Spirometry
| Spirometry | |
|---|---|
| Medical diagnostics | |
Flow-Volume loop showing successful FVC maneuver. Positive values represent expiration, negative values represent inspiration. At the start of the test both flow and volume are equal to zero (representing the volume in the spirometer rather than the lung). The trace moves clockwise for expiration followed by inspiration. After the starting point the curve rapidly mounts to a peak (the peak expiratory flow). (Note the FEV1 value is arbitrary in this graph and just shown for illustrative purposes; these values must be calculated as part of the procedure).
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| MeSH | D013147 |
| OPS-301 code | 1-712 |
| TLC | Total lung capacity: the volume in the lungs at maximal inflation, the sum of VC and RV. |
|---|---|
| TV | Tidal volume: that volume of air moved into or out of the lungs during quiet breathing (TV indicates a subdivision of the lung; when tidal volume is precisely measured, as in gas exchange calculation, the symbol TV or VT is used.) |
| RV | Residual volume: the volume of air remaining in the lungs after a maximal exhalation |
| ERV | Expiratory reserve volume: the maximal volume of air that can be exhaled from the end-expiratory position |
| IRV | Inspiratory reserve volume: the maximal volume that can be inhaled from the end-inspiratory level |
| IC | Inspiratory capacity: the sum of IRV and TV |
| IVC | Inspiratory vital capacity: the maximum volume of air inhaled from the point of maximum expiration |
| VC | Vital capacity: the volume of air breathed out after the deepest inhalation. |
| VT | Tidal volume: that volume of air moved into or out of the lungs during quiet breathing (VT indicates a subdivision of the lung; when tidal volume is precisely measured, as in gas exchange calculation, the symbol TV or VT is used.) |
| FRC | Functional residual capacity: the volume in the lungs at the end-expiratory position |
| RV/TLC% | Residual volume expressed as percent of TLC |
| VA | Alveolar gas volume |
| VL | Actual volume of the lung including the volume of the conducting airway. |
| FVC | Forced vital capacity: the determination of the vital capacity from a maximally forced expiratory effort |
| FEVt | Forced expiratory volume (time): a generic term indicating the volume of air exhaled under forced conditions in the first t seconds |
| FEV1 | Volume that has been exhaled at the end of the first second of forced expiration |
| FEFx | Forced expiratory flow related to some portion of the FVC curve; modifiers refer to amount of FVC already exhaled |
| FEFmax | The maximum instantaneous flow achieved during a FVC maneuver |
| FIF | Forced inspiratory flow: (Specific measurement of the forced inspiratory curve is denoted by nomenclature analogous to that for the forced expiratory curve. For example, maximum inspiratory flow is denoted FIFmax. Unless otherwise specified, volume qualifiers indicate the volume inspired from RV at the point of measurement.) |
| PEF | Peak expiratory flow: The highest forced expiratory flow measured with a peak flow meter |
| MVV | Maximal voluntary ventilation: volume of air expired in a specified period during repetitive maximal effort |
Spirometry (meaning the measuring of breath) is the most common of the pulmonary function tests (PFTs). It measures lung function, specifically the amount (volume) and/or speed (flow) of air that can be inhaled and exhaled. Spirometry is helpful in assessing breathing patterns that identify conditions such as asthma, pulmonary fibrosis, cystic fibrosis, and COPD. It is also helpful as part of a system of health surveillance, in which breathing patterns are measured over time.
Spirometry generates pneumotachographs, which are charts that plot the volume and flow of air coming in and out of the lungs from one inhalation and one exhalation.
Spirometry is indicated for the following reasons:
Forced expiratory maneuvers may aggravate some medical conditions. Spirometry should not be performed when the individual presents with:
The spirometry test is performed using a device called a spirometer, which comes in several different varieties. Most spirometers display the following graphs, called spirograms:
The basic forced volume vital capacity (FVC) test varies slightly depending on the equipment used.
Generally, the patient is asked to take the deepest breath they can, and then exhale into the sensor as hard as possible, for as long as possible, preferably at least 6 seconds. It is sometimes directly followed by a rapid inhalation (inspiration), in particular when assessing possible upper airway obstruction. Sometimes, the test will be preceded by a period of quiet breathing in and out from the sensor (tidal volume), or the rapid breath in (forced inspiratory part) will come before the forced exhalation.
During the test, soft nose clips may be used to prevent air escaping through the nose. Filter mouthpieces may be used to prevent the spread of microorganisms.
The maneuver is highly dependent on patient cooperation and effort, and is normally repeated at least three times to ensure reproducibility. Since results are dependent on patient cooperation, FVC can only be underestimated, never overestimated.
Due to the patient cooperation required, spirometry can only be used on children old enough to comprehend and follow the instructions given (6 years old or more), and only on patients who are able to understand and follow instructions — thus, this test is not suitable for patients who are unconscious, heavily sedated, or have limitations that would interfere with vigorous respiratory efforts. Other types of lung function tests are available for infants and unconscious persons.
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