Inspiratory flow rates and volumes with the Aerolizer dry powder inhaler in asthmatic children and adults

OBJECTIVE: To assess the peak inspiratory flow rate (PIFR) and forced inspiratory vital capacity (FIVC) through the formoterol (Foradil*) Aerolizer* in patients with mild, moderate and severe asthma. RESEARCH DESIGN AND METHODS: PIFR and FIVC were assessed in 33 adults and 32 children using a spirometer alone (baseline), a spirometer with an adaptor, and a spirometer with an adaptor and the Aerolizer inhaler (placebo loaded). RESULTS: Of adult patients using the Aerolizer inhaler, 73% had PIFR values of >100 l/min and 91% had values of >60 l/min. PIFR in adults was reduced from a mean baseline of 283 l/min to 118 l/min through the loaded Aerolizer inhaler. Similarly, 75% of children using the Aerolizer inhaler had PIFR values >80 l/min and 91% had values of > 60 l/min. The mean PIFR in children was reduced from a baseline of 154 l/min to 100 l/min through the loaded Aerolizer inhaler. Only small mean decreases from baseline were observed in FIVC through the loaded Aerolizer inhaler: 8.4% in adults and 3.8% in children. FIVC values of > 2.0 litre were achieved in 82% of adults, and 81% of children achieved FIVC values of >1.5 litre. CONCLUSIONS: This study, albeit in a relatively small patient population, suggests that most children and adults with asthma can generate PIFRs of > 60 l/min and FIVCs of > 1.5 litre through the Aerolizer inhaler regardless of their disease severity. Such findings compare extremely favourably with other dry powder inhalers.     

Peak inspiratory flow rates generated through the Novolizer and the Turbuhaler dry powder inhaler devices by children with stable asthma.

We compared the peak inspiratory flows (PIF) generated through a novel dry powder inhaler device, the Novolizer (PIF-N), and the Turbuhaler (PIF-T). Forty-six pediatric patients with stable bronchial asthma were randomized in an open-label, multicenter, crossover trial. No drug was administered during the inhalation maneuvers that were spaced by 10 min. There was neither a carryover nor a sequence effect. The patients were characterized by mean age of 8.5 years, mean FEV(1) of 1.79 L, and mean PIF without any device (baseline, PIF-B) of 185 L/min. Through the devices mean PIF-N of 94 L/min and mean PIF-T of 69 L/min were achieved, calculated from the maxima of three inhalations. This resulted in p < 0.0001 for the difference. The median PIFN/PIF-T ratio was estimated as 1.39. Each child achieved a higher PIF-N than PIF-T and was able to release the feedback mechanisms of the Novolizer indicating sufficient inhalation performance. We conclude that the PIF through the Novolizer is higher than the PIF through the Turbuhaler in stable asthmatic children. The flow rates achieved through the Novolizer allow for sufficient lung deposition even in children as young as 6 years.     

