Within-breath analysis of respiratory mechanics in asthmatic patients by forced oscillation

Authors

  • Juliana Veiga State University of Rio de Janeiro; Institute of Biology; Biomedical Instrumentation Laboratory and BioVasc Clinical and Experimental Research Laboratory
  • Agnaldo José Lopes State University of Rio de Janeiro; Faculty of Medical Sciences; Pulmonary Function Laboratory
  • José Manoel Jansen State University of Rio de Janeiro; Faculty of Medical Sciences; Pulmonary Function Laboratory
  • Pedro Lopes de Melo State University of Rio de Janeiro; Institute of Biology; Biomedical Instrumentation Laboratory and BioVasc Clinical and Experimental Research Laboratory

DOI:

https://doi.org/10.1590/S1807-59322009000700008

Keywords:

Breathing cycle, Asthma, Forced oscillations, Respiratory impedance, Diagnostic

Abstract

INTRODUCTION: The within-breath analysis of respiratory mechanics by the monofrequency Forced Oscillation Technique (mFOT) is of great interest in both physiopathology studies and the diagnosis of respiratory diseases. However, there are limited data on the use of this technique in the analysis of asthma. This study evaluates within-breath mechanics of asthmatic individuals and the contribution of the mFOT in the asthma diagnosis. METHODS: Twenty-two healthy and twenty-two asthmatic subjects, including patients with mild (n=8), moderate (n=8), and severe (n=6) obstruction, were studied. Forced Oscillation Technique data were interpreted using the mean respiratory impedance (Zt), the impedance during inspiration (Zi), expiration (Ze), at the beginning of inspiration (Zii), and at expiration (Zie). The peakto-peak impedance (Zpp) was also calculated by the subtraction of Zii from Zie. Receiver operating characteristic curves were used to determine the sensitivity (Se) and specificity (Sp) of m Forced Oscillation Technique parameters in identifying asthma. RESULTS: Respiratory impedance values were significantly higher in asthmatics: Zt (p<0.001), Zi (p<0.001), Ze (p<0.001), Zii (p<0.001), Zie (p<0.001), and Zpp (p<0.003). The best parameters for detecting asthma were Zi, Zii, and Zie (Se=90.9%, Sp=90.9%), followed by Zt and Ze. These results are in close agreement with recently published theories and pathophysiological fundamentals. CONCLUSIONS: mFOT permits a non-invasive and detailed analysis in different phases of the respiratory cycle, providing parameters that are adequate for the diagnosis of asthma with high accuracy. These results confirm the high clinical and scientific potential of this methodology in the evaluation of asthmatic patients.

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Published

2009-01-01

Issue

Vol. 64 No. 7 (2009)

Section

Clinical Sciences

How to Cite

Veiga, J., Lopes, A. J., Jansen, J. M., & Melo, P. L. de. (2009). Within-breath analysis of respiratory mechanics in asthmatic patients by forced oscillation . Clinics, 64(7), 649-656. https://doi.org/10.1590/S1807-59322009000700008