Concordancia entre los valores de referencia para la espirometría recomendados por las sociedades neumológicas española y europea

Díez Herranz, A.

doi:10.1016/S0300-2896(15)30707-9

Archivos de Bronconeumología

ISSN: 0300-2896

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Vol. 32. Issue 9.

Pages 459-462 (November 1996)

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Pages 459-462 (November 1996)

DOI: 10.1016/S0300-2896(15)30707-9

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Concordancia entre los valores de referencia para la espirometría recomendados por las sociedades neumológicas española y europea

Agreement between European and Spanish spirometric reference values

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A. Díez Herranz*

Unidad de Neumología. Gabinete Médico Paracelso. Valladolid

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Abstract

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Los objetivos de este estudio han sido verificar si los valores de referencia (VR) para la espirometría recomendados por la Sociedad Española de Neumología y Cirugía Torácica (SEPAR) y la European Respiratory Society (ERS) son equivalentes, y si la interpretación de las espirometrías de acuerdo a estos VR permite obtener las mismas conclusiones.

Se trata de un estudio retrospectivo de 3.690 espirometrías (2.468 varones y 1.222 mujeres, de edades comprendidas entre 20-70 años), recogiendo FVC, FEV1 y FEV1/FVC. Se ha analizado la concordancia en dos vertientes, cuantitativa (diferencia entre los VR obtenidos por ambos conjuntos de ecuaciones de predicción) y cualitativa (concordancia entre la clasificación de las espirometrías utilizando ambos conjuntos de VR, por el método de los residuos estandarizados, para FVC [defecto ventilatorio no obstructivo] y FEV1/FVC [defecto ventilatorio obstructivo], mediante el cálculo del estadístico κ).

La diferencia entre el VR de FVC estimado por ambos conjuntos de ecuaciones es de -0,544 1, de -0,185 1 para FEV1, y de 2,36% para FEV1/FVC. En todos los casos los límites de acuerdo no son aceptables, y existe sesgo significativo. Para la clasificación de los pacientes por FVC, se obtiene un valor de κ del 50,03%, y según FEV1/FVC κ = 93,66%. En ambos casos existe sesgo.

Los VR recomendados por la SEPAR no son equivalentes a los de la ERS. Esto debería ser considerado por los fabricantes y distribuidores de equipos de análisis de función pulmonar, quienes deberían posibilitar que cada laboratorio utilizara los valores de referencia más adecuados a las características del equipo utilizado y de la población estudiada.

Palabras clave:

Espirometría

Valores de referencia

Ecuaciones de predicción

To determine whether spirometrie reference values (RV) recommended by the Spanish Society of Pneumology and Thoracic Surgery (SEPAR) and the European Respiratory Society (ERS) are equivalent, and if the interpretation of these two RV leads to the same conclusions.

A retrospective study of 3,690 spirometrie readings (from 2,468 men and 1,222 women, ranging in age from 20 to 70 years old) of FVC, FEV1 and FEV1/FVC. Both quantitative (difference between RV obtained using the two sets of predictive equations) and qualitative (agreement of spirometrie classifications using the two RV systems, by the method of standardized residuals, for FVC [non obstructive ventilatory defect] and FEV1/FVC [obstructive ventilatory defect], by calculating the κ value).

The difference in RV estimated by the two sets of equations is -0.544 1 for FVC, -0.185 1 for FEV1 and 2.36% for FEV1/FVC. In each case the agreement limits are not acceptable and bias is significant. Classifying patients by FVC, κ was 50.03%. Classifying by FEV1/FVC, κ was 93.66%. Bias is present for both parameters.

The RV of SEPAR and ERS are not equivalent and this should be taken into consideration by manufacturers and distributors of equipment for lung function analysis. Each laboratory should be able to apply the RV most appropriate to the characteristics of the equipment used and the population studied.

Key words:

Spirometry

Reference values

Predictive equations

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Bibliografía

[1.]

P. Harber.

Value based interpretation of pulmonary function tests.