Improvement of asthma therapy by a novel budesonide multidose dry powder inhaler

The objective of the present post-marketing surveillance (PMS) was the evaluation of efficacy, tolerability and acceptance of the novel budesonide (CAS 51333-22-3) multidose dry powder inhaler (MDPI) Novopulmon 200 Novolizer. A total of 3,057 patients suffering from allergic, non-allergic or mixed bronchial asthma were included in the PMS. The study medication was administered by inhalation at a median dosage of 2 x 200 micrograms budesonide/day. In order to evaluate the efficacy of the novel budesonide MDPI, pulmonary functions (peak expiratory flow rate (PEFR) and FEV1) were measured at the start of the treatment and after 4 weeks of treatment. Severity of the following symptoms was evaluated on a four-score scale: cough, wheezing, diurnal dyspnea, nocturnal dyspnea and dyspnea on physical effort. Furthermore, the patients' satisfaction in dealing with the control mechanisms (optical, acoustic, sensory, dose counter, overdose prevention) of this innovative MDPI was assessed. Patients who already had used another inhalation system assessed the control mechanisms of the novel budesonide MDPI in comparison with their previous inhalation system (e.g. fluticasone premetered dose MDPI, non-refillable budesonide MDPI). The patients' compliance and any improvement of compliance by the control mechanisms according to physicians' assessments were evaluated. The novel budesonide MDPI was shown to lead to a decrease in the severity of symptoms. The median total symptom score (0 = no symptoms, 15 = all symptoms severe) decreased from 8 before therapy to 2 after therapy. Pulmonary function measurements supported a relief of the patients' symptoms: The median PEFR increased from 5 l/s before therapy to 6.3 l/s at the end of therapy, with a median individual increase of 1 l/s. The median FEV1 increased from 2250 ml before therapy to 2700 ml at the end of therapy, with a median individual increase of 310 ml. The majority of patients were satisfied with the control mechanisms. 97% of the patients were satisfied with the optical control mechanism, 94% with the acoustic, 78% with the sensory mechanism, 92% with the dose counter and 81% with the overdose prevention. Compliance was assessed by the physicians to be good in 84% of the patients, to be satisfactory in 14% and to be not satisfactory in 2%. An improvement in compliance by the control mechanisms of the inhaler was observed in 80% of the patients. 97% of the patients were satisfied with the control mechanisms, the optical and acoustic mechanisms were confirmed as being the most important ones. The vast majority of patients assessed the control mechanisms of the novel MDPI to be better or much better than those of a previously used inhaler (e.g. 41.2% and 52.1%, respectively, of patients who had previously used a non-refillable budesonide MDPI; 38.7% and 44.7%, respectively, of patients who had previously used a fluticasone premetered dose MDPI). Overall, the novel budesonide MDPI was shown to be efficient in the relief of asthma symptoms and improvement of lung function. The MDPI's control mechanisms were shown to be well accepted by the patients and considered by the physicians as an important contributor to an improvement of patient compliance.     

Improvement of asthma therapy by a novel formoterol multidose dry powder inhaler

The objective of this post-marketing surveillance (PMS) was the evaluation of efficacy, tolerability, and acceptance of the advanced formoterol (CAS 73573-87-2) multidose dry powder inhaler (MDPI) Formatris 6 microg/12 microg Novolizer (FN) in asthmatic patients (n = 5219) in a real-life setting. A total of 2727 patients (52%) received concomitant anti-inflammatory treatment exclusively via a budesonide Novolizer (BN). Efficacy of the FN was assessed by measurement of peak expiratory flow (PEF) and forced expiratory volume in one second (FEV1) before and after 4 weeks of therapy. The severity of cough, wheezing, diurnal dyspnea, nocturnal dyspnea and dyspnea on physical effort were assessed on a four-point scale, and a severity sum score was calculated. The patients' satisfaction with the multiple feedback mechanisms, handling and safety of the FN was also assessed. The physicians judged the patient compliance and any improved inhalation reassurance due to FN control mechanisms in comparison with other inhalation systems. FN use (n = 2727) was associated with improved lung function. After 4 weeks, PEF increased by 26% (from 270 L/min to 340 L/min) and the median FEV1 increased by 24% (from 2.1 L to 2.6 L). The median severity sum score decreased from 8.0 before therapy to 3.0 after therapy. Most patients assessed the control mechanisms and safety functions of the FN as 'very good' or 'good'. 96% of patients were satisfied with the optical control mechanism, 92% with the acoustic mechanism, 70% with the taste feedback, 89% with the dose counter and 76% with the overdose prevention. The majority of patients (95%) confirmed that the multiple feedback mechanisms reassured correct drug intake, with 83% rating the FN as 'much better' or 'better' than previously used inhalers. The physicians confirmed that in contrast to previously used inhalers the FN ensured correct inhalation in 87% of all patients. The physicians were satisfied with the patients' compliance in 95% of cases. Finally, the majority of patients (98%) were highly satisfied with the correct inhalation feedback mechanism. 94% of patients intended to continue FN therapy beyond the study. Overall, FN reduced the patients' asthma symptoms and improved lung function, possibly due to improved compliance with therapy. The correct inhalation feedback mechanisms and safety functions of the device were assessed very positively by patients and were considered by the physicians to be important in improving inhalation reassurance and patient compliance.     

