drugs affecting the respiratory system
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Drugs Affecting the Respiratory System. Bronchodilators and Other Respiratory Drugs. Respiratory System Drugs Lower Respiratory Tract Diseases. Asthma Emphysema Chronic bronchitis. Respiratory System Drugs Asthma. Recurrent and reversible shortness of breath - PowerPoint PPT PresentationTRANSCRIPT
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Bronchodilators and Other Respiratory Drugs
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Asthma
Emphysema
Chronic bronchitis
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Recurrent and reversible shortness of breath
Airways become narrow as a result of:• Bronchospasm• Inflammation & Edema of the bronchial mucosa• Production of viscid mucus
Alveolar ducts/alveoli remain open, but airflow to them is obstructed
Symptoms• Wheezing• Difficulty breathing
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Status asthmaticus
• Prolonged asthma attack that does not respond to typical drug therapy
• May last several minutes to hours• Medical emergency
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Continuous inflammation of the bronchi and bronchioles
Often occurs as a result of prolonged exposure to bronchial irritants
Characterized by • Hypoxemia• Chronic productive cough• “Blue Bloater”
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Air spaces enlarge as a result of the destruction of alveolar walls
The surface area where gas exchange takes place is reduced
Effective respiration is impaired
Characterized by:• Increased paCO2 - respiratory acidosis• Difficulty exhaling – pursed lip breathing• “Pink Puffer”
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Long-term control• Antileukotrienes• cromolyn• Inhaled steroids• Long-acting β2-agonists
Quick relief• Intravenous systemic corticosteroids• Short-acting inhaled β2-agonists
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Bronchodilators• β-adrenergic agonists• Xanthine derivatives
Anticholinergics
Antileukotrienes
Corticosteroids
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Large group, sympathomimetics
Used during acute phase of asthmatic attacks
Quickly reduce airway constriction
Stimulate β2-adrenergic receptors throughout the lungs
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Three types
Nonselective adrenergics
• Stimulate α, β1 (cardiac), and β2 (respiratory) receptors• Example: epinephrine
Nonselective β-adrenergics
• Stimulate both β1 and β2 receptors• Example: metaproterenol
Selective β2 drugs
• Stimulate only β2 receptors• Example: albuterol (Proventil)
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Mechanism of Action
Begins at the specific receptor stimulated#
Ends with the dilation of the airways
•#Activation of β2 receptors activates cAMP,* which relaxes smooth muscles of the airway and results in bronchial dilation and increased airflow
*cAMP = cyclic adenosine monophosphate
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Indications
Relief of bronchospasm related to asthma, bronchitis, and other pulmonary diseases
Useful in treatment of acute attacks as well as prevention
Used in hypotension and shock
Used to produce uterine relaxation to prevent premature labor
Hyperkalemia—stimulates potassium to shift into the cell
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α-β (epinephrine)
Insomnia Restlessness Anorexia Vascular headache
Hyperglycemia Tremor Cardiac stimulation
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β1 and β2 (metaproterenol)
Cardiac stimulation Tremor Anginal pain
Vascular headache Hypotension
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β2 (albuterol)
Hypotension OR hypertension Vascular headache Tremor
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Thorough assessment before beginning therapy
• Skin color• Baseline vital signs• Respirations (should be between 12 and 24
breaths/min)• Respiratory assessment, including PO2
• Sputum production• Allergies• History of respiratory problems• Other medications
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Monitor for therapeutic effects• Decreased dyspnea• Decreased wheezing, restlessness, and anxiety• Improved respiratory patterns with return to normal
rate and quality• Improved activity tolerance
Patients should know how to use inhalers and MDIs• Have patients demonstrate use of devices
Monitor for adverse effects
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Patients should be encouraged to have a good state of health
• Avoid exposure to conditions that precipitate bronchospasms (allergens, smoking, stress, air pollutants)
• Adequate fluid intake• Compliance with medical treatment• Avoid excessive fatigue, heat, extremes in temperature,
caffeine
Patients to get prompt treatment for flu or other illnesses
Patients to get vaccinated against pneumonia and flu
Check with their physician before taking any medication, including OTCs
Teach patients to take bronchodilators exactly as prescribed
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Albuterol, if used too frequently, loses its β2-specific actions at larger doses• As a result, β1 receptors are stimulated, causing nausea,
increased anxiety, palpitations, tremors, and increased heart rate
Take medications exactly as prescribed• No omissions or double doses
Report insomnia, jitteriness, restlessness, palpitations, chest pain, or any change in symptoms
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For any inhaler prescribed, ensure that the patient is able to self-administer the medication
• Provide demonstration and return demonstration
• Ensure the patient knows the correct time intervals for inhalers
• Provide a spacer if the patient has difficulty coordinating breathing with inhaler activation
• Ensure that patient knows how to keep track of the number of doses in the inhaler device
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Mechanism of Action Acetylcholine (ACh) causes bronchial constriction and
narrowing of the airways Anticholinergics bind to the ACh receptors, preventing
ACh from binding
Result: • bronchoconstriction is prevented • airways dilate
ipratropium bromide (Atrovent) and tiotropium (Spiriva) Slow and prolonged action Used to prevent bronchoconstriction NOT used for acute asthma exacerbations!
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Adverse effects
Dry mouth or throat Nasal congestion Heart palpitations Gastrointestinal distress Headache Coughing Anxiety
No known drug interactions
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Plant alkaloids: •caffeine, theobromine, and theophylline
Only theophylline is used as a bronchodilator
Synthetic xanthines: (IV) theophylline (Aminophylline) (oral) theophylline (Elixophyllin, Theo-Dur)
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Increase levels of energy-producing cAMP• This is done competitively inhibiting
phosphodiesterase (PDE), the enzyme that breaks down cAMP (cAMP = cyclic adenosine monophosphate)
Result: • decreased cAMP levels, smooth muscle relaxation,
bronchodilation, and increased airflow• cardiovascular stimulation: increased force of contraction
and increased heart rate, resulting in increased cardiac output and increased blood flow to the kidneys (diuretic effect)
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Dilate of airways in asthma, chronic bronchitis, and emphysema
Mild to moderate cases of acute asthma
Adjunct drug in the management of COPD
Not used as frequently due to:• potential for drug interactions• variables related to drug levels in the blood
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Nausea, vomiting, anorexia
Gastroesophageal reflux during sleep
Sinus tachycardia, extrasystoles, palpitations, ventricular dysrhythmias
Transient increased urination
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Contraindications: history of PUD or GI disorders Cautious use: cardiac disease Timed-release preparations should not be
crushed or chewed (causes gastric irritation) Report to physician:
• Palpitations Nausea Vomiting • Weakness Dizziness Chest pain • Convulsions
Interactions with cimetidine, oral contraceptives, allopurinol, certain antibiotics elevate serum xanthine blood levels
Nicotine & caffeine potentiate cardiac effects St. John’s wort increases metabolism = decrease
blood levels
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Also called leukotriene receptor antagonists
(LRTAs)
Newer class of asthma drugs
Currently available drugs montelukast (Singulair)
zafirlukast (Accolate) zileuton (Zyflo)
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Leukotrienes
•substances released when a trigger, such as cat hair or dust, starts a series of chemical reactions in the body
•cause inflammation, bronchoconstriction, and mucus production
Result: coughing, wheezing, shortness of breath
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Antileukotriene drugs• prevent leukotrienes from attaching to receptors on cells in
and in circulation Inflammation in the lungs is blocked Asthma symptoms are relieved
By blocking leukotrienes: Prevent smooth muscle contraction of the
bronchial airways Decrease mucus secretion Prevent vascular permeability Decrease neutrophil and leukocyte infiltration to the
lungs, preventing inflammation
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Prophylaxis and chronic treatment of asthma in adults and children older than
age 12
NOT meant for management of acute asthmatic attacks
montelukast (Singulair) • is approved for use in children ages 2 and older, and for treatment of allergic rhinitis
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zileuton (Zyflo) zafirlukast (Accolate)
Headache HeadacheDyspepsia NauseaNausea DiarrheaDizziness Liver dysfunctionInsomniaLiver dysfunction
Montelukast (Singulair) has fewer adverse effects
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Ensure that the drug is being used for chronic management of asthma, not acute asthma
Teach the patient the purpose of the therapy
Improvement should be seen in about 1 week
Check with physician before taking any OTC or prescribed medications—many drug interactions
Assess liver function before beginning therapy
Medications should be taken every night on a continuous schedule, even if symptoms improve
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Anti-inflammatory!!!
