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Acoustic biomechanical relationships of human forced exhalation in bronchial obstruction

A statistically significant bidirectional influence of the incidence and degree of bronchial obstruction on the acoustic parameters of forced expiration and the spirometry/body plethysmography indicators of lung function has been revealed by means of nonparametric analysis of variance in a sample of...

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Published in:	Human physiology 2016-07, Vol.42 (4), p.421-424
Main Authors:	Korenbaum, V. I., Pochekutova, I. A., Malaeva, V. V., Kostiv, A. E.
Format:	Article
Language:	English
Subjects:	Acoustics Biomedical and Life Sciences Biomedicine Human Physiology Life Sciences Respiratory function Statistical analysis
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description	A statistically significant bidirectional influence of the incidence and degree of bronchial obstruction on the acoustic parameters of forced expiration and the spirometry/body plethysmography indicators of lung function has been revealed by means of nonparametric analysis of variance in a sample of 218 subjects. It has been shown that the acoustic band pass times and energies of forced expiratory tracheal noises coordinate with both tidal resistance and residual volume.
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subjects	Acoustics Biomedical and Life Sciences Biomedicine Human Physiology Life Sciences Respiratory function Statistical analysis
title	Acoustic biomechanical relationships of human forced exhalation in bronchial obstruction
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