The development of a novel dry powder inhaler

A novel active and multi-dose dry powder inhaler (DPI) was developed and evaluated to deliver a small quantity (100-500 μg) of pure drug without any excipient. This dry powder inhaler utilized two compressed air flows to dispense and deliver drug powder: the primary flow aerosolizes the drug powder from its pocket and the secondary flow further disperses the aerosol. In vitro tests by Anderson Cascade Impactor (ACI) indicated that the fine particle fraction (FPF) (<4.7 μm) of drug delivery could reach over a range of 50-70% (w/w). Emitted dose tests showed that delivery efficiency was above 85% and its relative standard deviation (RSD) was under 10%. Confocal microscopy was used to confirm the deposition of fluorescently labeled spray-dried powder in rabbit lungs. Also, a chromatographic method was used to quantify drug deposition. The results of animal tests showed that 57% of aerosol deposited in the rabbit lung and 24% deposited in its trachea. All the results implied that this novel active dry powder inhaler could efficiently deliver a small quantity of fine drug particles into the lung with quite high fine particle fraction.     

Formoterol delivered via a new multi-dose dry powder inhaler (Certihaler) is as effective and well tolerated as the formoterol dry powder inhaler (Aerolizer) in children with persistent asthma.

The Certihaler is a new multi-dose dry powder inhaler for the delivery of formoterol (Foradil), a long-acting beta(2)-agonist. This dose-ranging study compared the efficacy and safety of formoterol 5, 10, 15 and 30 microg and placebo administered via the Certihaler or formoterol 12 microg via a single-dose dry powder inhaler (Aerolizer) in children with persistent asthma. This was a randomized, placebo-controlled, double-blind, double-dummy, incomplete block crossover, dose-finding and pharmacokinetic study. Children (5-12 years, n = 77) received four of the active treatments twice weekly (BID) for 1 week separated by 1-week single-blind washouts. The primary efficacy variable was 12-h AUC of FEV(1) after 1 week's treatment. Secondary variables included serial 12-h FEV(1). A subset of patients (n = 37) participated in a pharmacokinetic analysis. All formoterol doses resulted in significant increases in 12-h AUC of FEV(1) compared with placebo, and there was no difference between active treatments. The onset of action of formoterol was <3 min for all active treatments. Doses of formoterol > or =10 microg via the Certihaler increased FEV(1) significantly for up to 12 h compared with placebo. The 5 microcg dose via the Certihaler and 12 microg dose via the Aerolizer had a significant effect up to 8 and 7 h post-dose, respectively. Urinary excretion of formoterol via the Certihaler increased in a dose-proportional manner. All formoterol doses were well tolerated, but some patients experienced tremor at the 15 and 30 microg doses. Despite the lack of significant differences between the active doses in the overall bronchodilation, formoterol 10 microg BID via the Certihaler was the dose that provided the best balance between efficacy and tolerability: its duration of action was sustained over 12 h, contrary to that the lower dose (5 microg BID), whereas its tolerability, especially with regard to tremor, was better than the higher doses (15 and 30 microg BID). Overall, Certihaler 10 microg BID was not significantly different from formoterol 12 microg BID via Aerolizer.     

A dry powder inhaler with reduced mouth-throat deposition.

