Gianluigi Poli

Modulite® technology: pharmacodynamic and pharmacokinetic implications

In the drive to replace chlorofluorinated hydrocarbons (CFCs) by alternative more environmentally friendly propellants in pressurized metered dose inhalers (pMDIs), Chiesi has developed new inhalers using Modulite technology. The aim was to obtain CFC-free pMDIs which are equivalent, in terms of safety and efficacy, to the previous CFC devices at the same dose. When beclometasone dipropionate (BDP) and budesonide Modulite formulations were compared to the equivalent CFC products there was no significant difference in morning serum cortisol or urinary cortisol excretion, at the maximum recommended daily dose (2000 micrograms or 1600 micrograms respectively). Single dose pharmacokinetic studies in both healthy volunteers and asthmatic patients compared systemic exposure (B17MP levels) for BDP-CFC with BDP Modulite and extrafine BDP-HFA (QVAR). B17MP levels for BDP-CFC and BDP Modulite were comparable, but substantially less than that seen with extrafine BDP-HFA. After 6 weeks of treatment in asthmatic patients, B17MP AUC after inhalation of BDP (1000 micrograms twice-daily) from BDP Modulite was comparable with that obtained after BDP-CFC (Becloforte). Plasma profile of BDP and B17MP were similar after inhalation from BDP Modulite with standard actuator or delivered via a spacer, suggesting that pulmonary delivery of BDP to the lung is similar with both actuators.

Novel functional imaging of changes in small airways of patients treated with extrafine beclomethasone/formoterol.

Background: Inhaled formulations using extrafine particles of long-acting β2-agonists and corticosteroids were developed to optimize asthma treatment. Findings that these combinations reach and treat smaller airways more effectively are predominantly based on general non-specific outcomes with little information on regional characteristics. Objectives: This study aims to assess long-term effects of extrafine beclomethasone/formoterol on small airways of asthmatic patients using novel functional imaging methods. Methods: Twenty-four stable asthma patients were subdivided into three groups (steroid naive, n = 7; partially controlled, n = 6; well controlled, n = 11). Current treatment was switched to a fixed combination of extrafine beclomethasone/formoterol (Foster®; Chiesi Pharmaceuticals, Parma, Italy). Patients underwent lung function evaluation and thorax high-resolution computerized tomography (HRCT) scan. Local airway resistance was obtained from computational fluid dynamics (CFD). Results: After 6 months, the entire population showed improvement in pre-bronchodilation imaging parameters, including small airway volume (p = 0.0007), resistance (p = 0.011), and asthma control score (p = 0.016). Changes in small airway volume correlated with changes in asthma control score (p = 0.004). Forced expiratory volume in 1 s (p = 0.044) and exhaled nitric oxide (p = 0.040) also improved. Functional imaging provided more detail and clinical relevance compared to lung function tests, especially in the well-controlled group where only functional imaging parameters showed significant improvement, while the correlation with asthma control score remained. Conclusions: Extrafine beclomethasone/formoterol results in a significant reduction of small airway obstruction, detectable by functional imaging (HRCT/CFD). Changes in imaging parameters correlated significantly with clinically relevant improvements. This indicates that functional imaging is a useful tool for sensitive assessment of changes in the respiratory system after asthma treatment.

Systemic exposure and implications for lung deposition with an extra-fine hydrofluoroalkane beclometasone dipropionate/formoterol fixed combination.

