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A deep sift convolutional neural networks for total brain volume estimation from 3D ultrasound images

Bahram Jafrasteh, Simón Pedro Lubián‐López, Isabel Benavente‐Fernández

2023Computer Methods and Programs in Biomedicine10 citationsDOIOpen Access PDF

Abstract

Preterm infants are a highly vulnerable population. The total brain volume (TBV) of these infants can be accurately estimated by brain ultrasound (US) imaging which enables a longitudinal study of early brain growth during Neonatal Intensive Care (NICU) admission. Automatic estimation of TBV from 3D images increases the diagnosis speed and evades the necessity for an expert to manually segment 3D images, which is a sophisticated and time consuming task. We develop a deep-learning approach to estimate TBV from 3D ultrasound images. It benefits from deep convolutional neural networks (CNN) with dilated residual connections and an additional layer, inspired by the fuzzy c-Means (FCM), to further separate the features into different regions, i.e. sift layer. Therefore, we call this method deep-sift convolutional neural networks (DSCNN). The proposed method is validated against three state-of-the-art methods including AlexNet-3D, ResNet-3D, and VGG-3D, for TBV estimation using two datasets acquired from two different ultrasound devices. The results highlight a strong correlation between the predictions and the observed TBV values. The regression activation maps are used to interpret DSCNN, allowing TBV estimation by exploring those pixels that are more consistent and plausible from an anatomical standpoint. Therefore, it can be used for direct estimation of TBV from 3D images without needing further image segmentation.

Topics & Concepts

Artificial intelligenceConvolutional neural networkComputer sciencePattern recognition (psychology)SegmentationDeep learning3D ultrasoundResidualPixelScale-invariant feature transformComputer visionArtificial neural networkUltrasoundFeature extractionMedicineRadiologyAlgorithmNeonatal and fetal brain pathologyFetal and Pediatric Neurological DisordersNeonatal Respiratory Health Research
A deep sift convolutional neural networks for total brain volume estimation from 3D ultrasound images | Litcius