Is It Intracranial Hemorrhage? A Case-Based Approach to Confident Determination Using Dual-Energy CT

Q4 Medicine
Neurographics Pub Date : 2023-04-01 DOI:10.3174/ng.2200008
J. Sachs, P. Bunch, A. P. Sweeney, K. Hiatt, M. Benayoun, T. G. West
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引用次数: 0

Abstract

Differentiating acute hemorrhage from hyperattenuating mimics remains a common problem in neuroradiology practice. High atomic number materials such as iodine, calcium, and silicone oil can be similar in attenuation to acute blood products, depending on their concentration. Dual-energy CT allows differentiation of hemorrhage from these high atomic number materials because of the differential absorption of x-ray photons at different incident energies. The primary purpose of this case review is to illustrate how to confidently and efficiently use 190-keV virtual monoenergetic images and material decomposition maps in routine neuroradiology practice when the differential diagnosis includes hemorrhage versus a high atomic number hyperattenuating mimic. We review the underlying physics of dual-energy CT, the primary output of dual-energy postprocessing, as well as pitfalls.Learning Objective: To learn how to use dual-energy CT to confidently and efficiently differentiate acute hemorrhage and hyperattenuating mimics (eg, calcification or iodinated contrast)
是颅内出血吗?基于案例的双能CT置信度确定方法
在神经放射学实践中,区分急性出血和过度注意模拟物仍然是一个常见的问题。碘、钙和硅油等高原子序数材料在衰减方面与急性血液制品相似,这取决于它们的浓度。由于在不同入射能量下x射线光子的不同吸收,双能CT允许将出血与这些高原子序数材料区分开来。本病例综述的主要目的是说明如何在常规神经放射学实践中自信有效地使用190 keV的虚拟单能图像和材料分解图,当鉴别诊断包括出血与高原子序数超注意模拟物时。我们回顾了双能CT的基本物理,双能后处理的主要输出,以及陷阱。学习目标:学习如何使用双能CT自信有效地区分急性出血和过度注意模拟物(如钙化或碘化造影剂)
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
Neurographics
Neurographics Medicine-Radiology, Nuclear Medicine and Imaging
CiteScore
0.20
自引率
0.00%
发文量
12
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