Lung sounds during allergen-induced asthmatic responses in patients with asthma

H. J. Schreur; Z. Diamant; J. Vanderschoot; A. H. Zwinderman; J. H. Dijkman; P. J. Sterk

doi:https://doi.org/10.1164/ajrccm.153.5.8630589

Lung sounds during allergen-induced asthmatic responses in patients with asthma

H. J. Schreur, Z. Diamant, J. Vanderschoot, A. H. Zwinderman, J. H. Dijkman, P. J. Sterk

Other Departments

Research output: Contribution to journal › Article › Academic › peer-review

29 Citations (Scopus)

Abstract

We postulated that the distinct pathophysiologic mechanisms of airway narrowing during the early (EAR) and the late (LAR) asthmatic responses to inhaled allergens are reflected by the generation or transmission of lung sounds in asthma. Therefore, we measured FEV1 and recorded lung sounds in eight mildly asthmatic subjects before a standardized allergen challenge (PRE), during the EAR, during the recovery phase at 2 h (MID), during the LAR at 7 h, and after inhalation of a bronchodilator (POST). The recordings were made during flow- and volume-standardized quiet breathing, and during maximal forced breathing maneuvers. Airflow-dependent power spectra were analyzed for lung sound intensity (LSI), quartile power points (Q25, Q50, Q75), and extent of wheezing (W). These sound characteristics were compared among the various stages of the challenge in the presence (EAR, LAR) and absence (PRE, MID, POST) of acute airway obstruction using ANOVA. LSI, Q25 - Q75, and W were all elevated during airway obstruction. When matched for percent fall in FEV1, during the EAR and the LAR (mean +/- SD: 26.7 +/- 4.0, and 28.9 +/- 5.7, respectively; p = 0.385), the increase in Q25, and Q50 with airflow during quiet expiration, as well as the extent of wheezing, were higher during the LAR than during the EAR (p <or = 0.042 and p <or = 0.012, respectively). At similar levels of FEV1 (p > or = 0.156), LSI on expiration was higher at POST than at PRE or MID (p <or = 0.067), whereas Q25 (p <or = 0.047) and Q50 (p <or = 0.064) were lower at POST than at PRE. During forced expiration W was higher at MID and POST than at PRE (p <or = 0.014). We conclude that LSI, frequency content, and the extent of wheezing vary during the subsequent stages of allergen-induced bronchoconstriction in asthma despite matched values of FEV1. This suggests that airflow-standardized phonopneumography is a sensitive method for detecting differences in the pathophysiology of airway narrowing in asthma

Original language	English
Pages (from-to)	1474-1480
Journal	American journal of respiratory and critical care medicine
Volume	153
Issue number	5
DOIs	https://doi.org/10.1164/ajrccm.153.5.8630589
Publication status	Published - 1996

Access to Document

https://doi.org/10.1164/ajrccm.153.5.8630589

Cite this

@article{f2ddce1cce1f4859bf90c29dc6972b75,

title = "Lung sounds during allergen-induced asthmatic responses in patients with asthma",

abstract = "We postulated that the distinct pathophysiologic mechanisms of airway narrowing during the early (EAR) and the late (LAR) asthmatic responses to inhaled allergens are reflected by the generation or transmission of lung sounds in asthma. Therefore, we measured FEV1 and recorded lung sounds in eight mildly asthmatic subjects before a standardized allergen challenge (PRE), during the EAR, during the recovery phase at 2 h (MID), during the LAR at 7 h, and after inhalation of a bronchodilator (POST). The recordings were made during flow- and volume-standardized quiet breathing, and during maximal forced breathing maneuvers. Airflow-dependent power spectra were analyzed for lung sound intensity (LSI), quartile power points (Q25, Q50, Q75), and extent of wheezing (W). These sound characteristics were compared among the various stages of the challenge in the presence (EAR, LAR) and absence (PRE, MID, POST) of acute airway obstruction using ANOVA. LSI, Q25 - Q75, and W were all elevated during airway obstruction. When matched for percent fall in FEV1, during the EAR and the LAR (mean +/- SD: 26.7 +/- 4.0, and 28.9 +/- 5.7, respectively; p = 0.385), the increase in Q25, and Q50 with airflow during quiet expiration, as well as the extent of wheezing, were higher during the LAR than during the EAR (p or = 0.156), LSI on expiration was higher at POST than at PRE or MID (p <or = 0.067), whereas Q25 (p <or = 0.047) and Q50 (p <or = 0.064) were lower at POST than at PRE. During forced expiration W was higher at MID and POST than at PRE (p <or = 0.014). We conclude that LSI, frequency content, and the extent of wheezing vary during the subsequent stages of allergen-induced bronchoconstriction in asthma despite matched values of FEV1. This suggests that airflow-standardized phonopneumography is a sensitive method for detecting differences in the pathophysiology of airway narrowing in asthma",

author = "Schreur, {H. J.} and Z. Diamant and J. Vanderschoot and Zwinderman, {A. H.} and Dijkman, {J. H.} and Sterk, {P. J.}",

year = "1996",

doi = "https://doi.org/10.1164/ajrccm.153.5.8630589",

language = "English",

volume = "153",

pages = "1474--1480",

journal = "American journal of respiratory and critical care medicine",

issn = "1073-449X",

publisher = "American Thoracic Society",

number = "5",

}

TY - JOUR

T1 - Lung sounds during allergen-induced asthmatic responses in patients with asthma

AU - Schreur, H. J.