Chest, 88 (1985), pp. 874-877

Medline

[2.]

M.A. Grippi, L.F. Metzger, A.V. Krupinsky, A.P. Fishman.

Pulmonary function testing.

Pulmonary diseases and disorders, pp. 2.469-2.521

[3.]

American Thoracic Society.

Lung function testing: selection of reference values and interpretative strategies, 144 (1991), pp. 1.202-1.218

http://dx.doi.org/10.1164/ajrccm/144.6.1342 | Medline

[4.]

American College of Chest Physicians.

Statement on spirometry. A report of the section on respiratory pathophysiology, 83 (1983), pp. 547-550

Medline

[5.]

B. Burrows, R.J. Knudson, L.J. Kettel.

Lung function testing.

Respiratory insufficiency, pp. 165-168

[6.]

SEPAR.

Normativa para la espirometría forzada.

Ediciones Doyma, S.A, (1986),

[7.]

Ph.H. Quanjer, G.J. Tammeling, J.E. Cotes, O.F. Pedersen, R. Peslin, J.-C. Yernault.

Standardized lung function testing.

Lung volumes and forced ventilatory flows. Official statement of the European Respiratory Society. Eur Respir J, 6 (1993), pp. 5-40

[8.]

B.J. Sobol.

The early detection of airway obstruction: another perspective.

Am J Med, 60 (1976), pp. 619-624

Medline

[9.]

B.E. Pennock, J.J. Cottrell, R.M. Rogers.

Pulmonary function testing.

What is “normar”?. Arch Intern Med, 143 (1983), pp. 2.123-2.127

[10.]

J. Roca.

Aplicaciones clínicas de las pruebas de función pulmonar.

Enfermedades respiratorias. Utilidad del laboratorio, pp. 171-190

[11.]

J.M. Bland, D.G. Altman.

Statistical methods for assessing agreement between two methods of clinical measurement.

Lancet, 1 (1986), pp. 307-310

Medline

[12.]

P. Brennan, A. Silman.

Statistical methods for assessing observer variability in clinical measures.

Br Med J, 304 (1992), pp. 1.491-1.494

[13.]

M.S. Kramer, A.R. Feinstein.

Clinical biostatistics.

LIV. The biostatistics of concordance. Clin Pharmacol Ther, 29 (1981), pp. 111-123

[14.]

I. Hernández Aguado, M. Porta Serra, M. Miralles, F. García Benavides, F. Bolúmar.

La cuantificación de la variabilidad en las observaciones clínicas.

Med Clin (Barc), 95 (1990), pp. 424-429

[15.]

P. Harber, R. Schnur, J. Emery, S. Brooks, Y. Ploy-Song-Sang.

Statistical “biases” in respiratory disability determinations.

Am Rev Respir Dis, 128 (1983), pp. 413-418

Medline

[16.]

M.R. Becklake.

Concepts of normality applied to the measurement of lung function.

Am J Med, 80 (1986), pp. 1.158-1.164

Medline

[17.]

J.E. Cotes.

Lung function throughout life: determinants and reference values.

Lung function. Assessment and application in medicine, pp. 445-513

[18.]

A. Díez Herranz, M. Tobal Gonzalez.

La interpretación de la espirometría: ¿dónde nos encontramos?.

Arch Bronconeumol, 9 (1996), pp. 475-482

[19.]

J.A. Biescas, M. Tuñón de Lara.

España bajo la dictadura franquista.

Editorial Labor, S.A, (1983), pp. 75-81

[20.]

J. Castellsagué, F. Burgos, J. Roca, J. Sunyer, J.A. Barbera, M.A. Felez, et al.

Validation of a set of prediction equations for forced spirometry in a random selected sample of the general population of Barcelona.

Eur Respir J, 5 (1992), pp. 409S

[21.]

P.J. Cordero, P. Morales, E. Benlloch, L. Miravet, J. Cebrián.

Spirometric studies in normal subjects.

Reference values for adults of Spanish descent. Eur Respir J, 8 (1995), pp. 436S

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