增加脑灌注 CT 的采样间隔：最大斜率模型的局限性。

Increasing sampling interval in cerebral perfusion CT: limitation for the maximum slope model.

机构信息

Department of Clinical Radiology, University of Münster, 48149 Münster, Germany.

出版信息

Acad Radiol. 2010 Jan;17(1):61-6. doi: 10.1016/j.acra.2009.07.009. Epub 2009 Sep 5.

DOI:10.1016/j.acra.2009.07.009

PMID:19734063

Abstract

RATIONALE AND OBJECTIVES

The aim of this study was to evaluate increased sampling intervals on cerebral dynamic perfusion computed tomographic (PCT) imaging calculated using software relying on the maximum slope model.

MATERIALS AND METHODS

PCT data sets from 32 patients with suspected acute stroke were acquired with a sampling interval of 1 image/s. The PCT data sets were modified to simulate sampling intervals of 2, 3, and 4 seconds. Maps of cerebral blood flow (CBF), cerebral blood volume, and time to peak (TTP) were calculated using software relying on the maximum slope model. Parenchymal and vascular peak enhancement; absolute values of CBF, cerebral blood volume, and TTP in the nonischemic hemisphere; and ischemic area in the different perfusion maps were measured.

RESULTS

Parenchymal peak enhancement of the nonischemic hemisphere was statistically significantly decreased in all simulated data sets with >1-second sampling intervals (P < .001). Absolute CBF and TTP values in the nonischemic hemisphere were increased in all simulated data sets with >1-second sampling intervals (P = .044-.001 and P = .008-.001, respectively). The ischemic area was significantly underestimated for CBF and TTP in all simulated data sets with >1-second sampling intervals (P = .022-.005 and P = .019-.005, respectively).

CONCLUSIONS

Sampling intervals of >1 second on PCT imaging calculated using software relying on the maximum slope model significantly alter absolute CBF and TTP values and the size of ischemia in CBF and TTP. Thus, increasing the sampling interval on dynamic PCT imaging cannot be recommended in combination with this algorithm.

摘要

背景与目的

本研究旨在评估基于最大斜率模型的软件计算脑动态灌注 CT（PCT）成像时增加采样间隔的效果。

材料与方法

对 32 例疑似急性卒中患者的 PCT 数据进行 1 幅/秒的采样间隔采集。将 PCT 数据集修改为模拟 2、3 和 4 秒的采样间隔。使用基于最大斜率模型的软件计算脑血流（CBF）、脑血容量和达峰时间（TTP）图。测量不同灌注图中非缺血半球的实质和血管峰值增强、非缺血半球的 CBF、脑血容量和 TTP 的绝对值以及不同灌注图中的缺血面积。

结果

所有采样间隔>1 秒的模拟数据中，非缺血半球实质峰值增强均有统计学显著降低（P<.001）。所有采样间隔>1 秒的模拟数据中，非缺血半球的绝对 CBF 和 TTP 值均增加（P=.044-.001 和 P=.008-.001）。所有采样间隔>1 秒的模拟数据中，CBF 和 TTP 的缺血面积均显著低估（P=.022-.005 和 P=.019-.005）。

结论

基于最大斜率模型的软件计算 PCT 成像时，采样间隔>1 秒会显著改变绝对 CBF 和 TTP 值以及 CBF 和 TTP 的缺血面积。因此，在该算法中，不能推荐增加动态 PCT 成像的采样间隔。

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增加脑灌注 CT 的采样间隔：最大斜率模型的局限性。

Increasing sampling interval in cerebral perfusion CT: limitation for the maximum slope model.

机构信息

出版信息

RATIONALE AND OBJECTIVES

MATERIALS AND METHODS

RESULTS

CONCLUSIONS

背景与目的

材料与方法

结果

结论

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