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Resurrection men and the FEF25-75

2010; Elsevier BV; Volume: 126; Issue: 3 Linguagem: Inglês

10.1016/j.jaci.2010.06.035

1097-6825

E. R. McFadden,

Allergic Rhinitis and Sensitization

The movement of medicine toward a scientific foundation in the late 18th and early 19th centuries had the unexpected effect of creating a cottage industry called “body snatching.” Corpses were disinterred from graveyards, sold to medical schools and private institutions, and recycled for anatomic dissection.1Bailey J.B. The diary of a resurrectionist 1811-1812 (to which are added an account of the resurrection men in London and a short history of the passing of the anatomy act). Swan Sonnenschein & Co, LIM, London1896Google Scholar This process was dubbed “resurrectionism,” and the practitioners were called “resurrection men” because they caused the dead to rise again. In a sense, Simon et al2Simon M.R. Chinchilli V.M. Phillips B.R. Sorkness C.A. Lemanske Jr., R.F. Szefler S.J. et al.FEF25-75 and FEV1/FVC in relation to clinical and physiologic parameters in asthmatic children with normal FEV1 values.J Allergy Clin Immunol. 2010; 126: 527-534Abstract Full Text Full Text PDF PubMed Scopus (128) Google Scholar in the current issue of the Journal are also “resurrection men” who are giving a new purpose to a lung function test long considered dead and buried. The forced expiratory flow at 25% to 75% of forced vital capacity (FEF25-75) was suggested as an index of peripheral airway obstruction almost 40 years ago.3McFadden E.R. Linden D.A. A reduction in maximum mid-expiratory flow rate: a spirographic manifestation of small airway disease.Am J Med. 1972; 52: 725-737Abstract Full Text PDF PubMed Scopus (254) Google Scholar Its rise and fall is a story worth reviewing because it offers both a historical and a modern perspective to the work under discussion. In the spirit of complete disclosure, I need to state that I do not treat children, but given that the relevant physiologic and clinical parameters transcend age, I trust that I will not do substantive damage to the subject matter. Further, because the paramount finding in the work of Simon et al2Simon M.R. Chinchilli V.M. Phillips B.R. Sorkness C.A. Lemanske Jr., R.F. Szefler S.J. et al.FEF25-75 and FEV1/FVC in relation to clinical and physiologic parameters in asthmatic children with normal FEV1 values.J Allergy Clin Immunol. 2010; 126: 527-534Abstract Full Text Full Text PDF PubMed Scopus (128) Google Scholar is the FEF25-75, my remarks will be confined to that parameter. The concept of peripheral airway obstruction and its detection is tightly related to the manner in which the mammalian lung has evolved. The primary purpose of the respiratory system is to provide oxygen to meet metabolic demands and eliminate carbon dioxide to regulate acid-base balance. The sequential branching pattern of the tracheobronchial tree creates a multitude of parallel pathways of slightly smaller daughters at each bifurcation that produce a progressively increasing cross-sectional area.4Horsfeild K. Dart G. Olson D.E. Filley G.F. Cumming G. Models of the human bronchial tree.J Appl Physiol. 1971; 31: 207-217PubMed Google Scholar Ultimately, the combined airway and alveolar surface area reaches an enormous size that is estimated to be between 100 and 150 m2 in an adult. In practical terms, this is about the size of a tennis court. Such a geometric arrangement greatly facilitates efficient air delivery to the alveoli by both convection and diffusion. However, it is easy to appreciate that significant pathology could potentially exist in many peripheral units and not be easily detected by conventional means. This possibility was confirmed in a dog model in 1967, thereby ushering in the concept of peripheral airway disease.5Macklem P.T. Mead J. Resistance of central and peripheral airways measured by a retrograde catheter.J Appl Physiol. 1967; 22: 395-401PubMed Google Scholar In short order, searches began in many laboratories to determine whether this phenomenon also occurred in human beings. The hope was that it was now possible to think of the early detection of a progressive illness like chronic obstructive pulmonary disease at a time when interventions would be most likely to change its natural history. Because all of the regions of the lung fill and empty synchronously,6Otis A.B. McKerrow C.B. Bartlett R.A. Mead J. McIlroy M.B. Selver-Stone N.J. et al.Mechanical factors in distribution of pulmonary ventilation.J Appl Physiol. 