Preventers & Add-On Therapies
In Part 1, we explored bronchodilators – which treat bronchoconstriction, one part of the asthma puzzle. But asthma is fundamentally a chronic inflammatory disease, and ongoing airway inflammation needs long-term control to prevent symptoms, reduce exacerbations, and preserve lung function.
๐ฅ What drives inflammation in asthma?
Asthma involves chronic inflammation of the airways, characterised by:
✅ Infiltration of eosinophils, mast cells, and T helper 2 (Th2) lymphocytes
✅ Release of pro-inflammatory cytokines (IL-4, IL-5, IL-13)
✅ Increased airway oedema, mucus hypersecretion, and airway hyperresponsiveness
This inflammation persists even when patients feel well — which is why preventers are used every day, not just during flare-ups.
๐ก️ Inhaled Corticosteroids (ICS) – e.g. Budesonide, Fluticasone, Beclometasone
Mechanism of Action:
Bind to intracellular glucocorticoid receptors, modifying gene transcription → ↓ production of pro-inflammatory cytokines, ↓ eosinophil activation, ↓ mast cell numbers → reduced airway inflammation and hyperresponsiveness
๐ ICS are the first-line preventer in asthma, used daily for long-term control.
They improve symptoms, reduce exacerbation frequency, and may slow disease progression.
๐ง Link to pathophys: ICS target the core inflammatory processes in asthma — unlike bronchodilators, they modify disease activity, not just symptoms.
⚠️ Adverse effects:
Oral candidiasis (thrush) – due to local immunosuppression; reduced by using a spacer and rinsing the mouth after inhalation
Dysphonia (hoarse voice) – due to laryngeal muscle effects
At higher doses or long-term: systemic corticosteroid effects (rare when inhaled properly), e.g. adrenal suppression, bone density loss, bruising
๐ Leukotriene Receptor Antagonists (LTRAs) – e.g. Montelukast
Mechanism of Action:
Block cysteinyl leukotriene receptors (CysLT1) on airway smooth muscle and immune cells → ↓ leukotriene-mediated bronchoconstriction, mucus secretion, and inflammation
๐ Taken orally, once daily
Often used as an add-on in mild-to-moderate asthma, especially when there’s an allergic or exercise-induced component
Also used in children where inhaled therapies are challenging
๐ง Leukotrienes are key mediators released by mast cells and eosinophils — so this therapy helps dampen allergic-type inflammation.
⚠️ Adverse effects:
Generally well tolerated
Headache, gastrointestinal upset
Rare reports of neuropsychiatric symptoms (e.g. mood changes, vivid dreams, agitation, suicidal ideation rarely) – explain to patients and monitor - mechanism largely unknown but several theories exist
๐ Monoclonal Antibodies (Biologics) – e.g. Omalizumab, Mepolizumab, Dupilumab
Used in severe asthma with poor control despite high-dose ICS + LABA.
๐น Omalizumab – Anti-IgE
๐ Binds to circulating IgE, preventing it from activating mast cells and basophils → ↓ allergic inflammation
Used in allergic asthma with high IgE levels
๐น Mepolizumab, Benralizumab – Anti-IL-5 pathway
๐ Target eosinophilic asthma by blocking IL-5 signalling → ↓ eosinophil survival and recruitment
๐น Dupilumab – Anti-IL-4 receptor
๐ Blocks IL-4 and IL-13 signalling → broader anti-Th2 inflammation effects
๐ Given via subcutaneous injection every 2–8 weeks
Accessed via specialist referral and asthma biologic access criteria
⚠️ Adverse effects:
Injection site reactions
Hypersensitivity (rare)
Long-term safety still being studied, but well tolerated in trials
๐ง Key take-home points:
๐ Asthma is fundamentally inflammatory, not just bronchospastic
๐Inhaled corticosteroids are the cornerstone of preventer therapy
๐Add-ons like montelukast or biologics are selected based on phenotype (e.g. allergic, eosinophilic) and response
๐Preventers should be used daily, even when asymptomatic — asthma control is about preventing inflammation, not just reacting to symptoms
๐งชBetween bronchodilators and preventers, you now have a solid grasp of how we tailor treatment to the underlying disease process — not just the symptoms.
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