Burden of Asthma and Role of 2.5 µg Tiotropium Respimat^® as an Add-On Therapy: A Systematic Review of Phase 2/3 Trials

Asthma, one of the most common chronic respiratory conditions, poses a substantial human and socioeconomic burden. In the USA alone, approximately 20.4 million adults and 6.1 million children—or 8.3% of the population—were reported to have asthma in 2016 [1]. A recent study based on the Medical Expenditure Panel Survey showed that the economic burden of asthma in the USA was estimated to exceed $80 billion in 2013 [2]. Typical signs and symptoms of asthma, such as wheezing, dyspnea, chest tightness, and cough, which reflect episodes of reversible airflow obstruction, may remit spontaneously or with treatment. However, many patients experience progressive airway remodeling, leading to an incompletely reversible, or fixed, airflow obstruction [3]. In certain situations, such as exposure to allergens and respiratory infections, patients can experience a flare-up of asthma signs and symptoms or asthma exacerbations [4].

Asthma is generally classified as allergic or nonallergic and ranges in severity from mild to severe [5], with severe asthma being associated with higher morbidity and mortality [6]. Susceptibility to and/or development of asthma involves a complex interplay of individual characteristics and environmental factors. Variability in immunologic responses (endotypes) results in different pathophysiological characteristics (phenotypes), in turn contributing to asthma heterogeneity [3]. Moreover, asthma affects patients of all ages and can develop at any time from childhood (early onset) to late in adulthood (late onset), making the diagnosis and management of asthma sometimes challenging, particularly in children [7].

In general, diagnosis of asthma is based on patient history (such as characteristic signs and symptoms) and clinical evidence of variable expiratory airflow limitation [8]. According to the Global Initiative for Asthma (GINA) 2018 report, an asthma diagnosis should be confirmed using objective assessments such as spirometry, which reveals variable airway obstruction that is at least partially reversible [8]. Most national and international guidelines on asthma management, including GINA, advocate regular use of spirometry in the diagnosis and subsequent management of asthma. Primary care providers (PCPs) often prescribe reliever medications “as needed” on the basis of history and physical examination [9]. Although treatment step-up, as recommended by GINA, is based on the assessment of symptom control, spirometry could help PCPs identify patients with poor perceptions of their symptoms and make data-driven therapeutic decisions for stepping up treatment in symptomatic patients [10].

Asthma pharmacotherapies can be classified as reliever (rescue) and controller (maintenance) medications [8]. Reliever medications provide relief from acute respiratory symptoms during asthma attacks (e.g., short-acting β₂-agonists [SABAs], short-acting muscarinic antagonists [SAMAs], and long-acting β₂-agonist [LABA]{formoterol}/inhaled corticosteroid [ICS] combinations) [8]. Controller medications provide long-term symptom control, and reduce airway inflammation and the risk of lung function decline and future exacerbations. Such medications include ICSs, SABAs (in combination with an ICS), LABAs (in combination with an ICS), and add-on therapies such as long-acting muscarinic antagonists (LAMAs), leukotriene receptor antagonists (LTRAs), and immunomodulators/biologics (anti-immunoglobulin E [IgE] and anti-interleukin-5/interleukin-5 receptor and anti-interleukin-4 receptor therapies) [8]. However, despite the availability of a wide range of treatment options, approximately 12.4 million (46.9%) patients in the USA—9.1 million (44.9%) adults and 3.3 million (53.7%) children across all asthma severities—continue to experience exacerbations as reported by the 2016 National Health Interview Survey [1]. This finding highlights the need for effective add-on treatments that can improve lung function across the spectrum of asthma patients. Although LABA added to low-dose ICS is more effective in attaining asthma control than increasing the dose of ICS [11], LABA/ICS can achieve well-controlled asthma in only approximately 70% of patients [12].

Tiotropium Respimat^® (Spiriva^® Respimat^® inhalation spray; Boehringer Ingelheim, Ridgefield, CT, USA) is a LAMA approved for long-term, once-daily, maintenance treatment of asthma in patients aged at least 6 years (2.5 µg [two puffs of 1.25 µg once-daily] in the USA and 5 µg [two puffs of 2.5 µg once-daily] in the European Union [EU] and other countries) [13, 14]. Approvals were based on the results of several phase 3 trials of tiotropium—delivered via HandiHaler^®, a dry powder inhaler, or via Respimat^®, a slow-mist inhaler (in phase 3 trials and submitted globally to regulatory authorities)—as add-on treatment to ICS with or without other controller medications in patients with uncontrolled or symptomatic asthma [15‐22]. Results from these studies demonstrated that add-on treatment with tiotropium Respimat^® improved lung function and reduced the risk of severe exacerbations and asthma worsening [15, 20, 22, 23]. Moreover, the efficacy of tiotropium was demonstrated across all age groups (children, adolescents, and adults) and asthma severities (mild, moderate, and severe) [15, 16, 18‐22, 24].

Considering that tiotropium HandiHaler^® for asthma has been discontinued in the USA, we conducted a systematic review to investigate the efficacy and safety of once-daily 2.5 µg tiotropium Respimat^®, the US Food and Drug Administration (FDA)-approved dosage, across all age groups and asthma severities.