FEV1/FVC ratio

TLC Total lung capacity: the volume in the lungs at maximal inflation, the sum of VC and RV.
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 VT 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 VT 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

The FEV1/FVC ratio, also called Tiffeneau-Pinelli[1] index, is a calculated ratio used in the diagnosis of obstructive and restrictive lung disease.[2][3] It represents the proportion of a person's vital capacity that they are able to expire in the first second of forced expiration.[4] See the Wikipedia article on spirometry for the definitions of FEV1 and FVC.

Normal values are approximately 80%.[5] Predicted normal values can be calculated online and depend on age, sex, height, mass and ethnicity as well as the research study that they are based upon.

A derived value of FEV1% is FEV1% predicted, which is defined as FEV1% of the patient divided by the average FEV1% in the population for any person of similar age, sex and body composition.

Disease states

In obstructive lung disease, the FEV1 is reduced due to an obstruction of air escaping from the lungs. Thus, the FEV1/FVC ratio will be reduced.[4] More specifically, according to the National Institute for Clinical Excellence, the diagnosis of COPD is made when the FEV1/FVC ratio is less than 0.7 and the FEV1 is less than 80% of predicted,[6] however, other authoritative bodies have different diagnostic cutoff points.[7] The Global Initiative for Obstructive Lung Disease criteria also require that values are after bronchodilator medication has been given to make the diagnosis. According to the European Respiratory Society (ERS) criteria, it is FEV1% predicted that defines when a patient has COPD—that is, when the patient's FEV1% is less than 88% of the predicted value for men, or less than 89% for women.[7]

In restrictive lung disease, the FEV1 and FVC are equally reduced due to fibrosis or other lung pathology (not obstructive pathology). Thus, the FEV1/FVC ratio should be approximately normal, or even increased due to an increased FEV1 value (because of the decreased compliance associated with the presence of fibrosis in some pathological conditions).[4]

References

  1. Minelli R. Appunti dalle lezioni di fisiologia umana. La Goliardica Pavese, Pavia, 1992.
  2. Swanney MP, Ruppel G, Enright PL, et al. (2008). "Using the lower limit of normal for the FEV1/FVC ratio reduces the misclassification of airway obstruction". Thorax 63 (12): 1046–51. doi:10.1136/thx.2008.098483. PMID 18786983.
  3. Sahebjami H, Gartside PS (1996). "Pulmonary function in obese subjects with a normal FEV1/FVC ratio". Chest 110 (6): 1425–9. doi:10.1378/chest.110.6.1425. PMID 8989055.
  4. 1 2 3 Interpreting spirometry. gp-training.net
  5. "Forced Expiration". Johns Hopkins University.
  6. Chronic obstructive pulmonary disease: Management of chronic obstructive pulmonary disease in adults in primary and secondary care (partial update). NICE.org.uk. June 2010
  7. 1 2 Nathell, L.; Nathell, M.; Malmberg, P.; Larsson, K. (2007). "COPD diagnosis related to different guidelines and spirometry techniques". Respiratory research 8 (1): 89. doi:10.1186/1465-9921-8-89. PMC 2217523. PMID 18053200.
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