The images were trageted with maximum intensity projection (MIP).
所有图像后处理均采用最大信号强度投影(MIP)技术。
The source images were subtraction from mask images followed by maximum intensity projection(MIP)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。
Postprocedure processing with a maximum intensity projection (MIP) algorithm was made for three dimensional(3D) reconstruction.
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.
图像后处理以最大强度投影法(MIP)进行三维(3D)重建。
Reconstruction methods were multiple planar reconstruction(MPR), maximum intensity projection(MIP) and volume rendering technique(VRT).
重建应用多平面重建(MPR),最大密度投影(M IP)及容积显示技术(VRT)。
Then fast spiral echo sequence was used to get weighted T2WI images and the images were reconstructed with MIP(maximum intensity projection).
然后用快速自旋回波重T2 WI加权序列扫描,图像经最大密度投影法重建。
Objective: To assess the value of maximum intensity projection (MIP) of multi slice spiral ct (MSCT) in measuring the scapula glenoid inclination Angle.
目的:探讨多层螺旋CT (MSCT)最大强度投影(mip)测量肩胛孟斜倾角的价值。
MRA used 3 dimensional time of flight method and demonstrated the intra cranial arteries with the maximum intensity projection (MIP) of the source images.
MRA 检查采用三维时间飞跃法,对源图像做最大强度投影重建血管影像。
To evaluate multi-planar reconstruction MPR, maximum intensity projection MIP and volume rendering technique VR in diagnosis of complicated maxillofacial fractures.
多种后处理技术,即多平面重建、最大密度投影及容积再现在颌面部复杂骨折中的应用价值。
The data may be presented by way of a maximum intensity projection (MIP) display in which the brightness of the image represents the strength of the vascular connection.
可以通过最大强度投影(mip)显示的方式呈现该数据,其中,图像的亮度代表脉管连接的强度。
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.
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。
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.
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。
Methods The maximum intensity projection (MIP) and surface shade display (SSD) CTP images were performed in 60 normal subjects and 108 patients suspected of hepatic diseases.
方法对60例正常和10 8例疑有肝脏疾病的患者作了最大强度投影(MIP)和表面遮盖法(SSD)CTP成像。
Objective To evaluate the diagnostic value of multiplanar reconstruction (MPR), shaded surface display (SSD) and maximum intensity projection (MIP) of spiral ct for pelvis fractures.
目的探讨螺旋CT多平面重建(MPR)、表面遮盖显示法(SSD)及最大密度投影法(MIP)在骨盆骨折诊断中的价值。
Volume rendering (VR), maximum intensity projection (MIP) and multiplanar reformation (MPR) were used to analyze intracranial vessels on the graphics workstation by two radiologists.
由两位放射医师分别在工作站上行常规与减影的容积再现(VR),最大密度投影(MIP)和多平面重组(MPR)方法分析颅内血管。
Objective: To assess the clinical value of multiplanar reconstruction (MPR), surface shaded display (SSD) and maximum intensity projection (MIP) with spiral ct in trauma of bone and joint.
目的:探讨螺旋CT多平面重建(MPR)、表面遮盖法重建(SSD)和最大密度投影(MIP)重建在骨关节外伤中的临床应用价值。
Objective to evaluate the clinical application value of multiplanar reconstruction (MPR), shaded surface display (SSD) and maximum intensity projection (MIP) with spiral ct to scapular fractures.
目的探讨螺旋CT多平面重建(MPR)、表面遮盖显示法(SSD)及最大密度投影法(MIP)在肩胛骨骨折诊断中的价值。
Objective to evaluate the clinical application value of multiplanar reconstruction (MPR), shaded surface display (SSD) and maximum intensity projection (MIP) with spiral ct to scapular fractures.
目的探讨螺旋CT多平面重建(MPR)、表面遮盖显示法(SSD)及最大密度投影法(MIP)在肩胛骨骨折诊断中的价值。
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