Asthma Severity Identification From Pulmonary Acoustic Signal For Computerized Decision Support System
Objective: Breath sound has information about underlying pathology and condition of subjects. The purpose of this study is to examine asthmatic acuteness levels (Mild, Moderate, Severe) using frequency features extracted from wheeze sounds. Further, analysis has been extended to observe behavior of...
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Pakistan Medical Association
2021
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| Online Access: | http://eprints.utem.edu.my/id/eprint/25921/2/2021%20FIZZA%20JPMA%20-%20NEW.PDF http://eprints.utem.edu.my/id/eprint/25921/ https://ojs.jpma.org.pk/index.php/public_html/article/view/1645 https://doi.org/10.47391/JPMA.156 |
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my.utem.eprints.259212022-05-06T10:59:28Z http://eprints.utem.edu.my/id/eprint/25921/ Asthma Severity Identification From Pulmonary Acoustic Signal For Computerized Decision Support System Nabi, Fizza Ghulam Sundaraj, Kenneth Lam, Chee Kiang Objective: Breath sound has information about underlying pathology and condition of subjects. The purpose of this study is to examine asthmatic acuteness levels (Mild, Moderate, Severe) using frequency features extracted from wheeze sounds. Further, analysis has been extended to observe behavior of wheeze sounds in different datasets. Method: Segmented and validated wheeze sounds was collected from 55 asthmatic patients from the trachea and lower lung base (LLB) during tidal breathing maneuvers. Segmented wheeze sounds have been grouped in to nine datasets based on auscultation location, breath phases and a combination of phase and location. Frequency based features F25, F50, F75, F90, F99 and mean frequency (MF) has been calculated from normalized power spectrum. Subsequently, multivariate analysis has been performed for analysis. Result: Generally frequency features observe statistical significance (p < 0.05) for the majority of datasets to differentiate severity level ? = 0.432-0.939, F(12, 196-1534) = 2.731-11.196, p < 0.05, ????2 = 0.061-0.568. It was observed that selected features performed better (higher effect size) for trachea related samples ? = 0.432-0.620, F(12, 196-498) = 6.575-11.196, p < 0.05, ????2 = 0.386-0.568. Conclusion: The results demonstrate that severity levels of asthmatic patients with tidal breathing can be identified through computerized wheeze sound analysis. In general, auscultation location and breath phases produce wheeze sounds with different characteristics Pakistan Medical Association 2021-01 Article PeerReviewed text en http://eprints.utem.edu.my/id/eprint/25921/2/2021%20FIZZA%20JPMA%20-%20NEW.PDF Nabi, Fizza Ghulam and Sundaraj, Kenneth and Lam, Chee Kiang (2021) Asthma Severity Identification From Pulmonary Acoustic Signal For Computerized Decision Support System. Journal of the Pakistan Medical Association, 71 (1-A). pp. 41-46. ISSN 0030-9982 https://ojs.jpma.org.pk/index.php/public_html/article/view/1645 https://doi.org/10.47391/JPMA.156 |
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Objective: Breath sound has information about underlying pathology and condition of subjects. The purpose of this study is to examine asthmatic acuteness levels (Mild, Moderate, Severe) using frequency features extracted from wheeze sounds. Further, analysis has been extended to observe behavior of wheeze sounds in different datasets.
Method: Segmented and validated wheeze sounds was collected from 55 asthmatic patients from the trachea and lower lung base (LLB) during tidal breathing maneuvers. Segmented wheeze sounds have been grouped in to nine datasets based on auscultation location, breath phases and a combination of phase and location. Frequency based features F25, F50, F75, F90, F99 and mean frequency (MF) has been calculated from normalized power spectrum. Subsequently, multivariate analysis has been performed for analysis.
Result: Generally frequency features observe statistical significance (p < 0.05) for the majority of datasets to differentiate severity level ? = 0.432-0.939, F(12, 196-1534) = 2.731-11.196, p < 0.05, ????2 = 0.061-0.568. It was observed that selected features performed better (higher effect size) for trachea related samples ? = 0.432-0.620, F(12, 196-498) = 6.575-11.196, p < 0.05, ????2 = 0.386-0.568.
Conclusion: The results demonstrate that severity levels of asthmatic patients with tidal breathing can be identified through computerized wheeze sound analysis. In general, auscultation location and breath phases produce wheeze sounds with different characteristics |
| format |
Article |
| author |
Nabi, Fizza Ghulam Sundaraj, Kenneth Lam, Chee Kiang |
| spellingShingle |
Nabi, Fizza Ghulam Sundaraj, Kenneth Lam, Chee Kiang Asthma Severity Identification From Pulmonary Acoustic Signal For Computerized Decision Support System |
| author_facet |
Nabi, Fizza Ghulam Sundaraj, Kenneth Lam, Chee Kiang |
| author_sort |
Nabi, Fizza Ghulam |
| title |
Asthma Severity Identification From Pulmonary Acoustic Signal For Computerized Decision Support System |
| title_short |
Asthma Severity Identification From Pulmonary Acoustic Signal For Computerized Decision Support System |
| title_full |
Asthma Severity Identification From Pulmonary Acoustic Signal For Computerized Decision Support System |
| title_fullStr |
Asthma Severity Identification From Pulmonary Acoustic Signal For Computerized Decision Support System |
| title_full_unstemmed |
Asthma Severity Identification From Pulmonary Acoustic Signal For Computerized Decision Support System |
| title_sort |
asthma severity identification from pulmonary acoustic signal for computerized decision support system |
| publisher |
Pakistan Medical Association |
| publishDate |
2021 |
| url |
http://eprints.utem.edu.my/id/eprint/25921/2/2021%20FIZZA%20JPMA%20-%20NEW.PDF http://eprints.utem.edu.my/id/eprint/25921/ https://ojs.jpma.org.pk/index.php/public_html/article/view/1645 https://doi.org/10.47391/JPMA.156 |
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