Computer-aided classification of small airways dysfunction using impulse oscillometric features: a children-focused review

Avila, Nancy; Nazeran, Homer; Gordillo, Nelly; Meraz, Erika; Gochicoa, Laura

doi:10.1515/bmt-2018-0219

Biomedical Engineering / Biomedizinische Technik

2020

DOI: 10.1515/bmt-2018-0219

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Computer-aided classification of small airways dysfunction using impulse oscillometric features: a children-focused review

Nancy Avila

Homer Nazeran

Nelly Gordillo

et al.

Abstract: Background and objectiveSpirometry, which is the most commonly used technique for asthma diagnosis, is often unsuitable for small children as it requires them to follow exact instructions and perform extreme inspiration and expiration maneuvers. In contrast, impulse oscillometry (IOS) is a child-friendly technique that could serve as an alternative pulmonary function test (PFT) for asthma diagnosis and control in children as it offers several advantages over spirometry. However, the complex test results of IOS… Show more

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2024

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Machine learning for accurate detection of small airway dysfunction-related respiratory changes: an observational study

Xu,

Shang,

Feng

et al. 2024

Respir Res

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Background The use of machine learning(ML) methods would improve the diagnosis of small airway dysfunction(SAD) in subjects with chronic respiratory symptoms and preserved pulmonary function(PPF). This paper evaluated the performance of several ML algorithms associated with the impulse oscillometry(IOS) analysis to aid in the diagnostic of respiratory changes in SAD. We also find out the best configuration for this task. Methods IOS and spirometry were measured in 280 subjects, including a healthy control group (n = 78), a group with normal spirometry (n = 158) and a group with abnormal spirometry (n = 44). Various supervised machine learning (ML) algorithms and feature selection strategies were examined, such as Support Vector Machines (SVM), Random Forests (RF), Adaptive Boosting (ADABOOST), Navie Bayesian (BAYES), and K-Nearest Neighbors (KNN). Results The first experiment of this study demonstrated that the best oscillometric parameter (BOP) was R5, with an AUC value of 0.642, when comparing a healthy control group(CG) with patients in the group without lung volume-defined SAD(PPFN). The AUC value of BOP in the control group was 0.769 compared with patients with spirometry defined SAD(PPFA) in the PPF population. In the second experiment, the ML technique was used. In CGvsPPFN, RF and ADABOOST had the best diagnostic results (AUC = 0.914, 0.915), with significantly higher accuracy compared to BOP (p < 0.01). In CGvsPPFA, RF and ADABOOST had the best diagnostic results (AUC = 0.951, 0.971) and significantly higher diagnostic accuracy (p < 0.01). In the third, fourth and fifth experiments, different feature selection techniques allowed us to find the best IOS parameters (R5, (R5-R20)/R5 and Fres). The results demonstrate that the performance of ADABOOST remained essentially unaltered following the application of the feature selector, whereas the diagnostic accuracy of the remaining four classifiers (RF, SVM, BAYES, and KNN) is marginally enhanced. Conclusions IOS combined with ML algorithms provide a new method for diagnosing SAD in subjects with chronic respiratory symptoms and PPF. The present study’s findings provide evidence that this combination may help in the early diagnosis of respiratory changes in these patients.

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Machine learning for accurate detection of small airway dysfunction-related respiratory changes: an observational study

Xu,

Shang,

Feng

et al. 2024

Respir Res

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Computer-aided classification of small airways dysfunction using impulse oscillometric features: a children-focused review

Cited by 1 publication

References 28 publications

Machine learning for accurate detection of small airway dysfunction-related respiratory changes: an observational study

Machine learning for accurate detection of small airway dysfunction-related respiratory changes: an observational study

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