Bronchodilator Therapy PDF

Summary

This document explains bronchodilator therapy, focusing on different types of bronchodilators, their mechanisms of action, and clinical applications. It covers drug administration methods, including inhaled aerosols, and discusses the benefits and drawbacks associated with these approaches.

Full Transcript

Bronchodilator Therapy
Objectives
˜Compare and contrast bronchoconstriction and bronchospasm.
˜List the three categories of bronchodilators and describe the mechanism of how each
class causes bronchodilation.
˜Describe the common adverse effects and contraindications of sympathomimetic,
anticholinergic, and methylxanthine bronchodilators.
˜Compare the use of adrenergic, anticholinergic, and methylxanthine bronchodilators in
clinical practice.
˜Assess the clinical indications for short-acting and long-acting bronchodilators.
˜A bronchospasm is a reversible contraction of the bronchial smooth muscle, leading to
decreased pulmonary function. Bronchospasm is one of the major triggers of
bronchoconstriction, but not the only one.
˜Bronchoconstriction is a condition in which the diameter of the airway is reduced or
constricted, decreasing expiratory flow. This may be due to bronchospasm, airway
inflammation/airway thickening, mucosal edema, or secretions. (or a combination of
these)
˜Drug Administration Phase
● ˜Method by which drug is made available to body
● ˜Drugs directly to the respiratory tract use the inhalation route
- Liquid solutions, suspensions, or dry powders
● Most common devices used to administer inhaled aerosols are:
- Metered-dose inhaler (MDI)
- Soft-mist inhaler (Respimat)
- Small-volume nebulizer (SVN)
- Dry-powder inhaler (DPI)
˜Drug Administration Phase (Cont.)
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Advantages of inhaled aerosols:
Aerosol doses are usually smaller than doses for systemic administration
Onset of drug action is rapid
Delivery is targeted to the organ requiring treatment
Systemic side effects are often fewer and less severe
Disadvantages of inhaled aerosols:
The number of variables affecting the delivered dose
Lack of adequate knowledge of device performance
Use among patients and caregivers

˜Airway Receptors and Neural Control of Lung
● Sympathetic (adrenergic) and parasympathetic (cholinergic) receptors are in
lung
● Neurotransmitters
- In sympathetic system is norepinephrine (epinephrine)
- In parasympathetic system is acetylcholine
˜Airway Receptors and Neural Control of Lung (Cont.)
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Agonists (stimulating agents)
Antagonists (blocking agents)
Given the following classification:
Adrenergic (adrenomimetic)
Antiadrenergic
Cholinergic (cholinomimetic)
Anticholinergic
Muscarinic

˜
˜Adrenergic Bronchodilators
● Indications for use
-Short-acting agents
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For relief of acute reversible airflow obstruction
Long-acting agents
For maintenance bronchodilation in patients with obstructive lung disease
Racemic epinephrine
To reduce airway swelling after extubation or during croup or epiglottitis
To control airway bleeding during endoscopy

˜Adrenergic Bronchodilators (Cont.)
●
-

Mode of action and effects
Alpha-receptor stimulation: causes vasoconstriction and vasopressor effect
Beta-1-receptor stimulation: causes increased heart rate and heart contractility
Beta-2-receptor stimulation: relaxes bronchial smooth muscle, stimulates
mucociliary activity, and has some inhibitory action on inflammatory mediator
release

˜Relief of Mucosal Edema

● Sympathomimetics with an a-effect which promotes vasoconstriction (think
decongestant), and corticosteroids which have a general anti-inflammatory effect
help decrease mucosal edema.
˜Relief of Bronchospasm
● Sympathomimetics (B-adrenergic)
˜
● Anticholinergics (Parasympatholytics)
˜
● Methylxanthines (less commonly used)
˜Adrenergic Bronchodilators
Classified as:
● Short-Acting
● Long-Acting
● Ultra Long-Acting
˜Short-Acting SABA
● Albuterol (Proventil, Ventolin, Proair)
● Levalbuterol (Xopenex)
˜
● Epinephrine (systemic)
● Racemic epinephrine (inhaled)
˜
˜Albuterol SABA
●
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Albuterol (Proventil, Ventolin, Proair)
HFA: 2 puffs every 4-6 hrs, NEB: 1.25-5 mg every 4-8 hrs.
Rapid onset, usually less than 10 mins.
Duration: 2-6 hours
Indications: Fast-acting bronchodilator for acute bronchospasm

˜Levalbuterol (Xopenex) SABA
●
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Levalbuterol (Xopenex)
HFA: one to two puffs every 4-6 hrs., NEB: 0.63-1.25mg every 8 hr.
Onset: within 15 mins.
Duration: 3-8 hrs
Indication: Fast-acting bronchodilator for acute bronchospasm

-

More expensive, usually indicated with cardiac concerns

˜Long-Acting Bronchodilators LABA
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Arformoterol (Brovana)
Formoterol (Foradil/Perforomist)
Indacaterol (Arcapta)
Olodaterol (Striverdi)
Salmeterol (Serevent)
Vilanterol

up to 12 hrs
up to 12 hrs
up to 24 hrs
up to 24 hrs
up to 12 hrs
up to 24 hrs

Nonselective Sympathomimetics SABA
●
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Epinephrine
Dose: 0.2-0.5 mg IM (may be repeated)
Onset: within 3-5 mins.
Duration: 1-3 hours
Indications: Status asthmaticus, anaphylaxis

