Early diagnosis of interstitial lung diseases secondary to connective tissue diseases is critical for the treatment and survival of patients. The symptoms, like dry cough and dyspnea, appear late in the clinical history and are not specific, moreover, the current approach to confirm the diagnosis of interstitial lung disease is based on high resolution computer tomography. However, computer tomography involves x-ray exposure for patients and high costs for the Health System, therefore preventing its use for a massive screening campaign in elder people. In this work we investigate the use of deep learning techniques for the classification of pulmonary sounds acquired from patients affected by connective tissue diseases. The novelty of the work consists of a suitably developed pre-processing pipeline for de-noising and data augmentation. The proposed approach is combined with a clinical study where the ground truth is represented by high resolution computer tomography. Various convolutional neural networks have provided an overall accuracy as high as 91% in the classification of lung sounds and have led to an overwhelming diagnostic accuracy in the range 91% − 93%. Modern high performance hardware for edge computing can easily support our algorithms. This solution paves the way for a vast screening campaign of interstitial lung diseases in elder people on the basis of a non-invasive and cheap thoracic auscultation.

Classification of pulmonary sounds through deep learning for the diagnosis of interstitial lung diseases secondary to connective tissue diseases / Dianat, Behnood; La Torraca, Paolo; Manfredi, Andreina; Cassone, Giulia; Vacchi, Caterina; Sebastiani, Marco; Pancaldi, Fabrizio. - In: COMPUTERS IN BIOLOGY AND MEDICINE. - ISSN 0010-4825. - 160:(2023), pp. 106928-106928. [10.1016/j.compbiomed.2023.106928]

Classification of pulmonary sounds through deep learning for the diagnosis of interstitial lung diseases secondary to connective tissue diseases

Dianat, Behnood;La Torraca, Paolo;Manfredi, Andreina;Cassone, Giulia;Vacchi, Caterina;Sebastiani, Marco;Pancaldi, Fabrizio
2023

Abstract

Early diagnosis of interstitial lung diseases secondary to connective tissue diseases is critical for the treatment and survival of patients. The symptoms, like dry cough and dyspnea, appear late in the clinical history and are not specific, moreover, the current approach to confirm the diagnosis of interstitial lung disease is based on high resolution computer tomography. However, computer tomography involves x-ray exposure for patients and high costs for the Health System, therefore preventing its use for a massive screening campaign in elder people. In this work we investigate the use of deep learning techniques for the classification of pulmonary sounds acquired from patients affected by connective tissue diseases. The novelty of the work consists of a suitably developed pre-processing pipeline for de-noising and data augmentation. The proposed approach is combined with a clinical study where the ground truth is represented by high resolution computer tomography. Various convolutional neural networks have provided an overall accuracy as high as 91% in the classification of lung sounds and have led to an overwhelming diagnostic accuracy in the range 91% − 93%. Modern high performance hardware for edge computing can easily support our algorithms. This solution paves the way for a vast screening campaign of interstitial lung diseases in elder people on the basis of a non-invasive and cheap thoracic auscultation.
2023
160
106928
106928
Classification of pulmonary sounds through deep learning for the diagnosis of interstitial lung diseases secondary to connective tissue diseases / Dianat, Behnood; La Torraca, Paolo; Manfredi, Andreina; Cassone, Giulia; Vacchi, Caterina; Sebastiani, Marco; Pancaldi, Fabrizio. - In: COMPUTERS IN BIOLOGY AND MEDICINE. - ISSN 0010-4825. - 160:(2023), pp. 106928-106928. [10.1016/j.compbiomed.2023.106928]
Dianat, Behnood; La Torraca, Paolo; Manfredi, Andreina; Cassone, Giulia; Vacchi, Caterina; Sebastiani, Marco; Pancaldi, Fabrizio
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11380/1303646
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