Phenotype classification using the combination of lung sound analysis and fractional exhaled nitric oxide for evaluating asthma treatment

Phenotype classification using the combination of lung sound analysis and fractional exhaled nitric oxide for evaluating asthma treatment

Background: We report the utility of combining lung sound analysis and fractional exhaled nitric oxide (FeNO) for phenotype classification of airway inflammation in patients with bronchial asthma.We investigated the usefulness of the combination of the expiration-to-inspiration sound power ratio in...

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Main Authors: Terufumi Shimoda, Yasushi Obase, Yukio Nagasaka, Sadahiro Asai
Format: Article
Language:English
Published: Elsevier 2018-04-01
Series:Allergology International
Online Access:http://www.sciencedirect.com/science/article/pii/S1323893017301533
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spelling doaj-bb0e2f10baa34f629e1ac34e6e8c6fc62020-11-24T22:24:24ZengElsevierAllergology International1323-89302018-04-01672253258Phenotype classification using the combination of lung sound analysis and fractional exhaled nitric oxide for evaluating asthma treatmentTerufumi Shimoda0Yasushi Obase1Yukio Nagasaka2Sadahiro Asai3San Remo Rehabilitation Hospital, Sasebo, Japan; Clinical Research Center, Fukuoka National Hospital, Fukuoka, Japan; Corresponding author. San Remo Rehabilitation Hospital, 4848-1 Egamicho, Sasebo 859-3244, Japan.Department of Respiratory Medicine, Nagasaki University Graduate School of Biomedical Sciences, Nagasaki, JapanKyoto Respiratory Center, Otowa Hospital, Kyoto, JapanSan Remo Rehabilitation Hospital, Sasebo, JapanBackground: We report the utility of combining lung sound analysis and fractional exhaled nitric oxide (FeNO) for phenotype classification of airway inflammation in patients with bronchial asthma.We investigated the usefulness of the combination of the expiration-to-inspiration sound power ratio in the mid-frequency range (E/I MF) of 200–400 Hz and FeNO for comprehensively classifying disease type and evaluating asthma treatment. Methods: A total of 233 patients with bronchial asthma were included. The cutoff values of FeNO and E/I MF were set to 38 ppb and 0.36, respectively, according to a previous study. The patients were divided into 4 subgroups based on the FeNO and E/I MF cutoff values. Respiratory function, the percentages of sputum eosinophils and neutrophils, and patient background characteristics were compared among groups. Results: Respiratory function was well controlled in the FeNO low/E/I MF low group (good control). Sputum neutrophil was higher and FEV1,%pred was lower in the FeNO low/E/I MF high group (poor control). History of childhood asthma and atopic asthma were associated with the FeNO high/E/I MF low group (insufficient control). The FeNO high/E/I MF high group corresponded to a longer disease duration, increased blood or sputum eosinophils, and lower FEV1/FVC (poor control). Conclusions: The combination of FeNO and E/I MF assessed by lung sound analysis allows the condition of airway narrowing and the degree of airway inflammation to be assessed in patients with asthma and is useful for evaluating bronchial asthma treatments. Keywords: Bronchial asthma, E/I MF, FeNO, Lung sound analysis, Phenotypehttp://www.sciencedirect.com/science/article/pii/S1323893017301533
collection DOAJ
language English
format Article
sources DOAJ
author Terufumi Shimoda
Yasushi Obase
Yukio Nagasaka
Sadahiro Asai
spellingShingle Terufumi Shimoda
Yasushi Obase
Yukio Nagasaka
Sadahiro Asai
Phenotype classification using the combination of lung sound analysis and fractional exhaled nitric oxide for evaluating asthma treatment
Allergology International
author_facet Terufumi Shimoda
Yasushi Obase
Yukio Nagasaka
Sadahiro Asai
author_sort Terufumi Shimoda
title Phenotype classification using the combination of lung sound analysis and fractional exhaled nitric oxide for evaluating asthma treatment
title_short Phenotype classification using the combination of lung sound analysis and fractional exhaled nitric oxide for evaluating asthma treatment
title_full Phenotype classification using the combination of lung sound analysis and fractional exhaled nitric oxide for evaluating asthma treatment
title_fullStr Phenotype classification using the combination of lung sound analysis and fractional exhaled nitric oxide for evaluating asthma treatment
title_full_unstemmed Phenotype classification using the combination of lung sound analysis and fractional exhaled nitric oxide for evaluating asthma treatment
title_sort phenotype classification using the combination of lung sound analysis and fractional exhaled nitric oxide for evaluating asthma treatment
publisher Elsevier
series Allergology International
issn 1323-8930
publishDate 2018-04-01
description Background: We report the utility of combining lung sound analysis and fractional exhaled nitric oxide (FeNO) for phenotype classification of airway inflammation in patients with bronchial asthma.We investigated the usefulness of the combination of the expiration-to-inspiration sound power ratio in the mid-frequency range (E/I MF) of 200–400 Hz and FeNO for comprehensively classifying disease type and evaluating asthma treatment. Methods: A total of 233 patients with bronchial asthma were included. The cutoff values of FeNO and E/I MF were set to 38 ppb and 0.36, respectively, according to a previous study. The patients were divided into 4 subgroups based on the FeNO and E/I MF cutoff values. Respiratory function, the percentages of sputum eosinophils and neutrophils, and patient background characteristics were compared among groups. Results: Respiratory function was well controlled in the FeNO low/E/I MF low group (good control). Sputum neutrophil was higher and FEV1,%pred was lower in the FeNO low/E/I MF high group (poor control). History of childhood asthma and atopic asthma were associated with the FeNO high/E/I MF low group (insufficient control). The FeNO high/E/I MF high group corresponded to a longer disease duration, increased blood or sputum eosinophils, and lower FEV1/FVC (poor control). Conclusions: The combination of FeNO and E/I MF assessed by lung sound analysis allows the condition of airway narrowing and the degree of airway inflammation to be assessed in patients with asthma and is useful for evaluating bronchial asthma treatments. Keywords: Bronchial asthma, E/I MF, FeNO, Lung sound analysis, Phenotype
url http://www.sciencedirect.com/science/article/pii/S1323893017301533
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