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Published byRodger Williams Modified over 9 years ago
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Drugs Affecting Respiratory System
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Antihistamines Drugs that directly compete with histamine for specific receptor sites Two histamine receptors –H 1 (histamine 1 ) –H 2 (histamine 2 )
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Histamine-mediated disorders –Allergic rhinitis (hay fever, mould and dust allergies) –Anaphylaxis –Drug fevers –Insect bite reactions –Urticaria (itching)
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H 1 antagonists are commonly referred to as antihistamines Antihistamines have several properties –Antihistaminic –Anticholinergic –Sedative
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Block action of histamine at the H 1 receptor sites Compete with histamine for binding at unoccupied receptors Cannot push histamine off the receptor if already bound Mechanism of Action
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The binding of H 1 blockers to the histamine receptors prevents the adverse consequences of histamine stimulation Prevent smooth muscle contraction of the bronchial airways Decrease mucus secretion Prevent increase of vascular permeability
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More effective in preventing the actions of histamine rather than reversing them Should be given early in treatment, before all the histamine binds to the receptors
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Indications Nasal allergies Seasonal allergic rhinitis (hay fever) Allergic reactions Motion sickness Sleep disorders Also used to relieve symptoms associated with the common cold such as sneezing, runny nose (Palliative treatment, not curative)
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Side Effects Anticholinergic effects, most common –Dry mouth –Difficulty urinating –Constipation –Changes in vision Drowsiness –Mild drowsiness to deep sleep
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–Diphenhydramine (Benedryl ) –Chlorpheniramine (Piriton) –Promethazine hydrochloride (Phenergan) First generation
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Second generation Loratidine Ceterizine/cetrizine They are much less likely to have side effects of sedation and dry mouth
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Use with caution in increased intraocular pressure, cardiac or renal disease, hypertension, asthma, COPD, peptic ulcer disease
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Decongestants What is nasal congestion? Excessive nasal secretions Inflamed and swollen nasal mucosa Primary causes –Allergies –Upper respiratory infections (common cold)
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Two decongestant forms Oral/systemic Inhaled/topically applied to the nasal membranes
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Topical Nasal Decongestants Adrenergics Intranasal steroids
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Mechanism of Action Adrenergics –Constrict small blood vessels that supply Upper Respiratory Tract structures –As a result these tissues shrink, and nasal secretions in the swollen mucous membranes are better able to drain –Nasal stuffiness is relieved
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Nasal steroids –Anti-inflammatory effect –Work to turn off the immune system cells involved in the inflammatory response –Decreased inflammation results in decreased congestion –Nasal stuffiness is relieved
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Adrenergics –Ephedrine hydrochloride Intranasal steroids –Beclomethasone dipropionate
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Side Effects Adrenergics Steroids Nervousness Local mucosal dryness Insomnia and irritation Palpitations Tremors (systemic effects due to adrenergic stimulation of the heart, blood vessels, and CNS)
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Oral decongestants Not that effective Have unwanted sympathomymetic effects Pseudoephridine
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Antitussives Drugs used to stop or reduce coughing What is cough? Respiratory secretions and foreign objects are naturally removed by the Cough reflex initiated by irritation of sensory receptors in the respiratory tract Productive cough –Congested, removes excessive secretions Nonproductive cough –Dry cough
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Opioids Suppress the cough reflex by direct action on the cough centre in the medulla Examples: –Codeine –Hydrocodone
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Nonopioids Suppress the cough reflex by numbing the stretch receptors in the respiratory tract and preventing the cough reflex from being stimulated Examples: –Dextromethorphan
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Indications Used to stop the cough reflex when the cough is nonproductive and/or harmful
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Expectorants Drugs that aid in the expulsion (removal) of mucus/ bronchial secretions Reduce the viscosity of secretions Disintegrate and thin secretions
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By loosening and thinning sputum and bronchial secretions, the tendency to cough is indirectly diminished Used for the relief of nonproductive coughs
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What happens in ASTHMA ?
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Asthma causes a narrowing of the breathing airways The narrowing that occurs in asthma is caused by three major factors: inflammation, bronchospasm, and hyperreactivity. In inflammation the bronchial tubes become red, irritated, and swollen The muscles around the bronchial tubes tighten during an attack of asthma. This muscle constriction of the airways is called bronchospasm
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In patients with asthma, the chronically inflamed and constricted airways become highly sensitive, or reactive, to triggers such as allergens, irritants, and infections. Exposure to these triggers may result in progressively more inflammation and narrowing and this is called hyperreactivity
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The combination of these three factors results in difficulty with breathing out, or exhaling. As a result, the air needs to be forcefully exhaled to overcome the narrowing, thereby causing the typical "wheezing" sound. People with asthma also frequently "cough" in an attempt to expel the thick mucus plugs.
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Reducing the flow of air may result in less oxygen passing into the bloodstream, and if very severe, carbon dioxide may dangerously accumulate in the blood
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Management of asthma some drugs are given to treat acute asthma exacerbations Some drugs are used as long term maintenance therapy
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Bronchodilators
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Adrenoceptor agonists Antimuscarinic bronchodilators Xanthene derivatives –theophilline Antileukotriene agents/Leukotriene receptor antagonists Cromones
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Adrenoceptor agonists Used during acute phase of asthmatic attacks Quickly reduce airway constriction and restore normal airflow Stimulate beta 2 -adrenergic receptors throughout the lungs
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Selective beta 2 drugs –Stimulate only beta 2 -receptors –Commonly used –Example: salbutamol
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Selective beta2 agonists Salbutamol Terbutaline Salmeterol Formeterol
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Side Effects Tremor Headache Peripheral venous dilatation Palpitations
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Contraindicated: clients with severe cardiac disease
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Antimuscarinic bronchodilators/ Anticholinergics Acetylcholine (ACh) causes bronchial constriction and narrowing of the airways Anticholinergics bind to the ACh receptors, preventing ACh from binding Ex-ipratropium bromide
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Side effects: dry mouth, nausea, constipation, headache
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Montelukast Zafirlukast Antileukotriene agents/Leukotriene receptor antagonists
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Mechanism of Action Leukotrienes are substances released when expose to a trigger, such as cat hair or dust, and starts a series of chemical reactions in the body Leukotrienes cause inflammation, bronchoconstriction, and mucus production Result: coughing, wheezing, shortness of breath
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Antileukotriene agents prevent leukotrienes from attaching to receptors on cells in the lungs and in circulation Inflammation in the lungs is blocked, and asthma symptoms are relieved
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Mast cell stablizers Sodium cromoglicate Mechanism of action is not very clear, but known to affect on inflammatory mediated cells Indicated in prophylaxis of asthma by inhalation
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Preventers
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Corticosteroids Very effective in asthma Mechanism of action : -Enter cells where they combine with steroid receptors in cytoplasm -Inhibit inflammation/reduce synthesis of inflammatory mediators
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Inhalers IN asthmatics inhalers are used to deliver drugs more effectively with minimal side effects Relievers have to be taken when they get worsening of asthma Preventers should be used daily for it to be effective Patients should be clearly educated on this …
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Oxygen Therapy Oxygen therapy is the administration of oxygen as a medical intervention Administration of oxygen at concentrations greater than that in room air ( 21%) to treat or prevent hypoxemia (not enough oxygen in the blood)
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High concentration O 2 therapy Concentrations up to 60% Use in pneumonia and many other conditions
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Low concentration O 2 therapy The concentration should not exceed 28% Used in COPD Improve the hypoxemia with out worsening existing CO 2 retention
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Oxygen can deliver to the respiratory system via nasal canula, tracheostomy and face mask
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