4D 平板锥形束 CTA 用于活体成像人类皮质的微血管,具有新型软件原型。
4D Flat Panel Conebeam CTA for In Vivo Imaging of the Microvasculature of the Human Cortex with a Novel Software Prototype.
机构信息
From the Institute of Neuroradiology (N.H., F.K., J.B.), University Hospital of Frankfurt, Frankfurt, Germany.
Siemens Healthcare GmbH (A.B., M.K.), Forchheim, Germany.
出版信息
AJNR Am J Neuroradiol. 2020 Jun;41(6):976-979. doi: 10.3174/ajnr.A6574. Epub 2020 May 21.
Abstract
It was the aim of our pilot study to investigate whether time-resolved flat panel conebeam CTA is able to demonstrate small cortical vessels in vivo. In 8 patients with small AVMs, time-resolved coronal MPRs of the vasculature of the frontal cortex were recalculated from 3D rotational angiography datasets with the use of a novel software prototype. 4D flat panel conebeam CTA demonstrated the course of the cortical arteries with small perpendicular side branches to the underlying cortex. Pial arterial and venous networks could also be identified, corresponding to findings in injection specimens. Reasonable image quality was achieved in 6 of 8 cases. In this small study, in vivo display of the cortical microvasculature with 4D flat panel conebeam CTA was feasible and superior to other angiographic imaging modalities.
摘要
本研究旨在探讨时间分辨平板锥形束 CTA 是否能够活体显示皮质小血管。在 8 例小 AVM 患者中,使用新型软件原型从 3D 旋转血管造影数据集重新计算血管的时间分辨冠状 MPR。4D 平板锥形束 CTA 显示了与下面皮质垂直的皮质小动脉的走行及其小的侧支。也可以识别出软脑膜动脉和静脉网络,与注射标本的发现相对应。在 8 例中,有 6 例获得了合理的图像质量。在这项小型研究中,4D 平板锥形束 CTA 对皮质微血管的活体显示是可行的,优于其他血管造影成像方式。
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