A weighted bag of visual words model for predicting fetal growth restriction at an early stage
Ani Dong, Yiheng Zhang, Weiling Li, Mengjie Chen

TL;DR
This study proposes a new model using placental ultrasound images to predict fetal growth restriction early, potentially helping doctors intervene sooner.
Contribution
The novel contribution is a weighted bag-of-visual-words model for early detection of fetal growth restriction using placental ultrasound images.
Findings
The proposed model achieved an accuracy of 70% and an F1 score of 0.7653 in predicting fetal growth restriction.
HOG feature extraction was found to be more suitable for placental ultrasound images compared to other methods.
The model's ROC curve had an AUC value of 0.80, indicating good predictive performance.
Abstract
Fetal growth restriction (FGR) is a significant concern for clinicians and pregnant women, as it is associated with increased fetal and neonatal mortality and morbidity. Although ultrasound has been the gold standard for many years to define FGR, it remains less than ideal for early detection of FGR. Placental dysfunction is a key factor in the development of FGR. The objective of this study is to achieve the early detection of FGR through the utilization of placental ultrasound images. A retrospective analysis was conducted using 80 placental ultrasound images from 40 FGR fetuses and 40 normal fetuses matched for gestational age. Approximately 300 texture features were extracted from the placental images using key texture feature selection and histogram of oriented gradients (HOG) extraction methods. These features were then re-encoded using a bag-of-visual-words model with weight…
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Taxonomy
TopicsPregnancy and preeclampsia studies · Neonatal and fetal brain pathology · Domain Adaptation and Few-Shot Learning