Background and objectivesFoster™ is a fixed combination of beclometasone dipropionate/formoterol (BDP/F). It is formulated as an extra-fine solution and delivered via a pressurized metered-dose inhaler (pMDI) using a hydrofluoroalkane (HFA) propellant. The aims of this study were to compare the systemic exposure to BDP, to its active metabolite beclometasone-17-monopropionate (B17MP) and to formoterol after administration of BDP/F versus separate administration of a chlorofluorocarbon (CFC) formulation of BDP and formoterol HFA, and to explore a possible relationship between pharmacokinetic and pharmacodynamic findings.MethodsIn this open-label, crossover, placebo-controlled study, 12 healthy male subjects received a single dose of BDP/F 400 µg/24 µg (four inhalations of Foster™ BDP/F 100 µg/6 µg), single doses of BDP CFC 1000 µg (four inhalations of Becotide™ Forte 250 µg) plus formoterol 24 µg (four inhalations of Atimos® 6 µg) via separate MDIs, or placebo. Continuous pharmacokinetic variables for BDP, B17MP, formoterol, cortisol and potassium were evaluated. Cardiovascular effects, peak flow measurements and tolerability were also examined.ResultsExposure to BDP was not significantly different between active treatment arms, but lower systemic exposure to B17MP was observed with the fixed combination than with the separate components (area under the plasma concentration-time curve [AUC] from time zero to infinity [AUC∞] 5280 vs 8120pg · h/mL; p = 0.001). Despite a lower total systemic exposure to B17MP with the fixed combination, B17MP plasma concentrations during the first 30 minutes after administration, indicative of pulmonary absorption, were 86% higher with BDP/F than with the separate components (AUC from 0 to 30 minutes [AUC30 min] 353 vs 190pg · h/mL; p = 0.003). Twenty-four-hour serum cortisol concentrations were significantly higher with BDP/F than with BDP and formoterol administered separately (2.26 vs 1.90 µg · h/mL; p < 0.01). No significant differences in the pharmacokinetic parameters of formoterol and no clinically relevant differences in serum potassium and cardiovascular or spirometric parameters were observed between the treatments. Both active treatments were well tolerated.ConclusionThese pharmacokinetic data show that with a BDP dose from Foster™ that is 2.5 times less than a BDP dose from Becotide™ Forte, pulmonary absorption is 86% higher; however, systemic exposure is 35% lower, resulting in less cortisol suppression for a similar BDP dosage.

Clinical pharmacology study of Bramitob, a tobramycin solution for nebulization, in comparison with Tobi.

AbstractBackground and objectives To compare in vitro characteristics and pharmacokinetics of Bramitob®, a preservative-free tobramycin solution for nebulization, and Tobi® in patients with cystic fibrosis (CF) and Pseudomonas aeruginosa infection. MethodsIn vitro characteristics of Bramitob® and Tobi® were evaluated using Pari TurboBoy™/LC Plus® and the Systam 290 LS™ nebulizers. In the randomized, double-blind, two-way crossover pharmacokinetic study, 11 patients with CF received a single nebulized dose (300mg) of Bramitob® or Tobi®, separated by a 7-day washout period. Plasma and sputum tobramycin concentrations were measured immediately before and over 24 hours after administration. Results Bramitob® and Tobi® performed alike during nebulization. The fine particle fraction was 33–37% and the mass median aerodynamic diameter was <5µm. Nine patients completed the pharmacokinetic study. Tobramycin plasma profiles after administration of Bramitob® or Tobi® were similar, with a peak at 90 and 72 minutes after inhalation of Bramitob® and Tobi®, respectively. The elimination half-life was ∼5 hours for both products. The relative bioavailability of Bramitob® to Tobi® was 1.01, indicating comparable systemic exposure. Peak sputum concentration of tobramycin was 816 ± 681 µg/g for Tobi® and 1289 ± 851 µg/g for Bramitob® and was >400 µg/g (threshold sufficient for an antibacterial effect against P. aeruginosa) in 5 out of 9 patients receiving Tobi® and 8 out of 9 patients receiving Bramitob®. All adverse events were considered mild and judged not related to the study drugs. ConclusionsIn vitro performance of Bramitob® was similar when nebulized with Pari TurboBoy™/LC Plus® and Systam 290 LS™ nebulizers and comparable to that of Tobi®. The systemic bioavailability of tobramycin was similar after administration of either Bramitob® or Tobi®; however, in sputum samples the tobramycin peak concentration was slightly greater after administration of Bramitob® than after Tobi®.

