PHARMACOLOGY EXAM 2- NURS 3502-STUDY GUIDE
CHAPTER 38 – ANTIHISTAMINES, GLUCOCORTICOIDS, AND RELATED
MEDICATIONS
Advantages of Second-Generation vs First-Generation Antihistamines
Antihistamines are H1 receptor blockers (antagonists) used primarily for treating allergic
rhinitis and common cold symptoms.
H1 receptor stimulation normally causes constriction of extravascular smooth muscle.
o Blocking H1 receptors reduces nasopharyngeal secretions.
H2 receptors, when stimulated, increase gastric acid secretion.
General Effects of H1 Antihistamines
Decrease nasal and respiratory secretions by blocking H1 receptors.
Reduce smooth muscle constriction, including in nasal passages.
Decrease nasal drainage, itching, and sneezing.
Many also have anticholinergic effects, leading to dry mouth and reduced secretions,
which can be helpful in treating allergic rhinitis and cold symptoms.
First-Generation Antihistamines
Example: Diphenhydramine (Benadryl)
Commonly used for allergic rhinitis, insomnia, motion sickness, and allergy-related
symptoms (itching, urticaria, sneezing, cough, common cold).
Side effects:
o Drowsiness (most significant)
o Dry mouth
o Dizziness
o Fatigue
o Impaired coordination
Anticholinergic effects may also include urinary retention, blurred vision, and other
related symptoms.
Contraindications:
o Acute asthma attacks
o COPD
o Liver disease
o Narrow-angle glaucoma
o Use with MAO inhibitors
Avoid use with alcohol, narcotics, hypnotics, or barbiturates due to CNS depression
risk.
Patients should avoid driving or hazardous tasks if sedation occurs.
Many OTC cold medications contain first-generation antihistamines and may cause
sedation.
Second-Generation Antihistamines
Considered non-sedating or minimally sedating.
Preferred over first-generation due to fewer anticholinergic effects and reduced
drowsiness.
Examples:
o Cetirizine (Zyrtec)
, o Fexofenadine (Allegra)
o Loratadine (Claritin)
Azelastine is also included but used less frequently due to a longer half-life.
Available in oral and nasal spray forms.
Advantages:
o Much lower incidence of sedation
o Fewer anticholinergic side effects
o Better tolerated overall
Antihistamines and Asthma Considerations
First-generation antihistamines are contraindicated in patients with asthma and COPD
due to anticholinergic effects.
Antihistamines are not effective for emergencies such as anaphylaxis.
o They are absorbed relatively quickly (about 15 minutes), but are not strong
enough to treat anaphylactic reactions.
Intranasal Glucocorticoids
Used primarily for allergic rhinitis.
Provide anti-inflammatory effects and may be combined with H1 antihistamines.
Route: nasal spray
Examples:
o Fluticasone (Flonase)
o Triamcinolone (Nasacort)
o Beclomethasone
Side Effects and Teaching
Local effects: nasal dryness, irritation, pharyngitis
Rare systemic effects: headache, fatigue, insomnia, candidiasis
Long-term use may dry nasal mucosa.
Rapidly metabolized after absorption.
Should generally be used short term (often less than 30 days) due to seasonal nature
of allergic rhinitis.
Improper use may cause nasal septum perforation.
o Spray should be directed away from the septum.
o Patient should sniff gently during administration.
May be used alone or with antihistamines.
Azelastine (Astelin)
Second-generation antihistamine with non-sedating properties.
Used for allergic rhinitis and itching (pruritus).
Available as oral and nasal spray (typically 1 spray per nostril twice daily).
Long half-life (~22 hours), allowing less frequent dosing.
Can be taken daily.
Side effects:
o Drowsiness
o Headache
o Fatigue
o Confusion
o Blurred vision
o Pharyngitis
, o Dry mouth
o Tachycardia
o Urinary retention
o Palpitations
Guaifenesin (Expectorant) Teaching
Expectorant used for nonproductive cough and cold symptoms.
Works by loosening bronchial secretions to improve cough effectiveness.
Oral administration; may be combined with other medications.
Side effects:
o Nausea
o Vomiting
o Possible dizziness, headache, drowsiness
Patient Teaching
Increase fluid intake (about 8 glasses per day) to improve effectiveness.
Hydration is the most effective natural expectorant.
Example: Guaifenesin (Mucinex)
CHAPTER 39 – RESPIRATORY PHARMACOLOGY
Albuterol: Indications and Use
Sympathomimetic drug that increases cAMP, leading to bronchodilation.
Beta2-adrenergic agonist used for asthma and COPD.
Used for treatment and prevention of bronchospasm.
Causes relaxation of bronchial smooth muscle, improving airflow.
More selective than epinephrine, so fewer side effects.
Administered via inhaler or nebulizer.
Side Effects: Palpitations, Tachycardia, Blood pressure changes, Tremor, Nervousness,
Hyperglycemia, Hypokalemia, Chest pain, Dizziness, headache, weakness, GI upset (nausea,
vomiting)
May reduce potassium levels and increase blood glucose.
Overuse can lead to beta1 effects (increased heart rate, tremor, nervousness).
Possible tolerance development may require dose adjustment.
Drug Interactions
Caution with other sympathomimetics.
Interacts with MAO inhibitors and tricyclic antidepressants.
Levalbuterol may cause fewer side effects than albuterol.
Inhaler Patient Teaching and Order of Administration
Use spacer to improve medication delivery to lungs.