A novel, compact, and highly efficient dry powder inhaler (DPI) with low mouth-throat deposition is described. The performance of this DPI was evaluated by measuring both (1) the total aerosol deposition in and distal to an idealized mouth-throat cast and (2) the fine particle fraction (FPF) using a standard Mark II Anderson impactor. Ultraviolet (UV) spectroscopy techniques were used in the aerosol deposition measurements. Two inhalation aerosol powders, namely budesonide (extracted from a Pulmicort/Turbuhaler multi-dose device, 200 microg/dose) and ciprofloxacin + lipid + lactose (in-house), were dispersed by the DPI at a steady inhalation flow rate of 60 L/min. The newly developed DPI had a total aerosol delivery distal to the mouth-throat cast of 50.5% +/- 3.04% and 69.7% +/- 1.5% for the budesonide and ciprofloxacin + lipid + lactose aerosols, respectively. This is a significant improvement over the Turbuhaler original device delivery of 34.5% +/- 5.2%, particularly considering that in vitro mouth-throat deposition dropped from 27.5% +/- 5.4% with the budesonide Turbuhaler to 11.0% +/- 3.5% with the present inhaler. The different lung deliveries from the same inhaler for the two formulations above also confirm that the overall performance of an inhaler is optimizable via powder formulations.     

Handling of and preferences for available dry powder inhaler systems by patients with asthma and COPD

The correct handling of dry powder inhalers (DPIs) is crucial for efficient therapy, and acceptance of the device can improve compliance. The handling of seven different dry powder inhalers was studied in 72 patients with asthma and chronic obstructive pulmonary disease (COPD). The aim of this study was to identify possible handling errors and investigate patient preferences. Patients inhaled twice with each inhaler; first after reading the device leaflet, and second after device handling was explained by the investigator. The investigator identified handling errors and critical handling errors, which might lead to insufficient or no dose delivery. Afterward, the patients selected their preferred device and judged different aspects of device handling. The lowest number of patients with critical handling errors was observed for the Diskus/Accuhaler, the highest numbers for the Jethaler and the Easyhaler (% of patients during first/second use): Diskus/Accuhaler 25%/13.9% (group A) and 38.9%/8.3% (group B); Clickhaler 50.0%/52.8%, Cyclohaler 58.3%/13.9%, Jethaler 66.7%/30.6% (group A) and Benosid N Inhaler 52.8%/22.2%, Novolizer 52.8%/25.0%, Easyhaler 72.2%/47.2% (group B). Device handling improved after instruction by the investigator. Device handling and preferences of patients closely correlated in this study. Both devices producing the lowest numbers of handling errors (Diskus/Accuhaler and Clickhaler) had the highest preference by the subjects (score from 1 = very good to 7 = very bad): Diskus/Accuhaler 2.21 (group A) and 2.02 (group B); Clickhaler 2.21, Cyclohaler 2.80, Jethaler 3.16 (group A); Novolizer 2.33, Easyhaler 2.37, Benosid N Inhaler 2.43 (group B). Critical handling errors may reduce therapy outcome due to a reduced dose delivery. In addition, reduced patients acceptance of a device, being dependent on device handling, may have a similar effect by reducing patients' compliance.     

Assessment of adrenal suppression from two new dry powder inhaler formulations of budesonide delivered by Clickhaler compared with the Pulmicort Turbuhaler.

Assessment of adrenal suppression via systemic cortisol levels provides an indirect measure of the lung delivery of inhaled corticosteroids. This randomized, placebo-controlled, double-blind, double-dummy crossover study compared urinary and plasma cortisol levels in healthy adult volunteers following single 1,000-microg doses of budesonide from two multiple dose dry powder inhalers (DPIs). Two new formulations of budesonide (lactose and PassCal) delivered from the Clickhaler were compared with Pulmicort from the Turbuhaler. An open dose (2,000 microg) of Pulmicort Turbuhaler was included to validate the experimental model. Overnight (22:00-07:00 h) and early morning (07:00-08:00 h) urine and 08:00 h plasma samples were collected after each treatment and cortisol levels analyzed by radioimmunoassay. Combined overnight and early morning urinary cortisol values for PassCal Clickhaler and Pulmicort Turbuhaler (1,000 microg) were statistically significantly lower than placebo (p < 0.05). The lactose budesonide Clickhaler showed a non-significant urinary cortisol reduction compared with placebo. Differences between the three 1,000-microg budesonide treatments were not significant. The Pulmicort Turbuhaler 2,000 microg showed significant urinary cortisol suppression compared with placebo. Plasma cortisol showed similar effects, with significance between the two Pulmicort doses. These results suggest that adrenal suppression can be used to assess the pulmonary bioavailability of different formulation.     

