Pulmonary

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Created by
Subhi Murad

Cards (276)

  • Tidal volume (TV)

    In/out air with each quiet breath
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  • Expiratory reserve volume (ERV)

    Extra air pushed out with force beyond TV, RV remains in lungs
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  • Inspiratory reserve volume (IRV)

    Extra air can be drawn in with force beyond TV, lungs filled to capacity
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  • Residual volume (RV)

    Air that can't be blown out no matter how hard you try
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  • Total lung capacity

    Sum of all volumes: RV + ERV+ IRV + TV
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  • Inspiratory capacity

    Most air you can inspire: TV + IRV
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  • Forced vital capacity (FVC)

    Most you can exhale: TV + IRV + ERV
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  • Functional residual capacity

    RV plus ERV
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  • Pulmonary function tests must meet criteria for adequate test: sharp peak in flow curve, expiratory duration more than six seconds
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  • Inadequate test should be repeated
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  • Obstructive lung diseases (asthma, COPD)

    • Reduced FEV1 (slow flow out)
    • Reduced FVC (less air out)
    • Reduced FEV1/FVC (hallmark)
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  • Asthma
    Reversible obstruction, ↑ FEV1 with bronchodilators
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  • COPD
    Partial/no change in FEV1 with bronchodilators
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  • Obstructive lung diseases (asthma, COPD)

    • Increased volumes from air trapping: total lung capacity, functional residual capacity, residual volume
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  • Flow volume loops can distinguish obstructive, restrictive, and fixed airway obstruction
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  • Restrictive lung diseases

    • Reduced FEV1 (less air in/out)
    • Reduced FVC (less air in/out)
    • Normal (> 80%) FEV1/FVC (hallmark)
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  • Restrictive lung diseases

    • Reduced volumes: total lung capacity, functional residual capacity, residual volume
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  • DLCO
    Measures ability of lungs to transfer gas, normal = 75–140% predicted, severe disease < 40% predicted
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  • Conditions with low DLCO

    • Interstitial lung disease
    • Emphysema
    • Abnormal vasculature
    • Pulmonary hypertension
    • Pulmonary embolism
    • Prior lung resection
    • Anemia
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  • Asthma
    Reversible bronchoconstriction, usually triggered by allergic stimulus, type I hypersensitivity reaction
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  • Asthma
    • Common in children, associated with other allergic (atopic) conditions: rhinitis, eczema, may have family history of allergic reactions
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  • Asthma symptoms

    Episodic: dyspnea, wheezing, cough, hypoxemia, increased expiratory phase, decreased I/E ratio, reduced peak flow, mucous plugging (airway obstruction/shunt), death: status asthmaticus
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  • Asthma triggers

    • Respiratory infection
    • Allergens (animal dander, dust mites, mold, pollens)
    • Stress
    • Exercise
    • Cold
    • Aspirin
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  • Asthma diagnosis
    Usually classic history/physical exam, improvement with albuterol, reduced FEV1, reduced FEV1/FVC ratio, FEV1 improvement 12% after albuterol
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  • Methacholine challenge

    Muscarinic agonist (similar to acetylcholine) causes bronchoconstriction, administer increasing amounts and look for 20% fall in FEV1
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  • CBC may show increased eosinophils, serum IgE levels may be increased in asthma
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  • Pulsus paradoxus

    Fall in systolic blood pressure > 10 mmHg with inspiration, most frequent non-cardiac causes are asthma/COPD
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  • Asthma medications

    • Short-acting beta-agonist (SABA): albuterol
    • Long-acting beta-agonist (LABA): salmeterol, formoterol
    • Inhaled corticosteroids (ICS)
    • Oral corticosteroids
    • Intravenous corticosteroids
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  • Leukotriene receptor antagonists

    Montelukast (Singulair), useful in aspirin sensitive asthma
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  • Zileuton
    1. lipoxygenase inhibitor, blocks conversion of arachidonic acid to leukotrienes
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  • Omalizumab
    IgG monoclonal antibody, inhibits IgE binding to IgE receptor on mast cells & basophils
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  • Cromolyn
    Inhibits mast cell degranulation, blocks release of histamine, leukotrienes
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  • Asthma treatment

    • Avoidance of triggers
    • Bronchodilators
    • Corticosteroids
    • Leukotriene receptor antagonists
    • Zileuton
    • Omalizumab
    • Cromolyn
    • Theophylline
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  • Asthma acute exacerbations

    Shortness of breath, wheezing, cough, chest tightness, decrease in peak flow from baseline
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  • Asthma acute exacerbation treatment

    • Oxygen
    • Nebulized albuterol
    • IV or oral corticosteroids
    • Rarely used: ipratropium, IV magnesium sulfate
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  • Empiric antibiotics not recommended for asthma exacerbations, contrast with COPD exacerbations
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  • Increased WBC with left shift is a normal response to asthma therapy, does not indicate infection
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  • Asthma severity classification

    • Intermittent
    • Mild persistent
    • Moderate persistent
    • Severe persistent
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  • Intermittent asthma is treated with SABA as needed
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  • Persistent asthma treatment steps

    • Step 2: Add low dose ICS
    • Step 3: Medium ICS or low ICS + LABA
    • Step 4: Medium ICS + LABA
    • Step 5: High ICS + LABA
    • Step 6: High ICS + LABA + Oral Steroids
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