The protective efficacy of inhaled, oral and intravenous nedocromil sodium against adenosine-5'-monophosphate-induced bronchoconstriction in asthmatic volunteers

Drivers of absolute systemic bioavailability after oral pulmonary inhalation in humans

There are few studies in humans dealing with the relationship between physico-chemical properties of drugs and their systemic bioavailability after administration via oral inhalation route (Fpulm). Getting further insight in the determinants of Fpulm after oral pulmonary inhalation could be of value for drugs considered for a systemic delivery as a result of poor oral bioavailability, as well as for drugs considered for a local delivery to anticipate their undesirable systemic effects. To better delineate the parameters influencing the systemic delivery after oral pulmonary inhalation in humans, we studied the influence of physico-chemical and permeability properties obtained in silico on the rate and extent of Fpulm in a series of 77 compounds with or without marketing approval for pulmonary delivery, and intended either for local or for systemic delivery. Principal component analysis (PCA) showed mainly that Fpulm was positively correlated with Papp and negatively correlated with %TPSA, without a significant influence of solubility and ionization fraction, and no apparent link with lipophilicity and drug size parameters. As a result of the small sample set, the performance of the different models as predictive of Fpulm were quite average with random forest algorithm displaying the best performance. As a whole, the different models captured between 50 and 60% of the variability with a prediction error of less than 20%. Tmax data suggested a significant positive influence of lipophilicity on absorption rate while charge apparently had no influence. A significant linear relationship between Cmax and dose (R² = "0.79) highlighted that Cmax was primarily dependent on dose and absorption rate and could be used to estimate Cmax in humans for new inhaled drugs.

Therapeutic applications

The current treatments offered to patients with chronic respiratory diseases are being re-evaluated based on the loss of potency during long-term treatments or because they only provide significant clinical benefits to a subset of the patient population. For instance, glucocorticoids are considered the most effective anti-inflammatory therapies for chronic inflammatory and immune diseases, such as asthma. But they are relatively ineffective in asthmatic smokers, and patients with chronic obstructive pulmonary disease (COPD) or cystic fibrosis (CF). As such, the pharmaceutical industry is exploring new therapeutic approaches to address all major respiratory diseases. The previous chapters demonstrated the widespread influence of purinergic signaling on all pulmonary functions and defense mechanisms. In Chap. 8, we described animal studies which highlighted the critical role of aberrant purinergic activities in the development and maintenance of chronic airway diseases. This last chapter covers all clinical and pharmaceutical applications currently developed based on purinergic receptor agonists and antagonists. We use the information acquired in the previous chapters on purinergic signaling and lung functions to scrutinize the preclinical and clinical data, and to realign the efforts of the pharmaceutical industry.

Adenosine receptors and asthma

The accumulation of evidence implicating a role for adenosine in the pathogenesis of asthma has led to investigations into all adenosine receptor subtypes as potential therapeutic targets for the treatment of asthma. Selective A(1) receptor antagonists are currently in preclinical development since adenosine has been shown experimentally to mediate various features of asthma through this receptor such as bronchoconstriction, mucus secretion and inflammation. The A(2A) receptor is expressed on most inflammatory cells implicated in asthma, and as A(2A) stimulation activates adenylate cyclase and consequently elevates cAMP, selective A(2A) receptor agonists have now reached clinical development. However, initial reports concerning their efficacy are inconclusive. A(2B) receptor antagonists are also under investigation based on the rationale that inhibiting the effects of adenosine on mast cells would be beneficial, in addition to other reported pro-inflammatory effects mediated by the A(2B) receptor on cells such as airway smooth muscle, epithelial cells and fibroblasts. Whilst the effects in pre-clinical models are promising, their efficacy in the clinical setting has also yet to be reported. Finally, adenosine A(3) receptor stimulation has been demonstrated to mediate inhibitory effects on eosinophils since it also elevates cAMP. However, some experimental reports suggest that A(3) antagonists mediate anti-inflammatory effects, thus the rationale for A(3) receptor ligands as therapeutic agents remains to be determined. In conclusion, establishing the precise role of adenosine in the pathogenesis of asthma and developing appropriate subtype selective agonists/antagonists represents an exciting opportunity for the development of novel therapeutics for the treatment of asthma.

