A client diagnosed with allergic rhinitis is prescribed an antihistamine to assist with symptoms. Which of the following medications below would be considered a second-generation antihistamine?
cetirizine (Zyrtec)
chlorpheniramine (Aller-Chlor)
diphenhydramine (Benadryl)
montelukast (Singulair)
The Correct Answer is A
A) Cetirizine (Zyrtec): This medication is classified as a second-generation antihistamine. Second-generation antihistamines are designed to be less sedating than first-generation agents, as they are less likely to cross the blood-brain barrier. Cetirizine effectively alleviates symptoms of allergic rhinitis by blocking histamine receptors and is commonly used due to its efficacy and reduced sedation compared to older antihistamines.
B) Chlorpheniramine (Aller-Chlor): Chlorpheniramine is a first-generation antihistamine. It tends to cause more sedation and has a higher likelihood of causing side effects such as drowsiness, dry mouth, and dizziness. First-generation antihistamines are typically less selective and can affect the central nervous system more significantly than their second-generation counterparts.
C) Diphenhydramine (Benadryl): This medication is also a first-generation antihistamine. It is well-known for its sedative effects and is often used for allergic reactions, as well as for its sleep-inducing properties. Like other first-generation antihistamines, diphenhydramine can cause significant drowsiness and other anticholinergic effects.
D) Montelukast (Singulair): Montelukast is not an antihistamine but rather a leukotriene receptor antagonist. It is used for the management of allergic rhinitis and asthma but works through a different mechanism by blocking leukotriene receptors, thereby reducing inflammation and mucus production. It is not classified as an antihistamine, either first or second generation.
Nursing Test Bank
Naxlex Comprehensive Predictor Exams
Related Questions
Correct Answer is ["A","C"]
Explanation
A) Decongestants: These medications are primarily used to relieve nasal congestion associated with upper respiratory conditions such as allergic rhinitis and the common cold. They work by constricting blood vessels in the nasal passages, thereby reducing swelling and congestion. Common examples include pseudoephedrine and phenylephrine.
B) H2 Antagonist: H2 antagonists are primarily used to reduce gastric acid secretion and treat conditions such as peptic ulcers and gastroesophageal reflux disease (GERD). They are not indicated for upper respiratory conditions, so this option does not apply.
C) H1 Antagonist: H1 antagonists, or antihistamines, are used to alleviate symptoms of allergies, hay fever, and other upper respiratory conditions by blocking the effects of histamine. This class includes both first-generation antihistamines (like diphenhydramine) and second-generation antihistamines (like cetirizine), making them relevant for upper respiratory issues.
D) Long-Acting Beta Agonist (LABA): LABAs are primarily used for the management of asthma and chronic obstructive pulmonary disease (COPD), targeting the lower respiratory tract. They are not typically used for upper respiratory conditions, so this option does not apply.
E) Short Acting Beta Agonist (SABA): SABAs, such as albuterol, are primarily used for acute asthma attacks and bronchospasm in conditions like COPD. They act on the lower respiratory tract and are not indicated for upper respiratory conditions.
F) Mast Cell Stabilizers: These medications are used to prevent allergic reactions and asthma symptoms by stabilizing mast cells and preventing the release of histamine and other inflammatory mediators. While they may have a role in allergic rhinitis, they are not the primary treatment for upper respiratory tract conditions, making this option less applicable compared to decongestants and H1 antagonists.
Correct Answer is D
Explanation
A. Stimulate alpha-adrenergic receptors, thus producing vascular constriction of capillaries in nasal mucosa: This describes the action of decongestants, not guaifenesin. Guaifenesin does not work by constricting blood vessels; rather, its primary function is to help manage mucus production.
B. Compete with histamine for receptor sites, thus preventing a histamine response and overall congestion: This mechanism is associated with antihistamines, which are used to relieve symptoms of allergic reactions, not with guaifenesin. Guaifenesin does not block histamine but focuses on mucus management.
C. Treat allergic rhinitis and prevent motion sickness: While these are common uses for antihistamines, they do not apply to guaifenesin. Guaifenesin is primarily an expectorant and is not indicated for treating allergic rhinitis or motion sickness.
D. Loosen bronchial secretion to assist in elimination: Guaifenesin acts as an expectorant, promoting the clearance of mucus from the airways by loosening bronchial secretions. This facilitates easier expectoration of mucus, helping to relieve chest congestion associated with upper respiratory infections.
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