Proper inhaler technique:
o Shake inhaler
o Exhale fully
o Place mouthpiece or hold 1–2 inches away
o Inhale while pressing canister
o Hold breath briefly
o Exhale slowly through pursed lips
o Repeat after 2 minutes if needed
If using multiple inhaled medications:
CHAPTER 38 – ANTIHISTAMINES, GLUCOCORTICOIDS, AND RELATED
MEDICATIONS
Advantages of Second-Generation vs First-Generation Antihistamines
Antihistamines are H1 receptor blockers (antagonists) used primarily for treating allergic
rhinitis and common cold symptoms.
H1 receptor stimulation normally causes constriction of extravascular smooth muscle.
o Blocking H1 receptors reduces nasopharyngeal secretions.
H2 receptors, when stimulated, increase gastric acid secretion.
General Effects of H1 Antihistamines
Decrease nasal and respiratory secretions by blocking H1 receptors.
Reduce smooth muscle constriction, including in nasal passages.
Decrease nasal drainage, itching, and sneezing.
Many also have anticholinergic effects, leading to dry mouth and reduced secretions,
which can be helpful in treating allergic rhinitis and cold symptoms.
First-Generation Antihistamines
Example: Diphenhydramine (Benadryl)
Commonly used for allergic rhinitis, insomnia, motion sickness, and allergy-related
symptoms (itching, urticaria, sneezing, cough, common cold).
Side effects:
o Drowsiness (most significant)
o Dry mouth
o Dizziness
o Fatigue
o Impaired coordination
Anticholinergic effects may also include urinary retention, blurred vision, and other
related symptoms.
Contraindications:
o Acute asthma attacks
o COPD
o Liver disease
o Narrow-angle glaucoma
o Use with MAO inhibitors
Avoid use with alcohol, narcotics, hypnotics, or barbiturates due to CNS depression
risk.
Patients should avoid driving or hazardous tasks if sedation occurs.
Many OTC cold medications contain first-generation antihistamines and may cause
sedation.
Second-Generation Antihistamines
Considered non-sedating or minimally sedating.
Preferred over first-generation due to fewer anticholinergic effects and reduced
drowsiness.
Examples:
o Cetirizine (Zyrtec)
, o Fexofenadine (Allegra)
o Loratadine (Claritin)
Azelastine is also included but used less frequently due to a longer half-life.
Available in oral and nasal spray forms.
Advantages:
o Much lower incidence of sedation
o Fewer anticholinergic side effects
o Better tolerated overall
Antihistamines and Asthma Considerations
First-generation antihistamines are contraindicated in patients with asthma and COPD
due to anticholinergic effects.
Antihistamines are not effective for emergencies such as anaphylaxis.
o They are absorbed relatively quickly (about 15 minutes), but are not strong
enough to treat anaphylactic reactions.
Intranasal Glucocorticoids
Used primarily for allergic rhinitis.
Provide anti-inflammatory effects and may be combined with H1 antihistamines.
Route: nasal spray
Examples:
o Fluticasone (Flonase)
o Triamcinolone (Nasacort)
o Beclomethasone
Side Effects and Teaching
Local effects: nasal dryness, irritation, pharyngitis
Rare systemic effects: headache, fatigue, insomnia, candidiasis
Long-term use may dry nasal mucosa.
Rapidly metabolized after absorption.
Should generally be used short term (often less than 30 days) due to seasonal nature
of allergic rhinitis.
Improper use may cause nasal septum perforation.
o Spray should be directed away from the septum.
o Patient should sniff gently during administration.
May be used alone or with antihistamines.
Azelastine (Astelin)
Second-generation antihistamine with non-sedating properties.
Used for allergic rhinitis and itching (pruritus).
Available as oral and nasal spray (typically 1 spray per nostril twice daily).
Long half-life (~22 hours), allowing less frequent dosing.
Can be taken daily.
Side effects:
o Drowsiness
o Headache
o Fatigue
o Confusion
o Blurred vision
o Pharyngitis
, o Dry mouth
o Tachycardia
o Urinary retention
o Palpitations
Guaifenesin (Expectorant) Teaching
Expectorant used for nonproductive cough and cold symptoms.
Works by loosening bronchial secretions to improve cough effectiveness.
Oral administration; may be combined with other medications.
Side effects:
o Nausea
o Vomiting
o Possible dizziness, headache, drowsiness
Patient Teaching
Increase fluid intake (about 8 glasses per day) to improve effectiveness.
Hydration is the most effective natural expectorant.
Example: Guaifenesin (Mucinex)
CHAPTER 39 – RESPIRATORY PHARMACOLOGY
Albuterol: Indications and Use
Sympathomimetic drug that increases cAMP, leading to bronchodilation.
Beta2-adrenergic agonist used for asthma and COPD.
Used for treatment and prevention of bronchospasm.
Causes relaxation of bronchial smooth muscle, improving airflow.
More selective than epinephrine, so fewer side effects.
Administered via inhaler or nebulizer.
Side Effects: Palpitations, Tachycardia, Blood pressure changes, Tremor, Nervousness,
Hyperglycemia, Hypokalemia, Chest pain, Dizziness, headache, weakness, GI upset (nausea,
vomiting)
May reduce potassium levels and increase blood glucose.
Overuse can lead to beta1 effects (increased heart rate, tremor, nervousness).
Possible tolerance development may require dose adjustment.
Drug Interactions
Caution with other sympathomimetics.
Interacts with MAO inhibitors and tricyclic antidepressants.
Levalbuterol may cause fewer side effects than albuterol.
Inhaler Patient Teaching and Order of Administration
Use spacer to improve medication delivery to lungs.
Proper inhaler technique:
o Shake inhaler
o Exhale fully
o Place mouthpiece or hold 1–2 inches away
o Inhale while pressing canister
o Hold breath briefly
o Exhale slowly through pursed lips
o Repeat after 2 minutes if needed
If using multiple inhaled medications: