Advances in drug delivery: is triple therapy the future for the treatment of chronic obstructive pulmonary disease?

Isocratic ion pair chromatography for estimation of novel combined inhalation therapy that blocks coronavirus replication in chronic asthmatic patients

A rapid and sensitive isocratic ion-pair chromatographic method was developed for the accurate analysis of ternary mixtures of formoterol, tiotropium, and ciclesonide in their novel combined inhalation that is widely used for the symptomatic treatment of patients with chronic obstructive disease. Analytical separation was performed using a C₈ column and ion pair mobile phase composed of acetonitrile: acidified deionized water (55: 45% v/v) containing 0.025% sodium dodecyl sulfate. The pH was adjusted to 3.0 using orthophosphoric acid and eluted isocratically at 2.0 mL/min and 40 °C applying UV detection at 237 nm. The calibration ranges were found to be 0.3-9.0 µg/mL for formoterol, 0.45-13.5 µg/mL for tiotropium, and 10.0-300.0 µg/mL concerning ciclesonide. The proposed method exhibited good repeatability, accuracy, and sensitivity (R.S.D. < 2.0%). The approach is rapid (run time does not exceed 15 min) and achieves satisfactory resolution (resolution factors = 7.45 and 5.3 between formoterol and tiotropium and tiotropium and ciclesonide respectively). The sensitivity and the efficiency of the proposed method permit their successful estimation with a recovery percentage ± SD of 99.33% ± 0.43 for formoterol, 99.15% ± 0.60 for tiotropium, and 99.90% ± 0.41 for ciclesonide.

Opportunities in respiratory drug delivery

A wide range of asthma and chronic obstructive pulmonary disease products are soon to be released onto the inhaled therapies market and differentiation between these devices will help them to gain market share over their competitors. Current legislation is directing healthcare towards being more efficient and cost-effective in order to continually provide quality care despite the challenges of aging populations and fewer resources. Devices and drugs that can be differentiated by producing improved patient outcomes would, therefore, be likely to win market share. In this perspective article, the current and potential opportunities for the successful delivery and differentiation of new inhaled drug products are discussed.

Aclidinium bromide/formoterol fixed-dose combination therapy for COPD: the evidence to date

The quest for the right combination of bronchodilators with different mechanisms of action such as long-acting muscarinic antagonists and long-acting β-agonists in the management of stable moderate-to-severe chronic obstructive pulmonary disease (COPD) is a topic of intense research activity currently, given the rising morbidity and mortality due to this disease. The fixed-dose combination of aclidinium bromide and formoterol fumarate in a single inhaler seems to offer superior advantages over either drugs given alone or as separate inhalers concurrently. Since the fixed-dose combination needs to be given twice daily, it is likely to achieve control of symptoms most crucial to the quality of life in COPD, namely, the morning hours. This is reflected in significant trough FEV₁ (forced expiratory volume in 1 second) improvements after the dose. This paper reviews the various studies related to this combination put in the perspective of its safety and efficacy and potential benefits over other therapeutic options. However, there is a dearth of data on the long-term safety and efficacy in terms of improvement in lung function. This combination could emerge as an excellent option in the management of stable COPD if data on exacerbation rates and patient-reported outcomes become available from longer-term studies. Moreover, we need some more studies to define the ideal phenotype of COPD best suited for the use of this combination.

Advances in device and formulation technologies for pulmonary drug delivery

Inhaled pharmaceuticals are formulated and delivered differently according to the therapeutic indication. However, specific device-formulation coupling is often fickle, and new medications or indications also demand new strategies. The discontinuation of chlorofluorocarbon propellants has seen replacement of older metered dose inhalers with dry powder inhaler formulations. High-dose dry powder inhalers are increasingly seen as an alternative dosage form for nebulised medications. In other cases, new medications have completely bypassed conventional inhalers and been formulated for use with unique inhalers such as the Staccato® device. Among these different devices, integration of software and electronic assistance has become a shared trend. This review covers recent device and formulation advances that are forming the current landscape of inhaled therapeutics.

Improving inhaler technique, adherence to therapy and the precision of dosing: major challenges for pulmonary drug delivery

INTRODUCTION

The inhaled route has many advantages, but requires the patient to use, and to master the use of, an inhaler device. Poor inhaler technique and non-adherence to therapy lead to a highly variable lung dose in clinical practice, with subsequent loss of clinical efficacy and wastage of economic resources.

AREAS COVERED

This paper discusses problems of poor inhaler technique, non-adherence to inhaler therapy, other issues relating to the precision of dose delivery, the consequences of these problems and how they can be addressed.

