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Drugs to Treat Respiratory Disorders

Drugs to Treat Respiratory Disorders. Bronchoconstriction. Result from release ACH, histamine and inflammatory mediators Vagus nerve releases ACH ACH triggers release of pulmonary secretions Treated with sympathomimetics. Chronic Inflammation. Prolonged exposure to airway irritants

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Drugs to Treat Respiratory Disorders

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  1. Drugs to Treat Respiratory Disorders

  2. Bronchoconstriction • Result from release ACH, histamine and inflammatory mediators • Vagus nerve releases ACH • ACH triggers release of pulmonary secretions • Treated with sympathomimetics

  3. Chronic Inflammation • Prolonged exposure to airway irritants • Inflammation causes same factors contributing to bronchoconstriction • (e.g. histamine, cytokines) • Treated with corticosteroids • Side effects and expensive

  4. Loss of Lung Elasticity • Lung tissue typically elastic • Conditions such as smoking cause loss of the tissue contributing to elasticity • Can collapse, lose compliance or become chronically inflamed

  5. Reactive Airway Disease (Asthma)

  6. Chronic Obstructive Pulmonary Disease (COPD)

  7. Asthma Drugs

  8. Common Diseases Affecting the Respiratory Tract • Chronic bronchitis – condition caused by chronic respiratory irritation, inflammation, and characterized by increased secretions and infection • Emphysema – disease characterized by destruction of alveoli, labored respiratory gas exchange, and shortness of breath • Asthma – inflammatory disease of the respiratory passageways characterized by bronchoconstriction and shortness of breath

  9. Inflammatory Mediators of the Respiratory Tract • Histamine • Eosinophilic chemotactic factor of anaphylaxis (ECF-A) • Prostaglandins and leukotrienes • Slow-reacting substance of anaphylaxis (SRS-A)

  10. Autonomic Control of the Respiratory Tract • Bronchiolar smooth muscle is relaxed by beta-2 adrenergic receptor stimulation • Bronchiolar smooth muscle is contracted by cholinergic receptor stimulation • Respiratory secretions are increased by cholinergic stimulation • Drugs that increase intracellular levels of cyclic AMP produce bronchodilation

  11. Bronchodilator Drugs • Sympathomimetics – drugs that stimulate beta-2 adrenergic receptors • Xanthine derivatives – theophylline • Parasympatholytics – drugs that block cholinergic receptors (anticholinergic drugs)

  12. Beta Adrenergic Drugs • Epinephrine and isoproterenol are nonselective beta-1 and beta-2 agonists • Albuterol, terbutaline, and salmeterol are selective beta-2 agonists that do not cause excessive cardiac stimulation • Selective beta-2 drugs are preferred for the control of asthma • Epinephrine SC is the drug of choice to treat an acute attack of asthma

  13. Theophylline • Increases cyclic AMP levels to cause bronchodilation and inhibition of chemical mediator release from mast cells • Theophylline is usually administered orally • In COPD theophylline decreases secretions and stimulates respiration • Overdosage produces cardiac and CNS stimulation, and may cause seizures

  14. Anticholinergic Drugs • Ipratropium bromide is the only drug currently available • By blocking cholinergic receptors ipratropium produces bronchodilation and decreased respiratory secretions • The drug is administered by oral inhalation

  15. Corticosteroids • Adrenal gland hormone derivatives used in inflammatory and allergic conditions • Administered orally or parenterally in acute asthmatic and inflammatory diseases • Administered by oral inhalation for the chronic control of asthma and related inflammatory conditions • Inhalation limits systemic toxicity

  16. Leukotriene Inhibitors • Antiinflammatory drugs that interfere with the inflammatory actions of the leukotrienes • Zafirukast and montelukast block leukotriene receptors • Zileutron blocks the enzyme required for the formation of leukotrienes • Drugs are indicated for the chronic treatment and control of asthma

  17. Antiallergic Drugs • Cromolyn and nedocromil inhibit the antigen-antibody reaction on mast cells that triggers allergic reactions • Administration is by oral inhalation • Drugs are used on a daily basis and are intended to prevent or decrease allergic reactions • Several weeks are usually required for the full therapeutic effect

  18. Mucolytics • Mucolytics are intended to break apart and liquefy thick respiratory secretions to facilitate easier removal • Acetylcysteine is the most widely used mucolytic and is inhaled by nebulization • Administration is usually followed by postural drainage and tracheal suction

  19. Antihistamines

  20. Clinical Indication ofAntihistaminic Drugs Prevent or interrupt the symptoms of seasonal allergy, rhinitis, cold or flu Acute allergic reactions-urticaria, hay fever, insect bites, rhinitis and dermatitis Adjunct medication pre-, post-anesthesia To induce sedation, minimize irritability Active ingredient in cough/cold preparationsTo induce sedation, dry secretions

  21. Clinical Indication ofAntiallergic Drugs Prevent the symptoms of • severe bronchial asthma • exercise-induced bronchospasm • allergic rhinitis • mastocytosis

  22. Types of Drugs in this Class Antihistamines chlorpheniramine (Chlor-Trimeton), diphenhydramine (Benadryl), fexofenadine (Allegra), loratidine (Claritin), desloratidine (Clarinex) Antiallergics cromolyn sodium (Intal)

  23. Action of Histamine Histamine interacts with two types of histamin receptors • H1 receptors: Produceblood pressure decrease hypotension blood vessels dilate headache capillaries skin dilate, leak redness, itching, edemabronchioles constriction breathing difficulty intestines contraction constipationurinary sphincter constriction urine retention • H2heart increase heart rate tachycardia conduction impaired dysrhythmia stomach acid secretion heart burn

  24. Histamine Histamine is naturally found in the body within mast cells or basophils. Mast cells are found predominately in the lungs, gastrointestinal tract, circulatory system Environmental, bacterial or viral proteins (allergens) attach to mast cells membranes and cause histamine release The greater the allergen challenge, the greater the histamine release

  25. Mechanism of Action Antihistamines block the physiological effects of histamine by selectively acting on receptors to prevent histamine from stimulating the receptor and inducing the common effects observed during an allergic reaction: Redness, edema, itching Allergy headache Breathing difficulty

  26. Pharmacological Effects The pharmacological effects of antihistamines are the result of blocking the physiological effects of histamine (histamine antagonists) and occupying acetylcholine receptors to inhibit the action of acetylcholine (anticholinergic)

  27. Antihistamine Adverse Effects • Drowsiness • Mental confusion • Sedation • Dry mouth • Anorexia • Epigastric distress • Hypotension • Tachycardia • Urinary retention • Dysrhythmias

  28. Antiallergic Drugs Antiallergic drugs inhibit the physiolgical effects of histamine by attaching to mast cell membranes and inhibiting the release of histamine Antiallergic drugs have no effect on the histamine receptors and have the best results before large amounts of histamine have been released (prophylactic)

  29. Cautions and Contraindications Because of their anticholinergic activity, antihistamines should be used with caution in patients with: • Cardiovascular disease • Hypertension • Increased intraocular pressure • Urinary retention • Stenosing peptic ulcer • A history of sensitivity to this class • CNS depression Used with caution in elderly patients Not used by nursing mothers, dehydrated children

  30. Drug Interactions Increase drowsiness of antihistamines • CNS depressants- sedatives, tranquilizers, alcohol Elevate plasma levels of antihistamines • Macrolide antibiotics- erythromycin, clarithromycin, troleandomycin • Antifungal drugs

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