Estimation on the development of cerebral edema from computed tomography preliminary studies for pediatric traumatic brain injury patients

2013 International Winter Workshop on Brain-Computer Interface (BCI) Pub Date : 2013-04-23 DOI:10.1109/IWW-BCI.2013.6506634

Hakseung Kim, Young-Tak Kim, Dong-Joo Kim

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Abstract

Patients with traumatic brain injury need quick and accurate diagnosis. Interpreting computed tomography images is widely used for diagnosis, by detecting structural abnormalities on the images with human eyes. This conventional method may miss the subtle differences in radiodensity(defined as Hounsfield unit) of the images, and can result in failure of preventing secondary brain injuries, namely ischemia and edema. This study used computed tomography scans of 19 pediatric patients and 10 normal children to test whether the quantification of the radiodensity of images can detect ischemia and/or edema or not. The Hounsfield unit distributions of typical grey matter region did not show statistical differences between patients group and control group, but 84%(16) of patients group showed increase and change in overall Hounsfield unit between the initial and follow up imaging studies. The distribution of Hounsfield unit can be used as an effective tool for confirming the existence of cerebral edema.

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儿童外伤性脑损伤患者计算机断层扫描对脑水肿发展的初步研究

外伤性脑损伤患者需要快速准确的诊断。解读计算机断层扫描图像被广泛用于诊断，通过人眼检测图像上的结构异常。这种传统的方法可能会忽略图像放射密度(定义为Hounsfield单位)的细微差异，并可能导致无法预防继发性脑损伤，即缺血和水肿。本研究采用计算机断层扫描19例儿童患者和10例正常儿童，以测试图像放射密度的量化是否可以检测缺血和/或水肿。典型灰质区的Hounsfield单位分布在患者组和对照组之间没有统计学差异，但84%(16)的患者组在初始和随访影像检查期间总体Hounsfield单位增加和改变。Hounsfield单位分布可作为确认脑水肿存在的有效工具。

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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2013 International Winter Workshop on Brain-Computer Interface (BCI)

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