所有图像后处理均采用最大信号强度投影(MIP)技术。
The images were trageted with maximum intensity projection (MIP).
原始图像以最大信号强度投影(MIP)进行三维图像后处理。
Postprocedure processing with a maximum intensity projection (MIP) algorithm was made for three dimensional(3D) reconstruction.
原始图像先进行减影处理,再进行最大信号强度投影(MIP)重建。
The source images were subtraction from mask images followed by maximum intensity projection(MIP)reconstruction.
重组最大信号强度投影(MIP)图像后,原始单层图像和mip图像均用于图像质量的评估。
For image quality evaluation, MR maximum intensity projection (MIP) images were created. Both original single slices and MIP images were used for image quality evaluation.
MRC采用高级转换快速自旋回波序列(FASE),二维和三维成像,图像经最大信号强度投影(mip)后处理。
MRC was performed with 2d, 3d fast advanced spin echo (FASE) sequence. The resulting slices were reconstructed with maximum intensity projection (MIP) into composite images.
方法对24例临床疑有颅内动脉瘤患者进行3DCTA检查,后处理技术包括最大信号强度投影(MIP)以及容积重建(VRT)。
Methods 24 patients who suspected as harboring cerebral aneurysms by referring physiciansunderwent 3DCTA. 3D post processing techniques including MIP and VRT after bone subtraction.
方法对24例临床疑有颅内动脉瘤患者进行3DCTA检查,后处理技术包括最大信号强度投影(MIP)以及容积重建(VRT)。
Methods 24 patients who suspected as harboring cerebral aneurysms by referring physiciansunderwent 3DCTA. 3D post processing techniques including MIP and VRT after bone subtraction.
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