The Quintiles Prize Lecture 2004. The identification of the adenosine A2B receptor as a novel therapeutic target in asthma

Adenosine is a powerful bronchoconstrictor of asthmatic, but not normal, airways. In vitro studies on isolated human mast cells and basophils revealed that adenosine and selective analogues augmented inflammatory mediator release from mast cells by stimulating A(2) receptors. Pharmacological blockade of mast cell mediator release in vivo also attenuated adenosine-induced bronchoconstriction, as did theophylline, by adenosine A(2) receptor antagonism. Further in vitro studies revealed that the asthmatic response to adenosine is likely to be mediated via the A(2B) subtype which is selectively antagonised by enprofylline. Studies in animal models, especially mice, have shown a close synergistic interaction between adenosine, Th2 and airway remodelling responses. The recent description of A(2B) receptors on human airway smooth muscle cells that mediate cytokine and chemokine release and induce differentiation of fibroblasts into myofibroblasts strengthens the view that adenosine maybe more than an inflammatory mediator in asthma but also participates in airway wall remodelling in this disease. These data have provided a firm basis for developing adenosine A(2B) receptor antagonists as a new therapeutic approach to this disease.

Premenstrual asthma: epidemiology, pathogenesis and treatment

The exacerbation of asthma in the premenstrual period has long been of interest. Premenstrual asthma has been estimated to affect up to 40% of females with asthma, although the exact prevalence of this phenomenon is unclear as studies have involved small numbers in hospital clinics. Large-scale community-based studies are required to estimate its true prevalence. Researchers are slowly piecing together clues as to the aetiology and pathogenesis of the disorder. Female sex-steroid hormones play an important role but the exact mechanism is still unknown. Recent evidence suggests that increased airway hyperresponsiveness, an indicator of underlying airway inflammation, during the luteal phase of the menstrual cycle may account for premenstrual exacerbations. In addition, there is now evidence of impaired or altered beta2-adrenoceptor function and regulation in females with asthma, which may have a part to play. Accurate diagnosis is dependent on a detailed history and the demonstration of premenstrual dip in peak expiratory flow. Exacerbations in the majority of women will respond to the usual treatment of bronchial asthma. However, a few women will experience significant morbidity or treatment-related adverse effects. Case reports suggest that the combined oral contraceptive pill or gonadotrophin-releasing hormone analogues may be effective in these patients. This requires substantiation by randomised controlled trials.

Pharmacokinetics of andolast after administration of single escalating doses by inhalation in mild asthmatic patients

The pharmacokinetics of andolast, a new tetrazolyl-benzamido derivative with antiallergic, antiinflammatory, mucosal protective and antisecretive activities, have been investigated in patients suffering from mild asthma (FEV(1) > or =70% of predicted) in whom obstruction was reversible (FEV(1) increase > or =15% of initial) after the administration of 0.2 mg of salbutamol by inhalation. Twelve out-patients (seven males and five females) were enrolled in the present study and were treated with a single dose of andolast of 2, 4 and 8 mg by inhalation using the MIAT Monohaler device according to a randomised crossover design. Plasma samples were collected before drug administration and up to 540 min after dosing. Andolast plasma concentrations were determined using a validated LC-MS/MS method with a limit of quantitation of 0.2 ng ml(-1). Pharmacokinetic analysis was carried out using standard non-compartmental methods. In addition, andolast safety and tolerability were evaluated by performing standard laboratory tests, by recording vital signs and ECGs and by monitoring the occurrence of adverse events throughout the study period. Andolast was absorbed after inhalation and was available to the systemic circulation. The mean peak plasma concentrations were 6.3, 10.9 and 30.5 ng ml(-1) at the three doses, respectively, and occurred at 30, 52.5 and 30 min (median t(max)). The mean AUC(t) values were 1852, 2889 and 7677 ng min ml(-1). The apparent plasma clearance (CL/F) and volume of distribution (V(z)/F) were, respectively, 1168 ml min(-1) and 430 l at the dose of 2 mg, 1143 ml min(-1) and 468 l at the dose of 4 mg, and 1141 ml min(-1) and 486 l at the dose of 8 mg. The apparent elimination half-life averaged 4.5, 5.0 and 4.6 h at the three doses, respectively. Even though the small number of subjects participating in the present study reduced the power of the statistical test, there was no statistically significant evidence of non-proportionality for all the andolast pharmacokinetic parameters calculated at the three doses. Thus, the data obtained as a whole suggest that andolast pharmacokinetics are dose-independent in the dose range investigated. Finally, the safety and tolerabilty of the drug administered to mild asthmatic patients was good up to the maximum investigated dose of 8 mg.

Loss of normal cyclical beta 2 adrenoceptor regulation and increased premenstrual responsiveness to adenosine monophosphate in stable female asthmatic patients

BACKGROUND

A study was undertaken to investigate the influence of the menstrual cycle on airway responsiveness and beta 2 adrenoceptor function in female asthmatic patients. It has previously been shown that normal women exhibit cyclical changes in beta 2 adrenoceptor function with an increase in beta 2 adrenoceptor density in the luteal phase during the premenstrual period.

