A maChine and deep Learning Approach to predict pulmoNary hyperteNsIon in newbornS with congenital diaphragmatic Hernia (CLANNISH): Protocol for a retrospective study

Amodeo, Ilaria; Nunzio, Giorgio De; Raffaeli, Genny; Borzani, Irene; Griggio, Alice; Conte, Luana; Macchini, Francesco; Condò, Valentina; Persico, Nicola; Fabietti, Isabella; Ghirardello, Stefano; Pierro, Maria; Tafuri, Benedetta; Como, Giuseppe; Cascio, Donato; Colnaghi, Mariarosa; Mosca, Fabio; Cavallaro, Giacomo

doi:10.1371/journal.pone.0259724

Cited by 16 publications

(17 citation statements)

References 89 publications

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“…The amount of data used for training was increased by adding noise to the existing images to compensate for the lack of sample size. This is a common practice in machine learning [36,37]. The CTS detection model was meticulously trained to anticipate and delineate bounding boxes around the MN while simultaneously determining the precise coordi nates of the MN (Figure 2).…”

Section: Methodsmentioning

confidence: 99%

Dynamic Analysis of the Median Nerve in Carpal Tunnel Syndrome from Ultrasound Images Using the YOLOv5 Object Detection Model

Tanaka,

Inui,

Mifune

et al. 2023

Applied Sciences

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Carpal tunnel syndrome (CTS) is caused by subsynovial connective tissue fibrosis, resulting in median nerve (MN) mobility. The standard evaluation method is the measurement of the MN cross-sectional area using static images, and dynamic images are not widely used. In recent years, remarkable progress has been made in the field of deep learning (DL) in medical image processing. The aim of the present study was to evaluate MN dynamics in CTS hands using the YOLOv5 model, which is one of the object detection models of DL. We included 20 normal hands (control group) and 20 CTS hands (CTS group). We obtained ultrasonographic short-axis images of the carpal tunnel and the MN and recorded MN motion during finger flexion–extension, and evaluated MN displacement and velocity. The YOLOv5 model showed a score of 0.953 for precision and 0.956 for recall. The radial–ulnar displacement of the MN was 3.56 mm in the control group and 2.04 mm in the CTS group, and the velocity of the MN was 4.22 mm/s in the control group and 3.14 mm/s in the CTS group. The scores were significantly reduced in the CTS group. This study demonstrates the potential of DL-based dynamic MN analysis as a powerful diagnostic tool for CTS.

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Section: Methodsmentioning

confidence: 99%

Dynamic Analysis of the Median Nerve in Carpal Tunnel Syndrome from Ultrasound Images Using the YOLOv5 Object Detection Model

Tanaka,

Inui,

Mifune

et al. 2023

Applied Sciences

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“…This study represents an exploratory secondary analysis of the CLANNISH retrospective cohort study [20]…”

Section: Methodsmentioning

confidence: 99%

Congenital Diaphragmatic Hernia: automatic lung and liver MRI segmentation with nnU-Net, reproducibility of pyradiomics features, and a Machine Learning application for the classification of liver herniation.

Conte,

Amodeo,

De Nunzio

et al. 2023

Preprint

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Purpose Prenatal assessment of lung size and liver position is essential to stratify Congenital Diaphragmatic Hernia (CDH) fetuses in risk categories, guiding counseling and patient management. Manual segmentation on fetal MRI provides a quantitative estimation of total lung volume and liver herniation. However, it is time-consuming and operator-dependent. Methods In this study, we utilized a publicly available Deep Learning (DL) segmentation system (nnU-Net) for automatic contouring of CDH-affected fetal lungs and liver on MRI sections. Reproducibility was assessed calculating the Jaccard coefficient for manual and automatic segmentation. Pyradiomics standard features were then extracted from both manually and automatically segmented regions. Features reproducibility between the two groups was evaluated through the Wilcoxon rank-sum test and Intraclass Correlation Coefficients (ICCs). We finally tested the reliability of the automatic-segmentation approach by building a ML classifier system for the prediction of liver herniation, based on Support Vector Machines (SVM) and trained on shape features computed both in the manual and nnU-Net-segmented organs. Results We compared the area under the classifier Receiver Operating Characteristics curve (AUC) in the two cases. Pyradiomics features calculated in the manual ROIs were partly reproducible by the same features calculated in nnU-Net segmented ROIs and, when used in the ML procedure to predict liver herniation (both AUC around 0.85). Conclusions Our results suggest that automatic MRI segmentation is feasible, with good reproducibility of pyradiomics features, and that a ML system for liver herniation prediction offers good reliability. Trial registration URL: https://clinicaltrials.gov/ct2/show/NCT04609163?term=NCT04609163&draw=2&rank=1 Clinical Trial Identification n° NCT04609163

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“…Using this approach, the aim is to ultimately build an AI system able to identify patients in the antenatal period at high risk of developing CDH-associated pulmonary hypoplasia. 27 Multimodal fusion imaging, which allows superimposition of real-time ultrasound images and multiplanar reconstruction images of MRI, is another promising technique, which has been assessed to date in multiple conditions including CDH and pulmonary sequestration. 28 Abnormal lung development and associated lung pathologies Normal fetal lung development can be disrupted at any stage of development (Table 1).…”

Section: Other Technologiesmentioning

confidence: 99%

Assessment of the fetal lungs in utero

Avena-Zampieri

Hutter

Rutherford

et al. 2022

American Journal of Obstetrics & Gynecology MFM

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A maChine and deep Learning Approach to predict pulmoNary hyperteNsIon in newbornS with congenital diaphragmatic Hernia (CLANNISH): Protocol for a retrospective study

Cited by 16 publications

References 89 publications

Dynamic Analysis of the Median Nerve in Carpal Tunnel Syndrome from Ultrasound Images Using the YOLOv5 Object Detection Model

Dynamic Analysis of the Median Nerve in Carpal Tunnel Syndrome from Ultrasound Images Using the YOLOv5 Object Detection Model

Congenital Diaphragmatic Hernia: automatic lung and liver MRI segmentation with nnU-Net, reproducibility of pyradiomics features, and a Machine Learning application for the classification of liver herniation.

Assessment of the fetal lungs in utero

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