Effect of inhalation flow rate on the dosing characteristics of dry powder inhaler (DPI) and metered dose inhaler (MDI) products.

Both the dose delivered from the device and the particle size of the medication are important parameters for inhalation products because they influence the amount of drug that is delivered to the patient's lung. The inspiratory flow rate may vary from dose to dose in a given patient and between patients. The Marple-Miller Cascade Impactor, a new multistage inertial impactor that operates at two flow rates (30 and 60 liters/min) with comparable particle size cut-offs, provides a means to study the effect of inhalation flow rate on the particle size distributions of inhalation products. The medication delivery, mass median aerodynamic diameter (MMAD), and fine particle mass were determined, in a randomized fashion, for albuterol, beclomethasone, budesonide, and terbutaline in both metered dose inhaler (MDI) and dry powder inhaler (DPI) products as a function of flow rate. In all cases, independent of drug or device used, the MDI products had a more reproducible respirable dose than the breath-actuated DPI products tested as a function of inhalation flow rate.     

Pharmacodynamic study of procaterol hydrochloride dry powder inhaler: evaluation of pharmacodynamic equivalence between procaterol hydrochloride dry powder inhaler and procaterol hydrochloride metered-dose inhaler in asthma patients in a randomized, double-dummy, double-blind crossover manner

Therapeutic equivalence between procaterol hydrochloride dry powder inhaler (Meptin DPI) and procaterol hydrochloride metered-dose inhaler (Meptin MDI), the currently marketed formulation, was assessed in 16 patients with bronchial asthma. The study was conducted in a randomized, double-dummy, double-blind crossover manner, using forced expiratory volume in the first second (FEV1) as an index of bronchodilatory effect. In Period I, the patients received 20 mcg of either Meptin DPI or Meptin MDI, and then crossed over in Period II after a washout interval of 3--28 days. Pharmacodynamic equivalence was accessed using AUC (FEV1)/h and peak FEV1 as indices, and the data were analyzed by analysis of variance (ANOVA). Factors used for the analysis were the treatment group and/or carryover effect, patients within each group, period, and treatment. The 90% confidence intervals for the differences between the two treatments were --0.0995 to --0.0204 (L) for mean AUC (FEV1)/h and --0.102 to --0.022 (L) for mean peak FEV1, both within the acceptance criteria of --0.15 to 0.15 (L). Meptin DPI was therefore assessed as being equivalent to the current Meptin MDI.     

Gamma scintigraphic evaluation of a novel budesonide dry powder inhaler using a validated radiolabeling technique.

A scintigraphic study was carried out to compare the lung deposition of budesonide delivered via Clickhaler and Turbuhaler dry powder inhalers in healthy volunteers. Validation of Technetium-99m ((99m)Tc) radiolabeling of the budesonide/lactose blend used in the Clickhaler and excipient-free budesonide used in the Turbuhaler was carried out using a multistage liquid impinger, and compared with reference unlabeled devices. Budesonide was quantified using high-performance liquid chromatography and (99m)Tc by scintillation counting. The percentages (SD) of fine particles (<5.5 microm diameter) from radiolabeled and unlabeled devices were not significantly different (p > 0.05). Mean values for drug and radiolabel, respectively, were 34.6% (2.5) and 31.6% (3.8) for the Clickhaler, and 29.8% (5.5) and 31.4% (5 6) for the Turbuhaler. Fifteen healthy male volunteers received a single dose (2 x 200 microg actuations) from both devices in a double-blinded, double dummy, crossover study. During dosing, each inhalation maneuver was recorded using a computer-linked pressure transducer. To permit accurate determination of radiolabeled drug deposition, the lung margins of each volunteer were determined by Krypton-81m ((81m)Kr) gas imaging. Mean [SD] lung deposition for the Clickhaler (26.8% [6.8], RSD 25.2) was significantly greater (p < 0.001) than for the Turbuhaler (15.8% [6.6], RSD 42.2). Inspiratory flow rate parameters were similar for both devices with peak and mean values of 73 and 51 L/min for the Clickhaler, and 73 and 47 L/min for the Turbuhaler, respectively. These results indicate that, in healthy volunteers, budesonide lung deposition was higher and more consistent with the Clickhaler than with the Turbuhaler.     