METHODS

Fifteen women with stable, well controlled asthma (mean forced expiratory volume in one second (FEV1) 2.971 (93.8% predicted)) were evaluated. Measurements were made at the follicular phase (days 1-6) and the luteal phase (days 21-24) of the menstrual cycle. Airway responsiveness was assessed using adenosine 5'-monophosphate (AMP) and expressed as PC20 AMP. Beta 2 adrenoceptor function was evaluated by measuring lymphocyte beta 2 adrenoceptor parameters and constructing dose-response curves to salbutamol (100-1600 micrograms). The levels of female sex hormones were also measured at both phases of the cycle.

RESULTS

There were significant increases in serum levels of both oestradiol (2.2-fold, p < 0.001) and progesterone (7.2-fold, p < 0.05) between the follicular and luteal phases. Geometric mean PC20 AMP was 19.0 mg/ml and 7.6 mg/ml during the follicular and luteal phases, respectively (p < 0.05), a 2.51-fold difference (95% CI 1.19 to 5.30) amounting to 1.33 doubling doses of AMP. There was no change in lymphocyte beta 2 adrenoceptor parameters or in airway beta 2 adrenoceptor responses to salbutamol between the two phases.

CONCLUSIONS

Despite an appropriate rise in female sex hormones during the luteal period, beta 2 adrenoceptor regulation in female asthmatic subjects shows a loss of the normal cyclical pattern. In addition, there were cyclical changes in airway responsiveness to AMP which was highest during the premenstrual period. Thus, drugs such as theophylline which block adenosine receptors warrant investigation in premenstrual asthma.

The pulmonary deposition of two aerosol preparations of nedocromil sodium delivered by MDI assessed by single photon emission computed tomography

The pulmonary deposition and pharmacokinetics of fine and coarse radioactive aerosols of nedocromil sodium, of mass median aerodynamic diameters 16 microns and 24 microns respectively, delivered by metered dose inhaler (MDI) have been investigated. The corresponding geometric standard deviations of the particle size distributions were 5.32 and 3.93. Pulmonary deposition was assessed by both planar radionuclide scintigraphy and multi-modality three dimensional imaging using single photon emission computed tomography (SPECT) and x-ray computed tomography (CT). The three dimensional data were analysed by transformation to a hemispherical shape based on the fractional radial distance of each point in the lung from the centre to the corresponding extrapolated point on the periphery. This enabled parameters on the variation of both concentration of deposition and total amount deposited with penetration distance to be calculated. For both planar and SPECT data the central to peripheral concentration ratio (C/P ratio) was calculated. The three dimensional C/P ratio showed a median value (3.21) which was significantly higher than for the planar imaging (2.03) (p < 0.001). The parameter used to express the variation of total amount deposited was the median dose position. This showed that for both aerosols 50% of the dose was deposited at sites with a percentage central to peripheral distance of greater than 68%. There was a trend for total percentage of the fine aerosol in the lungs to be higher than for the coarse and for its deposition to be more peripheral. In addition the mean concentrations in blood were measured to be greater for the fine aerosol. However these differences were relatively small and none were individually statistically significant. The technique of combined SPECT and CT imaging was shown to be valuable in obtaining more accurate information on pulmonary distribution of inhaled aerosol deposition. The merits, limitations and potential applications of the technique are discussed.

Nedocromil sodium. An updated review of its pharmacological properties and therapeutic efficacy in asthma

Nedocromil sodium, the disodium salt of a pyranoquinoline dicarboxylic acid, has anti-inflammatory properties in vitro, in animal models of asthma, and in humans, as evidenced by inhibition of inflammatory cell activation and mediator release, early and late allergen-induced bronchoconstriction and airway hyperresponsiveness. Recent therapeutic trials confirm the safety and efficacy of inhaled nedocromil sodium as adjunctive therapy in adult patients whose asthma is not adequately controlled by beta-agonists alone. Nedocromil sodium has also been shown to improve symptoms when added to existing treatment with methylxanthines and corticosteroids. Some studies show nedocromil sodium to be successful replacement therapy for methylxanthines, in addition to enabling a modest reduction in inhaled corticosteroids in some patients. Thus, nedocromil sodium may be suitable in patients with asthma as an adjunct to existing therapy, as an alternative to regularly administered oral and inhaled beta-agonists and oral methyl-xanthines, and potentially, to low dose inhaled corticosteroids as maintenance therapy in patients with mild to moderate asthma being considered for corticosteroid therapy.