cyclooxygenase products in bronchial hyperresponsiveness induced by subthreshold concentration of aerosolized thromboxane A2 analogue (STA2) in guinea pigs.

Saito M, Fujimura M, Sakamoto S, Miyake Y, Shintani H, Yasui M, Matsuda T. Involvement of arachidonate cyclooxygenase products in bronchial hyperresponsiveness induced by subthreshold concentration of aerosolized thromboxane A2 analogue (STA2) in guinea pigs.

Comparison of the bronchodilator activities of oxitropium bromide, fenoterol, and their combination in patients with chronic obstructive pulmonary disease and bronchial asthma

The effects of an antimuscarinic agent, oxitropium bromide (200 µg), a beta-2 adrenoceptor agonist, fenoterol (200 µg), and their combination, were compared in ten patients with chronic obstructive pulmonary disease and ten patients with bronchial asthma, in a placebocontrolled, single blind crossover trial. In patients with chronic obstructive pulmonary disease, oxitropium and fenoterol produced a significant and similar degree of bronchodilatation. The duration of the bronchodilator effect was 3 h after oxitropium and 4 h after fenoterol, respectively. The combination of oxitropium and fenoterol produced a significantly greater degree of bronchodilatation than either drug alone. The duration of bronchodilatation in combination was 7 h and was considerably longer than that of each drug alone. In patients with bronchial asthma, oxitropium and fenoterol also caused bronchodilatation. Their combination produced a significantly greater degree of bronchodilatation than when either drug was used. The duration of the bronchodilator effects were 5 h after oxitropium, 4 h after fenoterol and 5 h after the combination. We conclude that the combination of oxitropium and fenoterol causes greater bronchodilatation in patients with chronic obstructive pulmonary disease and bronchial asthma than when compared to each drug alone. In the former, the duration of bronchodilatation is additionally prolonged. These combination effects may be of value in the clinical management of these common respiratory disorders.