Tolerability of high cumulative doses of the HFA modulite beclomethasone dipropionate/formoterol combination inhaler in asthmatic patients

The corticosteroid beclomethasone dipropionate (BDP) has been formulated with the long acting beta agonist formoterol (BDP/formoterol 100 microg/6 microg, Foster) in a single inhaler using Modulite technology. We have investigated the acute tolerability of high, cumulative doses of BDP/formoterol compared to formoterol alone and placebo. This was a double blind, 3-way cross-over comparison of 10 puffs of BDP/formoterol 100 microg/6 microg or formoterol 6 microg or placebo during maintenance treatment with BDP/formoterol two puffs per day. Pharmacokinetics over 12h during maintenance treatment was measured on day 7. High cumulative doses were then administered on three separated days. Eighteen patients with asthma were recruited (mean FEV(1) 65% predicted). The primary endpoint was serum potassium over the 12h period after high doses. QTc, blood pressure and heart rate over 12h, and plasma lactate and glucose over 3h following dosing were assessed. Formoterol caused a significantly greater decrease in serum potassium than BDP/formoterol or placebo (difference in mean minimum concentrations; 0.11 and -0.15 mmol/l, respectively, p<0.05 for both comparisons). No significant differences in serum potassium parameters were found between BDP/formoterol and placebo. QTc, plasma lactate and vital signs values observed with the combination were not statistically different from those with formoterol alone. For glucose, the mean maximum increase after formoterol treatment was 0.4 mmol/l (p<0.01 compared to placebo), while BDP/formoterol treatment caused a maximum increase of 0.7 mmol/l (p<0.01 compared to formoterol and placebo). The active metabolite of BDP is beclomethasone-17-monopropriate (B17MP), which reached Cmax at 0.25 h, with an elimination half-life of 3.7 h. Formoterol also reached Cmax at 0.25 h, and concentrations were measurable up to 12 h. High doses of BDP/formoterol did not significantly reduce serum potassium, while formoterol alone did to a greater extent. The BDP/formoterol combination was well tolerated, and exhibited a safety profile generally similar to formoterol alone when administered in high doses to stable asthmatic patients.

Effect of AeroChamber Plus™ on the lung and systemic bioavailability of beclometasone dipropionate/formoterol pMDI

AIM To assess the effect of AeroChamber Plus™ on lung deposition and systemic exposure to extra-fine beclometasone dipropionate (BDP)/formoterol (100/6 µg) pMDI (Foster®). The lung deposition of the components of the combination given with the pMDI was also evaluated using the charcoal block technique. METHODS Twelve healthy male volunteers received four inhalations of extra-fine BDP/formoterol (100/6 µg) using (i) pMDI alone, (ii) pMDI and AeroChamber Plus™ and (iii) pMDI and charcoal ingestion. RESULTS Compared with pMDI alone, use of AeroChamber Plus™ increased the peak plasma concentrations (C(max)) of BDP (2822.3 ± 1449.9 vs. 5454.9 ± 3197.1 pg ml(-1)), its active metabolite beclometasone 17-monopropionate (17-BMP) (771.6 ± 288.7 vs. 1138.9 ± 495.6 pg ml(-1)) and formoterol (38.4 ± 17.8 vs. 54.7 ± 20.0 pg ml(-1)). For 17-BMP and formoterol, the AUC(0,30 min), indicative of lung deposition, was increased in the AeroChamber Plus™ group by 41% and 45%, respectively. This increase was mainly observed in subjects with inadequate inhalation technique. However, use of AeroChamber Plus™ did not increase the total systemic exposure to 17-BMP and formoterol. Results after ingestion of charcoal confirmed that AUC(0,30 min) can be taken as an index of lung bioavailability and that more than 30% of the inhaled dose of extra-fine BDP/formoterol 100/6 µg was delivered to the lung using the pMDI alone. CONCLUSIONS The use of AeroChamber Plus™ optimizes the delivery of BDP and formoterol to the lung in subjects with inadequate inhalation technique. The total systemic exposure was not increased, supporting the safety of extra-fine BDP/formoterol pMDI with AeroChamber Plus™.