1956; 8: 427-443PubMed Google Scholar and because nonuniform distribution of disease in the periphery disrupts this pattern, the diagnostic tack usually taken was to use tests sensitive to respiratory rate such as frequency dependent compliance or resistance.7Woolcock A.J. Vincent N.J. Macklem P.T. Frequency dependence of compliance as a test for obstruction in the small airways.J Clin Invest. 1969; 48: 1097-1106Crossref PubMed Scopus (251) Google Scholar Later, other tests were explored like the distribution of alveolar air, increases in alveolar-arterial gradients for oxygen, and dynamic hyperinflation.8McFadden Jr., E.R. Kiker R. Holmes B. DeGroot W.J. Small airway disease: an assessment of the tests of peripheral airway function.Am J Med. 1974; 57: 171-182Abstract Full Text PDF PubMed Scopus (46) Google Scholar The common denominator underlying all of them was that if the lung units filled and emptied asynchronously, such tests would be abnormal, and the discrepancies would worsen as respiratory frequency rose. This is exactly what was found, and proof of concept was established. For the most part, these early studies investigated smokers and patients with asthma with normal, or near normal, conventional mechanics and deduced that the findings represented peripheral airway obstruction. Although sensitive, these tests were highly invasive, required specialized expertise, and were not suited for clinical use. What was needed was a test that could be widely applied and interpreted and one that patients could easily and reproducibly perform. From a physiologic standpoint, if parts of the lungs were truly emptying sequentially, then flows in the mid to low vital capacity during a forced exhalation might be the tests of choice to meet the need because they would be selectively dominated by the units with the highest resistance and therefore the lowest emptying rates. One of the earliest indices to be examined was the FEF25-75, but variations on this theme like maximum flows at 50% of the vital capacity or flows later in exhalation soon followed. Space constraints prohibit an exhaustive review of a voluminous literature, but suffice it to say that it became apparent this genre of pulmonary testing could demonstrate peripheral airway obstruction under appropriate circumstances. Each test had its proponent, and the requisite academic battles ensued. However, in short order, major limitations that materially compromised utility were encountered in all. Like the tests of frequency-dependent behavior, FEF25-75 and other flows could be used to distinguish the site of obstruction only when standard indices like the FEV1 and airway resistance were normal. If they were not, then the site of obstruction could not be differentiated. Hence, it was not the test per se but the circumstances in which it was used that become critical. This concept was frequently overlooked. Equally importantly, there could be considerable variability from trial to trial, and the normal range was poorly defined. Thus, the issue of what constituted an abnormality was often arbitrarily decided by the investigator. Applicability was now deferred while normal ranges were debated. Finally, there were no epidemiologic data to show whether, or how, the FEF25-75 measured or predicted disease activity over time. Consequently, enthusiasm dimmed and then died. One potential that has never been fully explored is how the FEF25-75 reflects the natural history of asthma and its management. After an acute exacerbation, the FEF25-75 remains depressed long after the FEV1 and specific conductance normalize and takes weeks to resolve.9McFadden Jr., E.R. Kiser R. DeGroot W.J. Acute bronchial asthma: relations between clinical and physiologic manifestations.N Engl J Med. 1973; 288: 221-225Crossref PubMed Scopus (368) Google Scholar It is usually associated with an elevated residual volume, depressed arterial O2 tension, and increased peripheral airway resistance by direct measure.9McFadden Jr., E.R. Kiser R. DeGroot W.J. Acute bronchial asthma: relations between clinical and physiologic manifestations.N Engl J Med. 1973; 288: 221-225Crossref PubMed Scopus (368) Google Scholar, 10Wagner E.M. Liu M.C. Weinmann G.G. Permutt S. Bleecker E.R. Peripheral lung resistance in normal and asthmatic subjects.Am Rev Respir Dis. 1990; 141: 584-588Crossref PubMed Scopus (216) Google Scholar In fact, it and a high residual volume are the most common abnormalities in pulmonary function in cross-sectional studies in asymptomatic adults and children with asthma.11Boulet L.P. Turcotte H. Brochu A. Persistence of airway obstruction and hyperresponsiveness in subjects with asthma remission.Chest. 