Sonographic demonstration of the sulci and gyri on the convex surface in normal fetuses using 3D-ICRV rendering technology.

IF 3.1 3区医学 Q1 ACOUSTICS Ultraschall in Der Medizin Pub Date : 2023-12-01 Epub Date: 2023-07-04 DOI:10.1055/a-2122-6182

Zhixuan Chen, Ya Ma, Huaxuan Wen, Yimei Liao, Yan Ouyang, BoCheng Liang, Meiling Liang, Shengli Li

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引用次数: 1

Abstract

Purpose: To demonstrate morphological alteration of the sulci and gyri on the convex surface in normal fetuses using innovative three-dimensional inversion and Crystalvue and Realisticvue (3D-ICRV) rendering technology.

Materials and methods: 3D fetal brain volumes were collected from low-risk singleton pregnancies between 15+0 and 35+6 gestational weeks. Volumes were acquired from the transthalamic axial plane by transabdominal ultrasonography and were then post-processed with Crystalvue, Realisticvue rendering software and inversion mode. Volume quality was assessed. The anatomic definition of the sulci and gyri was determined according to location and orientation. The morphology alteration and sulcus display rates were recorded in sequential order of gestational weeks. Follow-up data were collected in all cases.

Results: 294 of 300 fetuses (294 brain volumes) (98%) with qualified fetal brain volumes were included (n=294, median 27 gestational weeks). 6 fetuses with unsatisfactory 3D-ICRV image quality were excluded. The morphology of the sulci and gyri on the brain convex surface could be demonstrated clearly on 3D-ICRV images. The Sylvian fissure was the first structure to be recognized. From 25 to 30 weeks, other sulci and gyri became visible. An ascending trend in the display rate of the sulci was found in this period. Follow-up showed no detectable anomalies.

Conclusion: 3D-ICRV rendering technology is different from traditional 3D ultrasound. It can provide vivid and intuitive prenatal visualization of the sulci and gyri on the brain surface. Moreover, it may offer new ideas for neurodevelopment exploration.

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使用3D-ICRV渲染技术的超声显示正常胎儿凸面上的脑沟和脑回。

目的:利用创新的三维反演技术和Crystalvue and Realisticvue (3D-ICRV)渲染技术，展示正常胎儿凸面脑沟和脑回的形态变化。材料与方法:采集15+0 ~ 35+6孕周低危单胎妊娠胎儿3D脑容量。经腹超声在经丘脑轴面获取体积，然后用Crystalvue、Realisticvue渲染软件和倒置模式进行后处理。评估体积质量。根据位置和方向确定脑沟和脑回的解剖定义。形态学改变和沟显示率按孕周顺序记录。所有病例均收集随访资料。结果:300例胎儿(294个脑容量)中有294例(98%)符合胎儿脑容量要求(n=294，中位妊娠周27周)。排除了6例3D-ICRV图像质量不理想的胎儿。3D-ICRV图像能清晰显示脑沟和脑回在脑凸面上的形态。Sylvian裂缝是第一个被发现的构造。25 ~ 30周，其他脑沟和脑回可见。在这一时期，沟的显示率呈上升趋势。随访未见明显异常。结论:3D- icrv绘制技术与传统的3D超声不同。它可以提供生动直观的产前脑沟和脑回表面的可视化。此外，它可能为神经发育的探索提供新的思路。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Ultraschall in Der Medizin 医学-核医学

CiteScore

5.30

自引率

8.80%

发文量

228

审稿时长

6-12 weeks

期刊介绍： Ultraschall in der Medizin / European Journal of Ultrasound publishes scientific papers and contributions from a variety of disciplines on the diagnostic and therapeutic applications of ultrasound with an emphasis on clinical application. Technical papers with a physiological theme as well as the interaction between ultrasound and biological systems might also occasionally be considered for peer review and publication, provided that the translational relevance is high and the link with clinical applications is tight. The editors and the publishers reserve the right to publish selected articles online only. Authors are welcome to submit supplementary video material. Letters and comments are also accepted, promoting a vivid exchange of opinions and scientific discussions.