Rapid effects of extrafine beclomethasone dipropionate/formoterol fixed combination inhaler on airway inflammation and bronchoconstriction in asthma: a randomised controlled trial

BackgroundThe dose-dependent anti-inflammatory effects of a recent fixed combination of extrafine beclomethasone dipropionate/formoterol (BDP/F) were investigated using non-invasive markers of inflammation, exhaled nitric oxide (NO) and adenosine monophosphate (AMP) provocative challenge. The aim was to assess the onset of the anti-inflammatory action of low and high doses and evaluate the suitability of non-invasive assessments to demonstrate dose response.MethodsSteroid naïve adult out-patients with mild asthma, sensitive to AMP with baseline exhaled NO > 25 parts per billion entered a double-blind, placebo-controlled, 3-way, cross-over study. Patients were randomised to low dose (1 actuation) or high dose (4 actuations) extrafine BDP/F 100/6 μg, or placebo administered twice daily on Days 1 and 2 and once in the morning on Day 3 of each period. Exhaled NO was measured pre-dose on Day 1, then 2 and 4 hours post-administration on Day 3. The AMP challenge was performed 4 hours post-administration on Day 3 and forced expiratory volume in 1 second (FEV1, L) was measured from 0 to 4 hours post-dose on Day 1. Endpoints were NO at 2 and 4 hours, AMP challenge at 4 hours after the fifth dose on Day 3 and FEV1 area under the curve from 0 to 4 h post-dose on Day 1. Analysis of covariance was performed for NO and FEV1 and analysis of variance for AMP challenge.ResultsEighteen patients were randomised and completed the study. Exhaled NO was significantly lower for both doses of extrafine BDP/F versus placebo at 2 and 4 hours (high dose LS mean difference: -22.5 ppb, p < 0.0001 and -20.5 ppb, p < 0.0001; low dose: -14.1 ppb, p = 0.0006 and -12.1 ppb, p = 0.0043) with a significant dose response (p = 0.0342 and p = 0.0423). Likewise, AMP challenge revealed statistically significant differences between both doses of extrafine BDP/F and placebo (high dose LS mean difference: 4.8 mg/mL, p < 0.0001; low dose: 3.7 mg/mL, p < 0.0001), and a significant dose response (p = 0.0185). FEV1 was significantly improved versus placebo for both doses (high dose LS mean difference: 0.2 L, p = 0.0001; low dose: 0.2 L p = 0.0001), but without a significant dose response.ConclusionsThe fixed combination inhaler of extrafine BDP/F has early dose-dependent anti-inflammatory effects with a rapid onset of bronchodilatation in mild asthmatic patients.Trial RegistrationClinicalTrials.gov: NCT01343745

Bioavailability and pharmacokinetics of a fixed combination of delapril/indapamide following single and multiple dosing in healthy volunteers

SummaryThe study objective was to obtain detailed information on the bioavailability and pharmacokinetics of the new fixed combination of delapril and indapamide following single and multiple dosing. For this reason, the study was performed in two parts, separated by a medication-free period of at least 7 days. In the single dose part, one tablet, containing 30 mg delapril and 2.5 mg indapamide, was administered to 12 male volunteers; in the multiple dose part, the volunteers received one tablet of the test preparation, once daily over 7 days. Following single and on the last day of the multiple dosing regimen, blood samples were withdrawn and serum concentrations of delapril and its metabolites M1, M2 and M3 and whole blood concentrations of indapamide were quantified by means of HPLC methods. In addition, urine samples were collected following single and multiple dosing for evaluation of the cumulative amount of delapril and its metabolites M1–M3 excreted in urine.For the area under the curve, calculated from time 0 to infinity (AUC(0–∞)) the study revealed, following single dosing, mean values of delapril and its metabolites M1, M2 and M3 of 281, 2178, 739 and 716 h.ng/ml, respectively; for indapamide the mean value was 1597 h.ng/ml. The corresponding mean values found after multiple dose administration were 272, 2071, 857 and 598 h.ng/ml for delapril and its metabolites, respectively and 1536 h.ng/ml for indapamide. Evaluation of the cumulative amount of delapril and its metabolites M1–M3 excreted in urine (Ae) demonstrated mean values following single dosing (observation period 36 h) of 705, 4521, 454 and 4203 μg, respectively; the corresponding values after multiple dose administration (observation period 24 h) of the test preparation were 655, 4679, 469 and 4801 μg, respectively.The most important pharmacokinetic parameters AUC(0−∞) and Ae were statistically compared by analysis of variance (ANOVA) and 90% confidence intervals were calculated.It may be concluded from the results of this study, that the bioavailability and pharmacokinetic parameters of the test preparation after single dosing and after multiple doses correspond well.The undesired side effects observed are known to occur after administration of the test preparation. The occurrence was a little more frequent after multiple dose application in comparison with the single dose administration.