1993; 105: 1024-1031Crossref Scopus (105) Google Scholar, 12Ferguson A.C. Persisting airway obstruction in asymptomatic children with asthma with normal peak expiratory flow rates.J Allergy Clin Immunol. 1988; 82: 19-22Abstract Full Text PDF PubMed Scopus (101) Google Scholar Thus, it is an intimate part of the disease. The issue has always been what to do with such information, because the waxing and waning of the FEF25-75 does not seem to carry any major clinical changes with it. There are some data that the presence of peripheral obstruction heightens airway reactivity13Cirillo I. Klersy C. Marseglia G.L. Vizzaccaro A. Pallestrini A.E. Mariangela T. et al.Role of FEF25-75 as a predictor of bronchial hyperreactivity in allergic patients.Ann Allergy Asthma Immunol. 2006; 96: 692-700Abstract Full Text PDF PubMed Scopus (46) Google Scholar but none showing that it changes attack frequency or materially alters medication requirements or the quality of life. Here, Simon et al2Simon M.R. Chinchilli V.M. Phillips B.R. Sorkness C.A. Lemanske Jr., R.F. Szefler S.J. et al.FEF25-75 and FEV1/FVC in relation to clinical and physiologic parameters in asthmatic children with normal FEV1 values.J Allergy Clin Immunol. 2010; 126: 527-534Abstract Full Text Full Text PDF PubMed Scopus (128) Google Scholar offer some help, albeit indirectly. Although their study is a retrospective analysis of published data, their elegant statistics show that an FEF25-75 of 65% of predicted or less has a 90% sensitivity and a 67% specificity of predicting a bronchodilator response to albuterol. This is believed to be important because the latter implies suboptimal asthma control. By inference, then, the FEF25-75 could possibly become a surrogate to assess the overall therapeutic effectiveness of a given regimen. If the FEF25-75 is low, patients need more medication for complete control. As interesting as this possibility is, however, it should be pointed out that consistent bronchodilator responsiveness and therefore poor clinical outcomes is a relatively uncommon phenomenon and for example was seen in just 5% of the children in the Childhood Asthma Management Program.14Sharma S. Litonjua A.A. Tantisira K.G. Fuhlbrigge A.L. Szefler S.J. Strunk R.C. et al.clinical predictors and outcomes of consistent bronchodilator response in the childhood asthma management program.J Allergy Clin Immunol. 2008; 122: 921-928Abstract Full Text Full Text PDF PubMed Scopus (61) Google Scholar Once again, specific applicability may not be as widespread as wished. As Simon et al2Simon M.R. Chinchilli V.M. Phillips B.R. Sorkness C.A. Lemanske Jr., R.F. Szefler S.J. et al.FEF25-75 and FEV1/FVC in relation to clinical and physiologic parameters in asthmatic children with normal FEV1 values.J Allergy Clin Immunol. 2010; 126: 527-534Abstract Full Text Full Text PDF PubMed Scopus (128) Google Scholar point out, long-term studies will be required to reach definitive conclusions about the ultimate clinical utility of the FEF25-75 in asthma management. As with the dissection of corpses without the benefit of refrigeration, “resurrection” can be short-lived. Let us hope that this is not the case here. Forced expiratory flow between 25% and 75% of vital capacity and FEV1/forced vital capacity ratio in relation to clinical and physiological parameters in asthmatic children with normal FEV1 valuesJournal of Allergy and Clinical ImmunologyVol. 126Issue 3PreviewThe assumption that the assessment of forced expiratory flow between 25% and 75% of vital capacity (FEF25-75) does not provide additional information in asthmatic children with normal FEV1 percent predicted has not been adequately tested. Full-Text PDF