Validation of a method for automated detection of lung sounds in fibrotic interstitial lung disease
Validation of a method for automated detection of lung sounds in fibrotic interstitial lung disease
BACKGROUND
Delayed diagnosis of fibrotic interstitial lung disease (ILD) is characterized by significant repercussions for management and survival. A
timely assessment of “velcro-type” crackles at lung auscultation might prompt a proper diagnostic process in these patients. The accuracy
of objective, computerized methods in detecting ILD from respiratory sounds has not been systematically assessed in a clinical setting. We
aimed to validate automatic detection of “velcro-type” crackles by comparing the results of lung sounds analysis with chest high
resolution computed tomography (HRCT) scans.
METHODS
Lung sounds were recorded using an electronic stethoscope (Littmann 3200) from anatomically defined sites in 56 subjects (derivation
cohort) undergoing a chest HRCT scan in Modena (Italy). Three-hundred anonymized, single-layer HRCT images corresponding to the sites
of sound recording were reviewed by two radiologists with expertise in ILD and scored for the signs indicating lung fibrosis. All audio
recordings were analyzed by extracting a set of global acoustic features from each file and different classification algorithms were
employed on a subset of the best ranked features to classify the data into two groups. The gold standard used to label the ground truth
for each sound file was based on the evidence of fibrosis in the corresponding HRCT image. Two ILD physicians were also asked to
independently assess the sound files for the presence of “velcro-type” crackles. The results were validated in a further cohort of 59 patients
(validation cohort) undergoing chest HRCT in Parma (Italy). Three-hundred nineteen HRCT images and corresponding sound files were
obtained.
RESULTS
In the derivation cohort, accuracy of 74.4% was achieved in automatic detection of lung sounds associated with fibrotic HRCT images.
However, although specificity was high (87.3%), sensitivity was lower (48.5%). The two respiratory physicians showed comparable
performance, with accuracy 71.6%, specificity 82.3% and sensitivity 49.9%. The results of the automated detection were substantially
reproduced in the validation cohort (accuracy 70.2%, specificity 84.7%, sensitivity 45.8%).
CONCLUSION
An automated method can identify lung sounds associated with pulmonary fibrosis at HRCT, and replicates the performance of
experienced clinicians on the same data set. This suggests that there are substantial grounds for developing an automated method for
clinical detection of fibrotic ILD.
Fletcher, Sophie
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Sgalla, Giacomo
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Nikolic, Dragana
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Walsh, Simon
84771946-5888-4b0f-83a4-10de250fc770
Cerri, Stefania
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Jones, Mark G.
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Sverzellati, Nicola
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Hansell, David M
6ffd4a69-9a48-4062-b0ca-c509faedede7
Barney, Anna
bc0ee7f7-517a-4154-ab7d-57270de3e815
Richeldi, Luca
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Fletcher, S.
078b9c4b-a5c6-42ac-baf5-d6c22464cb03
Davies, D. E.
44b334fa-802a-44dd-a174-9fd5ffb07ad6
Fletcher, Sophie
d05721e8-8943-4f13-a1f5-4ba183741c89
Sgalla, Giacomo
f7c37658-a00c-4b08-8dea-fa90b279de79
Nikolic, Dragana
772b3eb2-c994-440a-ab86-27e862bd39f7
Walsh, Simon
84771946-5888-4b0f-83a4-10de250fc770
Cerri, Stefania
7ea9bc28-eaf2-46ce-8433-b9e732484b5f
Jones, Mark G.
119d23fa-c777-482a-8eb4-69d3bd499791
Sverzellati, Nicola
03bddd86-a6f5-44e6-898f-3cfad8e2390c
Hansell, David M
6ffd4a69-9a48-4062-b0ca-c509faedede7
Barney, Anna
bc0ee7f7-517a-4154-ab7d-57270de3e815
Richeldi, Luca
47177d9c-731a-49a1-9cc6-4ac8f6bbbf26
Fletcher, S.
078b9c4b-a5c6-42ac-baf5-d6c22464cb03
Davies, D. E.
44b334fa-802a-44dd-a174-9fd5ffb07ad6
Fletcher, Sophie, Sgalla, Giacomo, Nikolic, Dragana, Walsh, Simon, Cerri, Stefania, Jones, Mark G., Sverzellati, Nicola, Hansell, David M, Barney, Anna, Richeldi, Luca, Fletcher, S. and Davies, D. E.
(2016)
Validation of a method for automated detection of lung sounds in fibrotic interstitial lung disease.
American Journal of Respiratory and Critical Care Medicine.
Abstract
BACKGROUND
Delayed diagnosis of fibrotic interstitial lung disease (ILD) is characterized by significant repercussions for management and survival. A
timely assessment of “velcro-type” crackles at lung auscultation might prompt a proper diagnostic process in these patients. The accuracy
of objective, computerized methods in detecting ILD from respiratory sounds has not been systematically assessed in a clinical setting. We
aimed to validate automatic detection of “velcro-type” crackles by comparing the results of lung sounds analysis with chest high
resolution computed tomography (HRCT) scans.
METHODS
Lung sounds were recorded using an electronic stethoscope (Littmann 3200) from anatomically defined sites in 56 subjects (derivation
cohort) undergoing a chest HRCT scan in Modena (Italy). Three-hundred anonymized, single-layer HRCT images corresponding to the sites
of sound recording were reviewed by two radiologists with expertise in ILD and scored for the signs indicating lung fibrosis. All audio
recordings were analyzed by extracting a set of global acoustic features from each file and different classification algorithms were
employed on a subset of the best ranked features to classify the data into two groups. The gold standard used to label the ground truth
for each sound file was based on the evidence of fibrosis in the corresponding HRCT image. Two ILD physicians were also asked to
independently assess the sound files for the presence of “velcro-type” crackles. The results were validated in a further cohort of 59 patients
(validation cohort) undergoing chest HRCT in Parma (Italy). Three-hundred nineteen HRCT images and corresponding sound files were
obtained.
RESULTS
In the derivation cohort, accuracy of 74.4% was achieved in automatic detection of lung sounds associated with fibrotic HRCT images.
However, although specificity was high (87.3%), sensitivity was lower (48.5%). The two respiratory physicians showed comparable
performance, with accuracy 71.6%, specificity 82.3% and sensitivity 49.9%. The results of the automated detection were substantially
reproduced in the validation cohort (accuracy 70.2%, specificity 84.7%, sensitivity 45.8%).
CONCLUSION
An automated method can identify lung sounds associated with pulmonary fibrosis at HRCT, and replicates the performance of
experienced clinicians on the same data set. This suggests that there are substantial grounds for developing an automated method for
clinical detection of fibrotic ILD.
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e-pub ahead of print date: 17 May 2016
Venue - Dates:
American Thoracic Society 2016 International Conference, , San Francisco, United States, 2016-05-15 - 2016-05-18
Identifiers
Local EPrints ID: 480167
URI: http://eprints.soton.ac.uk/id/eprint/480167
ISSN: 1073-449X
PURE UUID: 1fa69bf2-89f5-4efb-89be-32f2efd6da4a
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Date deposited: 01 Aug 2023 16:56
Last modified: 18 Mar 2024 02:49
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Contributors
Author:
Sophie Fletcher
Author:
Giacomo Sgalla
Author:
Dragana Nikolic
Author:
Simon Walsh
Author:
Stefania Cerri
Author:
Mark G. Jones
Author:
Nicola Sverzellati
Author:
David M Hansell
Author:
Luca Richeldi
Author:
S. Fletcher
Author:
D. E. Davies
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