Food effect on the oral bioavailability of Manidipine: single dose, randomized, crossover study in healthy male subjects

SummaryThe effect of food on the oral bioavailability of a manidipine 20 mg tablet was studied after a single administration in 12 male healthy subjects. The clinical trial was conducted as an open, randomised, crossover study. In two different administration sessions, the subjects received a 20 mg manidipine tablet either in the fasting state or after a standardized breakfast. Plasma samples were collected before and at different times after each administration for up to 24 h. The concentrations of manidipine and its pyridine metabolite (M-XIII metabolite) were determined by HPLC with coulometric detection.The tolerability of manidipine was good. Only two cases of mild headache, one with each treatment, were reported.Food significantly improved the absorption, with an increase in AUC from 19.1 to 27.2 ng.h/ml (geometric mean, p<0.01) but did not modify the rate of absorption (tmax unchanged, median = 1.5 h). Peak plasma concentration was also increased (from 6.2 to 7.8 ng/ ml), but the difference was not statistically significant (p=0.18). Other pharmacokinetic parameters (apparent elimination half-life and mean residence time) remained unchanged.The increase in bioavailability of manidipine administered with food is related to its high lipophilicity and may be explained through a solubilization effect produced by food and bile secretions.

Pharmacokinetic profile of a new controlled-release isosorbide-5-mononitrate 60 mg scored tablet (Monoket Multitab).

The influences of food, tablet splitting, and fractional dosing on the pharmacokinetics of a new controlled-release double-scored tablet containing 60 mg isosorbide-5-mononitrate (Monoket Multitab) were investigated in healthy male volunteers. Food interaction was evaluated after single dose administration under fasted conditions and after a standard high-fat breakfast. The effect of tablet splitting was assessed at steady-state, after 5 days of once daily dosing with the tablet taken intact or trisected. The influence of fractional dosing was assessed after 1 and 6 days of daily regimen of 40 mg in the morning (2/3 of a tablet) and 20 mg in the evening (1/3 of a tablet). The pharmacokinetics of isosorbide-5-mononitrate after taking the tablet intact or in three fragments were very similar with a mere 10% increase of maximum plasma concentration (C(max)) for the latter, while the time to peak (T(max)) decreased from 5 to 4 h and areas under the concentration vs. time curves (AUCs) were virtually unchanged. Morning trough concentration reached 53 and 46 ng/ml, respectively. Administration of the intact tablet after a high-fat breakfast increased C(max) by 18% and AUC by 21%, and slightly delayed T(max) from 5 to 6h. During fractional dosing, morning and evening C(max) reached 364 and 315 ng/ml on the first day, and 373 and 300 ng/ml on the 6th day, respectively. The ratio of AUC(0-24 h) on the last day to AUC(infinity) on the first day, was 82.1% (confidence limits 71.7-94.1%) possibly resulting from peripheral volume expansion. The release characteristics of Monoket Multitab are thus moderately influenced by concomitant intake of food and to a very minor extent by tablet breaking. Fractional dosing allows to achieve lower peak and higher morning trough levels, while total exposure is comparable to that during once daily dosing (AUC(0-24 h, s.s.) of 5.55+/-1.78 and 5.71+/-1.08 microg h/ml).