Use of mometasone furoate administered via a dry powder inhaler in the treatment of asthma

Abstract

Background:

Inhaled corticosteroids (ICSs) are effective controller medications that treat the chronic inflammation of asthma. The goal of asthma treatment is to improve lung function, symptoms, and the ability to perform daily activities, while decreasing the risk of exacerbations. Mometasone furoate delivered via a dry powder inhaler (MF-DPI) is indicated for once-daily maintenance treatment of asthma in patients as young as 4 years old.     

Effect of dry powder inhaler resistance on the inspiratory flow rates and volumes of cystic fibrosis patients of six years and older.

Several inhaled drugs for use by cystic fibrosis (CF) patients are formulated for nebulizer use only. This therapy is time consuming and includes the risk of contamination of the nebulizers. Dry powder inhalers (DPI) can be an attractive alternative for CF drugs. Inhaled flow rate and volume, and the device resistance are important determinants for optimal dispersion of drug from a DPI. It is important to understand how these variables interact in the CF population in order to properly design a new DPI formulation targeted for these patients. The objective of this study was to assess the inspiratory variables of a representative population of CF subjects 6 years and older with varying degrees of lung disease while inhaling through resistances that simulate DPI devices. Ninety-six stable CF patients were enrolled, ages 6-54 years, FEV(1) 19-126% predicted. Subjects inhaled forcefully through four different resistances (0.019, 0.024, 0.038, and 0.048 kP(0.5)/LPM, respectively), while inspiratory time (IT(DPI)), peak inspiratory flow (PIF(DPI)), and volumes (V(DPI)) were measured. For any resistance, inspired V(DPI) increased with the older age groups; PIF(DPI) was similar between adults and adolescents but lower in the children. Subjects with lower FEV(1) had lower V(DPI) and PIF(DPI). As resistance increased, PIF(DPI) decreased, IT(DPI) increased, with no significant change in V(DPI). At the lowest resistance mean PIF(DPI) was 105 LPM (range 45-163) for all patients; 112 LPM (range 75-163) in adults; and 89 LPM (45-126) in children. Mean inspired V(DPI) was 1.75 L for all patients; 2.2 L (0.8-3.7) in adults; and 1.2 L (0.5-1.8) in children. At the lowest resistance a minimal flow rate of 30, 45, and 60 LPM was attained in 100%, 99%, and 96% of all patients. Volumes of 1.0, 1.5, and 2.0 L were attained by 85%, 57%, and 30% of the patients. At the highest resistance mean PIF(DPI) was 52 LPM (range 26-70) for all patients; 55 LPM (40-70) in adults; and 47 LPM (26-62) in children. Mean inspired V(DPI) was 1.5 L in all patients; 1.9 L (0.9-3.5) in adults and 1.1 L (0.5-2.3) in children. At the highest resistance, a minimal flow rate of 30, 45, and 60 LPM was attained in 99%, 80%, and 22% of all patients. Volumes of 1, 1.5, and 2 L were attained in 84%, 45%, and 23% of the patients. We defined ranges for inspiratory variables in a diverse CF population for a range of device resistances that bracket those of current DPIs. The recorded inspiratory patterns can be used on the bench to design and test new dry powder formulations and devices to target the largest proportion of the CF population.     

