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Antiasthma Drugs: Methylxanthines01:24

Antiasthma Drugs: Methylxanthines

Theophylline, a member of the methylxanthine class of bronchodilators, has long been used in asthma management. While its exact mechanism of action is not fully understood, it is believed to have multiple effects on various cellular processes.
Theophylline is thought to inhibit phosphodiesterase enzymes, increasing intracellular levels of cyclic adenosine monophosphate (cAMP) and cyclic guanosine monophosphate (cGMP). This rise in cAMP and cGMP concentrations stimulates cardiac function,...
Upper Respiratory Drugs: Antitussives, Expectorants, and Mucolytics01:23

Upper Respiratory Drugs: Antitussives, Expectorants, and Mucolytics

Respiratory symptoms, such as congestion and cough, commonly accompany respiratory tract conditions. Various medications, such as antitussives, expectorants, and mucolytics, play crucial roles in providing relief.
Antitussives include codeine, dextromethorphan (Robitussin), and benzonatate (Tessalon). Codeine and dextromethorphan exert their effects centrally by suppressing the cough reflex center in the medulla.  Benzonatate operates peripherally within the respiratory tract by anesthetizing...
Drugs Used in Upper Respiratory Disorders: Overview01:16

Drugs Used in Upper Respiratory Disorders: Overview

Upper respiratory tract disorders, including viral infections and allergic rhinitis, cause significant discomfort and disrupt daily life. Managing these conditions involves a variety of drugs, such as antihistamines, intranasal steroids, decongestants, antitussives, expectorants, and mucolytics. Specific examples of drugs in each category are provided.
Antihistamines (e.g., Benadryl) block histamines from binding. Histamines are chemicals released during an allergic reaction in the body. As a...
Drugs Used in Lower Respiratory Disorders: Overview01:17

Drugs Used in Lower Respiratory Disorders: Overview

Lower respiratory tract disorders present challenges that often require skilled and nuanced approaches for effective management. Common ailments, such as asthma and chronic obstructive pulmonary disease (COPD), have prompted the development of intricate treatment strategies involving bronchodilators and anti-inflammatory drugs, each tailored to ease breathing and revitalize the lungs.
Bronchodilators, the first step of respiration enhancement, come in various forms, each with its own mechanism...
Antiasthma Drugs: Muscarinic Receptor Antagonists01:20

Antiasthma Drugs: Muscarinic Receptor Antagonists

Muscarinic receptor antagonists, also known as antimuscarinic agents, are a class of bronchodilators used to treat asthma, although they are more commonly used to treat COPD. They work by inhibiting the action of acetylcholine (ACh), a neurotransmitter, on muscarinic receptors found in the airways.
Antimuscarinic agents compete with ACh for the same binding site on the muscarinic receptors. By binding to these receptors, they inhibit the downstream effects of ACh and block the parasympathetic...
Adrenergic Agonists: Mixed-Action Agents01:28

Adrenergic Agonists: Mixed-Action Agents

Mixed-action adrenergic agonists, like ephedrine and pseudoephedrine, directly and indirectly affect adrenergic receptors. These agents stimulate adrenoceptors and indirectly release stored neurotransmitters, amplifying the adrenergic response.
Ephedrine and pseudoephedrine lack a catecholamine group, making them less susceptible to degradation by metabolic enzymes. They have increased oral bioavailability and lipophilicity, resulting in a longer duration of action. Their response is reduced by...

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Related Experiment Video

Updated: Jun 4, 2026

In vitro Measurements of Tracheal Constriction Using Mice
10:20

In vitro Measurements of Tracheal Constriction Using Mice

Published on: June 25, 2012

Xanthines in respiratory diseases.

J A Mazza

    Canadian Family Physician Medecin De Famille Canadien
    |February 3, 2011
    PubMed
    Summary
    This summary is machine-generated.

    Xanthines, like theophylline, are effective bronchodilators for respiratory conditions. Monitoring blood levels is crucial to minimize toxic side effects and guide safe clinical use.

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    Area of Science:

    • Pharmacology
    • Respiratory Medicine

    Background:

    • Xanthines have been utilized for nearly 50 years to manage bronchospastic conditions.
    • Despite various pharmacological properties, their clinical utility as bronchodilators remains limited.
    • Current uses include intravenous administration for acute asthma and prophylactic treatment for respiratory ailments characterized by bronchospasm.

    Purpose of the Study:

    • To review the clinical applications of xanthines as bronchodilators.
    • To emphasize the importance of therapeutic drug monitoring for xanthine therapy.
    • To discuss the pharmacokinetic considerations and guidelines for xanthine use in specific clinical scenarios.

    Main Methods:

    • Literature review of xanthine pharmacology and clinical use.
    • Discussion of pharmacokinetic principles, including sustained-release formulations and blood level monitoring.
    • Analysis of clinical guidelines for xanthine application in conditions like pulmonary edema and liver failure, and drug interactions.

    Main Results:

    • Sustained-release xanthine preparations achieve stable plasma concentrations.
    • Therapeutic drug monitoring of blood levels is essential for minimizing toxicity.
    • Established pharmacokinetic knowledge allows for comprehensive guidelines in diverse clinical situations.

    Conclusions:

    • Xanthines remain valuable in managing bronchospasm, particularly in acute asthma.
    • Close monitoring of serum theophylline levels is imperative to ensure patient safety.
    • Understanding pharmacokinetics enhances the safe and effective application of xanthines in various clinical contexts.