铁诱导的苍白球敏感性效应导致动态对比增强磁共振灌注图像上血流和血容量的低估。
Iron-induced susceptibility effect at the globus pallidus causes underestimation of flow and volume on dynamic susceptibility contrast-enhanced MR perfusion images.
作者信息
Yamada Kei, Gonzalez R Gilberto, ØStergaard Leif, Komili Suzanne, Weisskoff Robert M, Rosen Bruce R, Koroshetz Walter J, Nishimura Tsunehiko, Sorensen A Gregory
机构信息
Department of Radiology, Kyoto Prefectural University of Medicine, Kyoto City, Japan.
出版信息
AJNR Am J Neuroradiol. 2002 Jun-Jul;23(6):1022-9.
BACKGROUND AND PURPOSE
Age-related iron accumulation in extrapyramidal nuclei causes T2 shortening, which may result in decreased signal intensity in these areas on MR images. Because the dynamic susceptibility contrast-enhanced technique uses heavily T2*- or T2-weighted images, the iron-induced susceptibility may have direct impact on perfusion imaging. The purpose of this study was to assess the effect of iron-induced susceptibility on the calculated perfusion parameters. The difference of this effect between gradient-echo and spin-echo sequences was also assessed.
METHODS
Dynamic susceptibility contrast-enhanced MR perfusion imaging data of 12 patients were used for this study. Perfusion images were obtained using a single shot spin-echo echo-planar imaging sequence in seven patients and a gradient-echo echo-planar imaging sequence in five patients. Region of interest measurements of relative cerebral blood flow, relative cerebral blood volume, and mean transit time were obtained at various parts of the gray matter, including the globus pallidus, putamen, caudate nucleus, thalamus, and cerebral cortex of temporal, frontal, and occipital lobes. The baseline signal intensity on the source images and the magnitude of signal change (DeltaR2* or DeltaR2) were also assessed.
RESULTS
The globus pallidus had statistically significantly lower values of relative cerebral blood flow, relative cerebral blood volume, baseline signal intensity, and magnitude of signal change compared with other parts of the gray matter for both gradient-echo and spin-echo sequences (P <.05). Underestimations of these values were more prominent for the gradient-echo than for the spin-echo sequence. Little variance in the measured mean transit time was noted.
CONCLUSION
Iron-induced susceptibility effect may lead to underestimation of relative cerebral blood flow and relative cerebral blood volume in the basal ganglia.
背景与目的
锥体外系核团中与年龄相关的铁蓄积会导致T2缩短,这可能致使这些区域在磁共振成像(MR)上的信号强度降低。由于动态磁敏感对比增强技术使用的是重度T2*加权或T2加权图像,铁诱导的磁敏感性可能会对灌注成像产生直接影响。本研究的目的是评估铁诱导的磁敏感性对计算得到的灌注参数的影响。同时还评估了梯度回波序列和自旋回波序列之间这种影响的差异。
方法
本研究使用了12例患者的动态磁敏感对比增强MR灌注成像数据。7例患者采用单次激发自旋回波平面回波成像序列获取灌注图像,5例患者采用梯度回波平面回波成像序列。在灰质的各个部位,包括苍白球、壳核、尾状核、丘脑以及颞叶、额叶和枕叶的大脑皮质,进行感兴趣区相对脑血流量、相对脑血容量和平均通过时间的测量。还评估了源图像上的基线信号强度以及信号变化幅度(ΔR2*或ΔR2)。
结果
对于梯度回波序列和自旋回波序列,苍白球的相对脑血流量、相对脑血容量、基线信号强度和信号变化幅度在统计学上均显著低于灰质的其他部位(P <.05)。与自旋回波序列相比,梯度回波序列对这些值的低估更为明显。测量得到的平均通过时间变化不大。
结论
铁诱导的磁敏感效应可能导致基底节区相对脑血流量和相对脑血容量的低估。
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