新型环索奈德胶囊型干粉吸入剂的研制及其质量研究

目的:研制用于治疗哮喘的环索奈德胶囊型干粉吸入剂,建立其含量测定方法,并对其稳定性进行初步考察。方法:用高效液相色谱-紫外法检测环索奈德干粉吸入剂中主药环索奈德及其有关物质的含量。将主药与辅料混合后,以含量均匀度和肺部沉积率为指标进行处方筛选,考察制剂的有关物质和影响因素,并进行了加速稳定性和长期留样稳定性试验。结果:建立的高效液相色谱法,色谱条件如下:色谱柱为Alltima C18(250 mm×4.6mm,5μm);流动相为乙醇-水(65∶35);流速为1.2 mL.min-1;检测波长为243 nm。最后选择乳糖作为辅料,确定了最佳处方和工艺,获得了较好的含量均匀度和肺部沉积率(约19%)。稳定性结果显示,本制剂应置于阴凉、干燥处保存,在室温下保存至少在1年内稳定,长期放置稳定性在继续考察。结论:建立的高效液相色谱法适合于环索奈德胶囊型干粉吸入剂的日常质量控制,研制的制剂处方稳定。     

Mometasone furoate dry powder inhaler: a once-daily inhaled corticosteroid for the treatment of persistent asthma

ABSTRACT

Background: Mometasone furoate (MF), a potent synthetic inhaled corticosteroid (ICS) with a high affinity for the glucocorticoid receptor, is approved for use in the treatment of asthma.

Scope: Publications reviewed in this article were identified via searches of MEDLINE and EMBASE databases using the terms ‘mometasone furoate AND pharmacology’ and ‘mometasone furoate AND asthma AND clinical trial’. Data from abstracts presented at respiratory society meetings, and relevant background information, are also reviewed.

Findings: In clinical studies, MF, administered by dry powder inhaler (MF-DPI), was effective in treating all severities of persistent asthma, improving pulmonary function, reducing asthma symptoms, and reducing or eliminating the need for oral corticosteroids. Once-daily dosing of MF-DPI was effective in patients with mild or moderate persistent asthma previously taking twice-daily regimens of inhaled corticosteroids (ICSs), and in patients taking only inhaled β₂?agonists for symptom relief. Once-daily dosing in the evening with MF-DPI 200?µg conferred a greater benefit than morning dosing with MF-DPI 200?µg. Patients with severe asthma who were dependent on oral corticosteroids (OCSs) and high doses of ICSs were able to achieve greater asthma control and reduce or even eliminate OCSs when switched to MF-DPI. In trials of up to 1 year in duration, MF-DPI was well tolerated, with the majority of adverse events considered mild or moderate in intensity. MF had low systemic bioavailability and no clinically significant hypothalamic–pituitary–adrenal-axis suppression at therapeutic doses. The DPI device is a multiple-dose inhaler with a counter containing agglomerates of MF and lactose. Patients of all severities of persistent asthma were able to generate and maintain airflow profiles necessary to provide a uniform and accurate dose.

Limitations: Only one study evaluated both morning and evening administration of once-daily doses, and one of the comparative clinical trials was an open-label study.

Conclusion: Once-daily administration of MF-DPI 200–400?µg in patients with mild to moderate persistent asthma effectively improved lung function and asthma control. In patients with severe persistent asthma dependent on oral corticosteroids, treatment with MF-DPI 400?µg BID permitted substantial reduction of oral corticosteroid use. All MF-DPI treatments were well tolerated and had minimal systemic effects.     

Pharmacokinetics of a novel 5-lipoxygenase inhibitor (ABT-761) in pediatric patients with asthma

Objective: The pharmacokinetics of an N-hydroxyurea analog, ABT-761 in asthmatic pediatric patients with asthma were investigated. Methods: A total of 24 patients were enrolled into this 8-day single- and multiple-dose study. Patients received daily doses of ABT-761 according to their body weight: patients of 20–38?kg received 50?mg; patients >38?kg but ≤55?kg received 100?mg, and patients ≥55?kg received 150?mg. Results: The mean values for the terminal phase t_1/2 were 16–17?h after multiple-dose administration. When normalized for body weight, the mean day 8 Cl_f values for 50-, 100-mg, and 150-mg doses were 0.57 (n?=?13), 0.51 (n?=?10), and 0.43 (n?=?1) ml?·?min^?1?·?kg^?1, respectively, while the mean V_z/f values ranged from 0.75 to 0.77?l?·?kg^?1. The mean accumulation ratio observed (day 8 to day 1 AUC_0–24 ratio) of ABT-761 was approximately 1.7, which is consistent with the t_1/2 of this drug. Body weight, age, and body surface area were virtually identical in explaining the variability in dose-normalized C_max and AUC values (R ²?=?0.61–0.68). The percents of variance explained by these three variables were within a range of 3% for each pharmacokinetic parameter. Conclusions: The pharmacokinetics of ABT-761 in children were similar to those previously reported in adults. Body weight, age, or body surface area can be used to provide dosing adjustment for ABT-761 in pediatric patients.     