Uses - chronic asthma/COPD exacerbations
Do not relieve acute asthmatic attacks S&S
Oral, IV (quick acting), or inhaled forms
Inhaled forms reduce systemic effects• May take several weeks before full
effects are seen
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Mechanism of Action
Stabilize membranes of cells that release harmful bronchoconstricting substances
Also increase responsiveness of bronchial smooth muscle to β-adrenergic stimulation
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beclomethasone dipropionate (Beclovent, Vanceril)
triamcinolone acetonide (Azmacort)
dexamethasone sodium phosphate (Decadron Phosphate Respihaler)
fluticasone (Flovent, Flonase)
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Treatment of bronchospastic disorders that are not controlled by conventional bronchodilators
NOT considered first-line drugs for management of acute asthmatic attacks
or status asthmaticus
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Pharyngeal irritation
Coughing
Dry mouth
Oral fungal infections
Systemic effects are rare because of the low doses used for inhalation therapy
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Contraindicated in patients with psychosis, fungal infections, AIDS, TB
Teach patients to gargle and rinse the mouth with lukewarm water afterward to prevent the development of oral fungal infections
If a β-agonist bronchodilator and corticosteroid inhaler are both ordered, the bronchodilator should be used several minutes before the corticosteroid to provide bronchodilation before administration of the corticosteroid
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Teach patients •to monitor disease with a peak flow meter
•use of a spacer device to ensure successful inhalations
•keep inhalers and nebulizer equipment clean after uses
•Tapering doses of oral corticosteroids
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1. Doses of xanthine derivatives may need to be reduced in older adult patients. True or false? Explain your answer.
2. The therapeutic blood level of theophylline in the adult is _____________
3. Theophylline is classified as a _____________ _____________, whereas albuterol (Proventil) and epinephrine (Medinhaler-Epi) are _____________________ ______________.
4. β-agonists are contraindicated in patients with _________ or _________
disorders. 5. Antileukotriene drugs reduce _______________ associated with asthma,
and are used for chronic/acute asthma.
6. This antileukotriene drug is US Food and Drug Administration (FDA) approved for use in children 2 years of age and older: ___________________.
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1. Lower doses in the older adult may be necessary initially and during therapy with close monitoring for adverse effects and toxicity (cardiovascular and central nervous system [CNS] stimulation).
2. The therapeutic blood level of theophylline in the adult is 10 to 20 mcg/mL; some practitioners recommend 5 to 15 mcg/mL
3. Theophylline is classified as a xanthine derivative, whereas albuterol and epinephrine are β-agonist bronchodilators.
4. β-agonists are contraindicated in patients with a high risk of stroke or any
cardiovascular disorders, particularly tachydysrhythmias. 5. Antileukotriene drugs reduce inflammation associated with asthma, and are used for
chronic asthma.
6. This antileukotriene drug is US Food and Drug Administration (FDA) approved for use in children 2 years of age and older: montelukast (Singulair).
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For each drug listed, state whether it is used for: A. Asthma prophylaxis and maintenance treatment B. Treatment of acute bronchospasm C. Both
1. montelukast (Singulair), an antileukotriene
2. theophylline (Theo-Dur) oral tablets, xanthine-derived
3. fluticasone (Flovent), a synthetic glucocorticoid
4. ipratropium (Atrovent), an anticholinergic 5. albuterol Proventil) inhaler, a β1 agonist
6. epinephrine, intravenous dose, an alpha-beta agonist
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1. A
2. A (not used as much now for relief of acute symptoms, especially the oral form)
3. A
4. C
5. C
6. B (for the IV form)