●
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Racemic epinephrine
Dose: 0.5 mL nebulized (may need to be repeated)
Onset: 3 mins.
Duration: 30-120 mins
Indications: acute mucosal edema, croup, laryngeal edema

Adrenergic Bronchodilators (Cont.)
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Adverse effects (most common)
Tremors
Headache
Insomnia
Nervousness
Palpitations
Pharyngitis
Tachycardia
Hypokalemia in high doses

Adrenergic Bronchodilators (Cont.)
● Assessment of bronchodilator therapy
- Based on indication(s) for aerosol agent
- Vital signs, breath sounds, and breathing patterns should be evaluated before
and after treatment
- Patient’s subjective response is important to evaluate

Anticholinergic Bronchodilators
● Anticholinergic bronchodilators are also referred to as parasympatholytics,
antimuscarinic, or muscarinic antagonists.
● They block or inhibit the effects of ACH at the muscarinic receptors in the
parasympathetic system
● Stimulation of the parasympathetic nervous system causes:
- Increased secretions
- Slowing of HR
- Bronchoconstriction
- Pupillary constriction
M receptors
● M1, M2, M3 receptors are found in the lung tissue and are affected by
anticholinergic bronchodilators.
● Use of anticholinergic (parasympatholytic) drugs to block the effects of the
parasympathetic system will lead to:
- Drying of the pulmonary secretions
- Increase of HR
- bronchodilation
Anticholinergic Bronchodilators
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Indications for use:
Maintenance treatment in COPD
Often used during acute asthma attack
Combined with a beta-agonist, it is indicated for use in patients with COPD
receiving regular treatment who require additional bronchodilation for relief of
airflow obstruction

Anticholinergic Bronchodilators (Cont.)
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Mode of action
Agents act as competitive antagonists for acetylcholine on airway smooth muscle
Adverse effects
Dry mouth, pupillary dilation, lens paralysis, increased intraocular pressure,
increased heart rate, urinary retention, and altered mental state

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1.
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Side effects seen with anticholinergic aerosol agents
SVN, MDI, and DPI (Common)
Cough, dry mouth
MDI (Occasional)

˜

- Nervousness, irritation, dizziness, headache, palpitation, rash
● SVN and DPI
- Pharyngitis, dyspnea, flulike symptoms, bronchitis, upper respiratory infections,
nausea, occasional bronchoconstriction, eye pain, urinary retention
˜
Short-acting Antimuscarinic agent SAMA
● ipratropium (Atrovent)
- Dose: MDI, 2 inhalations four times daily Neb, 0.5 mg every 6-8 hrs. (more
frequently in exacerbations)
- Onset: within 15 mins.
- Duration: 4-6 hrs.
- Indications: COPD (chronic and acute), acute asthma (often combined with
albuterol)
Long-acting Antimuscarinic Agents LAMA
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Aclidinium Br (Tudorza Pressair)
Glycopyrrolate (Seebri Neohaler, Lonhala Magnair
Tiotropium Br (Spiriva)
Umeclidinium (Incruse Ellipta)

12 hr.
24 hr.
up to 24 hr.
up to 24 hr.

Combined B2 Agonist and Muscarinic-Antagonist Combination
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Combivent, Duoneb (Ipratropium and albuterol)
Anoro Ellipta (Umeclidinium and vilanterol)
Bevespi Aerosphere (Glycopyrrolate and formoterol)
Stiolto Respimat (Tiotropium and olodaterol)
Utibron Neohaler (Olodaterol and glycopyrrolate)
Trelegy Ellipta (Vilanterol, umeclidinium, and fluticasone)

Methylxanthines
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Caffeine
Respiratory stimulant of neonatal apnea (IV)
Theophylline
Used therapeutically as a bronchodilator
Used as an add-on therapy for COPD and asthma
Need for monitoring serum concentrations and the potential for serious adverse
effects
Administered oral or IV
Promotes pulmonary vasodilation, coronary vasodilation, cardiac stimulation,
enhanced diaphragmatic contractility, CNS stimulation, and diuresis

PDE inhibitor
● Roflumilast (Daliresp)
- Daliresp is used in COPD patients to reduce the risk of acute exacerbations in
patients with severe COPD associated with chronic bronchitis and a history of
exacerbations.
- Its beneficial effects in COPD are a result of anti-inflammatory properties.
- It does not cause bronchodilation and is not a bronchodilator
- It is taken orally
Magnesium
● IV and nebulized magnesium have been used as an adjunctive bronchodilator in
patients with severe, life-threatening asthma exacerbations
● Magnesium sulfate causes smooth muscle relaxation
● It may also reduce neutrophils involved in the inflammatory process and
decrease Ach, histamine, and mast cell release.
● Common adverse effects are flushing, fatigue, nausea, headache, hypotension
˜