2023-09-27T17:59:26+03:00[Europe/Moscow] en true <p>d</p>, <p>a</p>, <p>c</p>, <p>b</p>, <p>c</p>, <p>c</p>, <p>albuterol, levalbuterol </p>, <p>salmeterol, formoterol, vilanterol </p>, <p>activates Gs-adenyl cyclase-cAMP pathway causing smooth muscle relaxation &amp; bronchodilation</p>, <p>bronchoconstriction; mucus secretion </p>, <p>competitive antagonist of muscarinic receptors; prevent ACh induced bronchoconstriction and mucus secretion </p>, <p>ipatropium </p>, <p>tiotropium, umeclidinium </p>, <p>inhibits PDE preventing cAMP degradation causing bronchodilation; antagonist of adenosine receptors: prevents bronchoconstriction; histone deacetylation: prevents transcription of inflammatory genes; releases IL-10 causing apoptosis of eosinophils/neutrophils </p>, <p>theophylline, aminophylline, caffeine </p>, <p>d</p>, <p>a</p>, <p>b</p>, <p>b</p>, <p>b</p>, <p>b</p>, <p>d</p>, <p>d</p>, <p>CYP1A2</p>, <p>d</p>, <p>M3</p>, <p>reflex cholinergic respone </p> flashcards
Pharmacology of Asthma (Bronchodilators)

Pharmacology of Asthma (Bronchodilators)

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  • d

    Which receptor promotes bronchodilation & vasodilation?

    a) alpha-1

    b) alpha-2

    c) beta-1

    d) beta-2

  • a

    Which receptor promotes vasoconstriction?

    a) alpha-1

    b) alpha-2

    c) beta-1

    d) beta-2

  • c

    Which receptor increases HR, conduction, and contractility?

    a) alpha-1

    b) alpha-2

    c) beta-1

    d) beta-2

  • b

    Which receptor decreases HR, conduction, and contractility?

    a) M1

    b) M2

    c) M3

  • c

    Which receptor causes bronchoconstriction?

    a) M1

    b) M2

    c) M3

  • c

    Which receptor acts on goblet cells & causes secretion?

    a) M1

    b) M2

    c) M3

  • albuterol, levalbuterol

    What are the Short-Acting Beta Agonist (SABAs)? (2)

  • salmeterol, formoterol, vilanterol

    What are the Long-Acting Beta-Agonists (LABAs)? (3)

  • activates Gs-adenyl cyclase-cAMP pathway causing smooth muscle relaxation & bronchodilation

    B2 agonist MOA?

  • bronchoconstriction; mucus secretion

    Activation of Parasympathetic Nervous system leads to ________ & ________.

  • competitive antagonist of muscarinic receptors; prevent ACh induced bronchoconstriction and mucus secretion

    Anti-Cholinergics MOA?

  • ipatropium

    What is our Short-Acting Muscarinic Antagonist (SAMA)?

  • tiotropium, umeclidinium

    What are our Long-Acting Muscarinic Antagonist (LAMAs)? (2)

  • inhibits PDE preventing cAMP degradation causing bronchodilation; antagonist of adenosine receptors: prevents bronchoconstriction; histone deacetylation: prevents transcription of inflammatory genes; releases IL-10 causing apoptosis of eosinophils/neutrophils

    Methylxanthine MOA? (4)

  • theophylline, aminophylline, caffeine

    What are the Methylxanthines? (3)

  • d

    Which has a DOA > 24h?

    a) levalbuterol

    b) albuterol

    c) salmeterol

    d) Vilanterol

    e) formoterol

  • a

    Which are for acute bronchospasms?

    a) SABAs

    b) LABAs

  • b

    Which are more B2-selective?

    a) SABAs

    b) LABAs

  • b

    Which have to be used in combination with ICS?

    a) SABAs

    b) LABAs

  • b

    Which are more used in COPD?

    a) SABAs

    b) Anti-cholinergics

    c) LABAs

    d) Methylxanthine

    e) LAMAs

  • b

    Which can cause urinary retention & glaucoma?

    a) SABAs

    b) Anti-cholinergics

    c) LABAs

    d) Methylxanthine

    e) LAMAs

  • d

    Which are ONLY used as add-ons?

    a) SABAs

    b) Anti-cholinergics

    c) LABAs

    d) Methylxanthine

    e) LAMAs

  • d

    Which have many DDIs?

    a) SABAs

    b) Anti-cholinergics

    c) LABAs

    d) Methylxanthine

    e) LAMAs

  • CYP1A2

    Methylxanthine is a major ________ substrate.

  • d

    Which can worsen arrhythmias, peptic ulcer disease, & seizure disorders?

    a) SABAs

    b) Anti-cholinergics

    c) LABAs

    d) Methylxanthine

    e) LAMAs

  • M3

    Anti-cholinergics have a high-affinity for _______ receptors.

  • reflex cholinergic respone

    -when inflammatory mediators activate sensory nerves (vagal afferent)

    -causing bronchonconstriction and mucus secretion