Physiology Textbooks Boundless Anatomy and Physiology Respiratory System Nonrespiratory Lung Functions
Physiology Textbooks Boundless Anatomy and Physiology Respiratory System
Physiology Textbooks Boundless Anatomy and Physiology
Physiology Textbooks
Physiology
Concept Version 12
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Lung Capacity and Volume

Lung volumes and capacities refer to phases of the respiratory cycle; lung volumes are directly measured while capacities are inferred.

Learning Objective

  • Differentiate among tidal volume, inspiratory reserve volume, expiratory reserve volume, and vital capacity of lungs

Key Points

    • Lung Capacity is a measure of lung volume inferred from the exhaled during the various cycles of breathing.
    • There is residual air leftover in the lungs during normal breathing.
    • Vital Capacity is used to diagnose restrictive diseases, while FEV1/FVC ratio is used to diagnose obstructive diseases.
    • FEV1/FVC ratio declines as someone ages, but declines faster in those who smoke due to damage caused by smoking.

Terms

  • FEV1/FVC ratio

    The ratio between forced expiratory volume and forced vital capacity, which is used to measure the level of obstruction in the lungs.

  • vital capacity

    The maximum volume of air that can be discharged from the lungs following maximum inspiration.

Examples

    • Pulmonary Function Tests (PFTs) may be used to help diagnose different pulmonary diseases. The two most often used measurements are FVC (forced vital capacity) and FEV1 (forced expiratory volume in one second). An FEV1/FVC ratio of >80% indicates a restrictive lung disease like pulmonary fibrosis or infant respiratory distress syndrome. An FEV1/FVC ration of <70% indicates an obstructive lung disease like asthma or COPD.
    • Restrictive Lung Diseases: volumes are are decreased.
    • 1)pulmonary fibrosis
    • 2)infant respiratory distress syndrome
    • Obstructive Lung Diseases: volumes are essentially normal but flow rates are decreased
    • 1) asthma
    • 2) COPD

Full Text

Lung Capacity

Capacity of the lungs generally refers to the total amount of volume of air inside the lungs at certain phases of the respiratory cycle. It is usually measured as the amount of air that is exhaled after the inhalation of interest, which is measured with a device called a spirometer. There are many different types and terms for the different components of lung capacity that all have different characteristics. In general, measuring lung capacity is important because it serves as potentially the best indicator of lung health through quantifying the functional ability of the lungs to cycle air.

Vital Capacity

Vital Capacity (VC) is the maximum amount of air that a person can exhale after inhaling as much air as possible. It is also the sum of tidal volume and the inspiratory and expiratory reserve volumes, which capture the differences between normal breathing and maximal breathing. The inspiratory reserve volume is the extra space for air after a normal inspiration and the expiratory reserve volume is the extra air that can be exhalaed after a normal expiration. VC tends to be decreased in those with restrictive lung diseases, such as pulmonary fibrosis, making VC a good diagnostic indicator of restrictive lung diseases. It is not very reduced in those with obstructive lung diseases.

Other important lung volumes related to lung capacity are residual volume (RV) and total lung capacity (TLC).

  • RV: The amount of air left in the lungs after a maximal expiration.
  • TLC: The volume of the lungs at maximal inflation, which is the sum of VC and RV.

FEV1/FVC Ratio

The most widely used diagnostic application for lung capacities is the ratio between forced expiratory volume (FEV1) and forced vital capacity (FVC).

  • FEV1: The volume of air exhaled in one second of forced expiration.
  • FVC: The total volume exhaled air during a forced expiration.

The FEV1/FVC ratio is an important indicator of lung health and is the standard approach for diagnosing COPD (Chronic Pulmonary Obstructive Disease), which includes emphysema, and bronchitis, which are both caused by smoking. An FEV1/FVC ratio that is greater than .8 indicates a normal lung with generally healthy function, however a ratio below .8 indicates a significant degree of airway obstruction to suggest COPD. The obstruction becomes worse the lower the ratio becomes, which increases the likelihood of respiratory failure and death . The FEV1/FVC ratio naturally falls as humans age, however smoking (the cause of COPD) will cause much larger decreases in FEV1/FVC ratio than what is normal. Smoking causes this damage by initiating an inflammatory response in the lungs. Those that quit smoking will not experience a regain the FEV1/FVC ratio lost from smoking, however their rate of FEV1/FVC ratio decline will slow to normal, and their life expectancy will be less impacted.

Those with asthma, an acute form obstructive lung disease, will show a low FEV1/FVC ratio during an asthma attack, which returns to normal after the attack is over. Therefore to diagnose asthma, many clinicians expose patients to methacholine or histamine to trigger mild asthma attacks to measure FEV1/FVC ratios.

Lung Capacity

Lung capacity at the various stages of the respiratory cycle

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