Relative bioavailability of salbutamol to the lung following inhalation via a novel dry powder inhaler and a standard metered dose inhaler

Aims The number of dry powder inhaler (DPI) devices could increase because they are easier to use than a metered dose inhaler (MDI). Using urinary excretion, the relative bioavailability of salbutamol to the lungs and the body for a prototype DPI has been compared with an MDI.
Methods A randomized, double-blind, two way crossover study compared the amount of salbutamol in the urine 30  min following inhalation of 2×100  μg salbutamol from a prototype DPI (Innovata Biomed Ltd, UK) and a Ventolin^® (Allen and Hanburys Ltd, UK) MDI in 10 volunteers. The amount of salbutamol and its metabolite, the ester sulphate conjugate, renally excreted up to 24  h post inhalation was also determined to evaluate the relative bioavailability of salbutamol to the body.
Results The mean (s.d.) 30  min post-treatment urinary excretion for the prototype DPI and MDI was 8.4 (2.6) and 5.0 (1.9)  μg, respectively ( P <0.001). The total amount of salbutamol and its ester metabolite excreted in the urine over the 24  h period after inhalation was 187.9 (77.6) and 137.6 (40.0)  μg ( P <0.05).
Conclusions The prototype DPI delivered more salbutamol to the body and the lungs than a conventional MDI. This finding supports further development of the prototype DPI. The urinary salbutamol method is able to discriminate between two different inhalation systems.     

Air classifier technology (ACT) in dry powder inhalation Part 4. Performance of air classifier technology in the Novolizer multi-dose dry powder inhaler

In this study, the in vitro fine particle deposition from a multi dose dry powder inhaler (Novolizer) with air classifier technology has been investigated. It is shown that different target values for the fine particle fraction (fpf<5 microm) of the same drug can be achieved in a well-controlled way. This is particularly relevant to the application of generic formulations in the inhaler. The well-controlled and predictable fpf is achieved through dispersion of different types of formulations in exactly the same classifier concept. On the other hand, it is shown that air classifier-based inhalers are less sensitive to the carrier surface and bulk properties than competitive inhalers like the Diskus. For 10 randomly selected lactose carriers for inhalation from four different suppliers, the budesonide fpf (at 4 kPa) from the Novolizer varied between 30 and 46% (of the measured dose; R.S.D.=14.2%), whereas the extremes in fpf from the Diskus dpi were 7 and 44% (R.S.D.=56.2%) for the same formulations. The fpf from a classifier-based inhaler appears to be less dependent of the amount of lactose (carrier) fines (<15 microm) in the mixture too. Classifier-based inhalers perform best with coarse carriers that have relatively wide size distributions (e.g. 50-350 microm) and surface discontinuities inside which drug particles can find shelter from press-on forces during mixing. Coarse carrier fractions have good flow properties, which increases the dose measuring accuracy and reproducibility. The fpf from the Novolizer increases with increasing pressure drop across the device. On theoretical grounds, it can be argued that this yields a more reproducible therapy, because it compensates for a shift in deposition to larger airways when the flow rate is increased. Support for this reasoning based on lung deposition modelling studies has been found in a scintigraphic study with the Novolizer. Finally, it is shown that this inhaler produces a finer aerosol than competitor devices, within the fpf<5 microm, subfractions of particles (e.g. <1, 1-2, 2-3, 3-4 and 4-5 microm) are higher.