AU - Diamant, Z.

AU - Vanderschoot, J.

AU - Zwinderman, A. H.

AU - Dijkman, J. H.

AU - Sterk, P. J.

PY - 1996

Y1 - 1996

N2 - We postulated that the distinct pathophysiologic mechanisms of airway narrowing during the early (EAR) and the late (LAR) asthmatic responses to inhaled allergens are reflected by the generation or transmission of lung sounds in asthma. Therefore, we measured FEV1 and recorded lung sounds in eight mildly asthmatic subjects before a standardized allergen challenge (PRE), during the EAR, during the recovery phase at 2 h (MID), during the LAR at 7 h, and after inhalation of a bronchodilator (POST). The recordings were made during flow- and volume-standardized quiet breathing, and during maximal forced breathing maneuvers. Airflow-dependent power spectra were analyzed for lung sound intensity (LSI), quartile power points (Q25, Q50, Q75), and extent of wheezing (W). These sound characteristics were compared among the various stages of the challenge in the presence (EAR, LAR) and absence (PRE, MID, POST) of acute airway obstruction using ANOVA. LSI, Q25 - Q75, and W were all elevated during airway obstruction. When matched for percent fall in FEV1, during the EAR and the LAR (mean +/- SD: 26.7 +/- 4.0, and 28.9 +/- 5.7, respectively; p = 0.385), the increase in Q25, and Q50 with airflow during quiet expiration, as well as the extent of wheezing, were higher during the LAR than during the EAR (p or = 0.156), LSI on expiration was higher at POST than at PRE or MID (p <or = 0.067), whereas Q25 (p <or = 0.047) and Q50 (p <or = 0.064) were lower at POST than at PRE. During forced expiration W was higher at MID and POST than at PRE (p <or = 0.014). We conclude that LSI, frequency content, and the extent of wheezing vary during the subsequent stages of allergen-induced bronchoconstriction in asthma despite matched values of FEV1. This suggests that airflow-standardized phonopneumography is a sensitive method for detecting differences in the pathophysiology of airway narrowing in asthma

AB - We postulated that the distinct pathophysiologic mechanisms of airway narrowing during the early (EAR) and the late (LAR) asthmatic responses to inhaled allergens are reflected by the generation or transmission of lung sounds in asthma. Therefore, we measured FEV1 and recorded lung sounds in eight mildly asthmatic subjects before a standardized allergen challenge (PRE), during the EAR, during the recovery phase at 2 h (MID), during the LAR at 7 h, and after inhalation of a bronchodilator (POST). The recordings were made during flow- and volume-standardized quiet breathing, and during maximal forced breathing maneuvers. Airflow-dependent power spectra were analyzed for lung sound intensity (LSI), quartile power points (Q25, Q50, Q75), and extent of wheezing (W). These sound characteristics were compared among the various stages of the challenge in the presence (EAR, LAR) and absence (PRE, MID, POST) of acute airway obstruction using ANOVA. LSI, Q25 - Q75, and W were all elevated during airway obstruction. When matched for percent fall in FEV1, during the EAR and the LAR (mean +/- SD: 26.7 +/- 4.0, and 28.9 +/- 5.7, respectively; p = 0.385), the increase in Q25, and Q50 with airflow during quiet expiration, as well as the extent of wheezing, were higher during the LAR than during the EAR (p or = 0.156), LSI on expiration was higher at POST than at PRE or MID (p <or = 0.067), whereas Q25 (p <or = 0.047) and Q50 (p <or = 0.064) were lower at POST than at PRE. During forced expiration W was higher at MID and POST than at PRE (p <or = 0.014). We conclude that LSI, frequency content, and the extent of wheezing vary during the subsequent stages of allergen-induced bronchoconstriction in asthma despite matched values of FEV1. This suggests that airflow-standardized phonopneumography is a sensitive method for detecting differences in the pathophysiology of airway narrowing in asthma

U2 - https://doi.org/10.1164/ajrccm.153.5.8630589

DO - https://doi.org/10.1164/ajrccm.153.5.8630589

M3 - Article

C2 - 8630589

SN - 1073-449X

VL - 153

SP - 1474

EP - 1480

JO - American journal of respiratory and critical care medicine

JF - American journal of respiratory and critical care medicine

IS - 5

ER -