EXPERT OPINION

The precision of dosing by the pulmonary route can be improved by appropriate choice of inhaler device and by education. It is vital to educate patients about their disease, about the importance of taking prescribed medications and about correct inhaler use. One-on-one sessions with healthcare professionals probably represent the most effective educational method. For some drugs and patient groups, inhalers containing small microprocessors may also be used to control inhalation technique, and hence, to obtain a more reproducible lung dose. As the range of drugs delivered by inhalation increases, the need for correct inhaler technique, adherence to therapy and precise dosing becomes more and more important.

Preparation and evaluation of single and co-engineered combination inhalation carrier formulations for the treatment of asthma

Two combination dry powder inhalation formulations were engineered via spray drying and co-spray drying salbutamol base (SB) and beclomethasone dipropionate (BDP). The aerosol performances of the individual drugs, a physical mix and the co-spray-dried particle systems were investigated after blending with conventional lactose carrier, under realistic dose regimes. Furthermore, each system was evaluated in terms of the physicochemical properties and via high-throughput Raman microscopy (to study co-association and deposition patterns after in vitro aerosolisation studies). In general, analysis of the aerosol performance (measured using a next-generation impactor) of the single drug and physical mix formulations suggested that SB and BDP have significantly different stage-deposition profiles. Such observations were further substantiated by scanning electron microscopy, where SB-BDP agglomeration could be observed in the physical mix. Stage deposition from the SB-BDP co-spray-dried powders were different than that for the physical mix, wherein the amount of SB and BDP on each stage was equivalent; suggesting that the two drugs could be targeted and deposited at the same location on the lung epithelia. Raman microscopy of the physical mix and co-spray-dried formulations also confirmed the differences in stage deposition between formulations and co-localised deposition for the co-spray-dried formulation.

Pharmacology and therapeutics of bronchodilators

Bronchodilators are central in the treatment of of airways disorders. They are the mainstay of the current management of chronic obstructive pulmonary disease (COPD) and are critical in the symptomatic management of asthma, although controversies around the use of these drugs remain. Bronchodilators work through their direct relaxation effect on airway smooth muscle cells. at present, three major classes of bronchodilators, β(2)-adrenoceptor (AR) agonists, muscarinic receptor antagonists, and xanthines are available and can be used individually or in combination. The use of the inhaled route is currently preferred to minimize systemic effects. Fast- and short-acting agents are best used for rescue of symptoms, whereas long-acting agents are best used for maintenance therapy. It has proven difficult to discover novel classes of bronchodilator drugs, although potential new targets are emerging. Consequently, the logical approach has been to improve the existing bronchodilators, although several novel broncholytic classes are under development. An important step in simplifying asthma and COPD management and improving adherence with prescribed therapy is to reduce the dose frequency to the minimum necessary to maintain disease control. Therefore, the incorporation of once-daily dose administration is an important strategy to improve adherence. Several once-daily β(2)-AR agonists or ultra-long-acting β(2)-AR-agonists (LABAs), such as indacaterol, olodaterol, and vilanterol, are already in the market or under development for the treatment of COPD and asthma, but current recommendations suggest the use of LABAs only in combination with an inhaled corticosteroid. In addition, some new potentially long-acting antimuscarinic agents, such as glycopyrronium bromide (NVA-237), aclidinium bromide, and umeclidinium bromide (GSK573719), are under development, as well as combinations of several classes of long-acting bronchodilator drugs, in an attempt to simplify treatment regimens as much as possible. This review will describe the pharmacology and therapeutics of old, new, and emerging classes of bronchodilator.

Co-deposition of a triple therapy drug formulation for the treatment of chronic obstructive pulmonary disease using solution-based pressurised metered dose inhalers

OBJECTIVES

The formulation of multi-drug pressurised metered dose inhalers (pMDIs) opens up exciting therapeutic opportunities for the treatment of asthma and chronic obstructive pulmonary disease (COPD). We have investigated the formulation of a solution-based triple therapy pMDI containing ipratropium, formoterol, budesonide and ethanol as co-solvent.

METHODS

This system was characterised for in-vitro performance and compared with marketed pMDIs (Atrovent and Symbicort).

KEY FINDINGS

No significant difference was found in the stage deposition of each drug from the triple therapy formulation, suggesting that the droplets contained a fixed ratio of the three components used. Stage deposition of formoterol and budesonide from the suspension-based marketed Symbicort were significantly different, suggesting that the two drugs were deposited as separate entities. Calculation of the mass median aerodynamic diameter (MMAD) of each formulation suggested Atrovent (ipratropium, MMAD = 0.9 ± 0.0 µm) to have a small particle size, similar to the triple therapy formulation. Atrovent, like the triple therapy formulation was solution based and it contained ethanol as a co-solvent (triple therapy formulation, MMAD = 1.3 ± 0.0 µm).

CONCLUSIONS

This study demonstrated the feasibility of formulating a solution-based pMDI containing a triple therapy with identical deposition pattern for the treatment of several respiratory diseases where multi-drug cell targeting is required.