Texture-Based Classification of Fetal Growth Restriction From Intrauterine Neurosonographic Image.

IF 2.1 4区 医学 Q2 ACOUSTICS Journal of Ultrasound in Medicine Pub Date : 2024-10-04 DOI:10.1002/jum.16594
Zehao Chen, Mengjie Chen, Shiying Huang, Zhongming Wang, Yiheng Zhang, Yuhan Huang, Weiling Li, Xiaowei Huang
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Abstract

Objective: Fetal growth restriction (FGR) is a condition where fetuses fail to reach their genetic potential for growth, posing a significant health challenge for newborns. The aim of this research was to explore the efficacy of texture-based analysis of neurosonographic images in identifying FGR in fetuses, which may provide a promising tool for early assessment of FGR.

Methods: A retrospective analysis collected 100 intrauterine neurosonographic images from 50 FGR and 50 gestational age-appropriate fetuses. Using MaZda software, approximately 300 texture features were extracted from occipital white matter (OWM) and cerebellum of intrauterine neurosonographic images, respectively. Then 10 optimal features were separately selected by 3 algorithms, including the Fisher coefficient method, the method of minimizing classification error probability and average correlation coefficients, and the mutual information coefficient method. Further, the 10 statistically most significant features were selected from these sets to form the mixed feature set. After nonlinear discriminant analysis was performed to reduce feature dimensionality, the artificial neural network (ANN) classifier was conducted, respectively.

Results: For OWM and cerebellum, a total of 11 and 14 statistically significant features were selected. When the mixed feature sets of OWM and cerebellum were applied to ANN classifier, classification accuracy were 90.00% (κ = 0.800; P < .001) and 93.00% (κ = 0.860; P < .001), and the receiver operating characteristic curve for identifying FGR showed an area under the curve of 0.82 and 0.87.

Conclusions: Texture analysis of fetal intrauterine neurosonographic images is a feasible and noninvasive strategy for evaluating FGR fetuses.

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从宫内神经超声图像对胎儿生长受限进行基于纹理的分类
目的:胎儿生长受限(FGR)是指胎儿无法达到其遗传的生长潜能,对新生儿健康构成重大挑战。本研究旨在探索基于纹理的神经超声图像分析在识别胎儿FGR方面的功效,这可能为FGR的早期评估提供一种有前途的工具:方法:一项回顾性分析收集了50名FGR胎儿和50名适龄胎儿的100张宫内神经电图。使用MaZda软件分别从宫内神经超声图像的枕白质(OWM)和小脑中提取了约300个纹理特征。然后,通过费雪系数法、分类错误概率和平均相关系数最小化法以及互信息系数法等 3 种算法分别选出 10 个最佳特征。然后,从这些特征集中选出 10 个统计意义最显著的特征,组成混合特征集。在进行非线性判别分析以降低特征维度后,分别进行了人工神经网络(ANN)分类:结果:OWM 和小脑分别选取了 11 个和 14 个具有统计学意义的特征。结果:对于OWM和小脑,分别选取了11个和14个具有统计学意义的特征,当将OWM和小脑的混合特征集应用于人工神经网络分类器时,分类准确率为90.00%(κ = 0.800; P 结论:对于OWM和小脑,分类准确率分别为90.00%和90.00%:胎儿宫内神经超声图像的纹理分析是评估FGR胎儿的一种可行且无创的策略。
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来源期刊
CiteScore
5.10
自引率
4.30%
发文量
205
审稿时长
1.5 months
期刊介绍: The Journal of Ultrasound in Medicine (JUM) is dedicated to the rapid, accurate publication of original articles dealing with all aspects of medical ultrasound, particularly its direct application to patient care but also relevant basic science, advances in instrumentation, and biological effects. The journal is an official publication of the American Institute of Ultrasound in Medicine and publishes articles in a variety of categories, including Original Research papers, Review Articles, Pictorial Essays, Technical Innovations, Case Series, Letters to the Editor, and more, from an international bevy of countries in a continual effort to showcase and promote advances in the ultrasound community. Represented through these efforts are a wide variety of disciplines of ultrasound, including, but not limited to: -Basic Science- Breast Ultrasound- Contrast-Enhanced Ultrasound- Dermatology- Echocardiography- Elastography- Emergency Medicine- Fetal Echocardiography- Gastrointestinal Ultrasound- General and Abdominal Ultrasound- Genitourinary Ultrasound- Gynecologic Ultrasound- Head and Neck Ultrasound- High Frequency Clinical and Preclinical Imaging- Interventional-Intraoperative Ultrasound- Musculoskeletal Ultrasound- Neurosonology- Obstetric Ultrasound- Ophthalmologic Ultrasound- Pediatric Ultrasound- Point-of-Care Ultrasound- Public Policy- Superficial Structures- Therapeutic Ultrasound- Ultrasound Education- Ultrasound in Global Health- Urologic Ultrasound- Vascular Ultrasound
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