利用定量磁共振成像技术绘制子宫内发育中的人类大脑图谱。
Mapping the developing human brain in utero using quantitative MR imaging techniques.
作者信息
Studholme Colin
机构信息
Biomedical Image Computing Group, Departments of Pediatrics, Bioengineering and Radiology, University of Washington, Seattle, WA.
出版信息
Semin Perinatol. 2015 Mar;39(2):105-12. doi: 10.1053/j.semperi.2015.01.003.
Abstract
Magnetic resonance imaging of the human fetal brain has been a clinical tool for many years and provides valuable additional information to compliment more common ultrasound studies. Advances in both MRI acquisition and post processing over the last 10 years have enabled full 3D imaging and the accurate combination of data acquired in different head positions to create improved geometric integrity, tissue contrast, and resolution. This research is now motivating the development of new quantitative MRI-based techniques for clinical imaging that can more accurately characterize brain development and detect abnormalities. In this article, we will review some of the key areas that are driving changes in our understanding of fetal brain growth using quantitative measures derived from in utero MRI and the possible directions for its increased use in improving the evaluation of pregnancies and the accurate characterization of abnormal brain growth.
摘要
多年来,胎儿脑部的磁共振成像一直是一种临床工具,可为更为常见的超声检查提供有价值的补充信息。在过去10年里,磁共振成像采集和后处理方面的进展使得全三维成像以及对在不同头部位置采集的数据进行精确组合成为可能,从而提高了几何完整性、组织对比度和分辨率。这项研究目前正推动基于磁共振成像的新定量技术的开发,用于临床成像,以更准确地表征脑部发育并检测异常情况。在本文中,我们将回顾一些关键领域,这些领域利用来自子宫内磁共振成像的定量测量方法,推动了我们对胎儿脑部生长认识的变化,以及其在改善妊娠评估和准确表征异常脑部生长方面更多应用的可能方向。
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