前言:目的:探讨螺旋CT多平面重建技术在临床诊断中的价值。
Objective: to probe into the value of spiral ct multiplane reformation (MPR) in clinical diagnosis.
目的:探讨HRCT多平面重建技术在视神经管骨折中的临床应用价值。
Purpose: To evaluate the clinical value of HRCT multiplane reconstruction (MPR) in the fracture of optic canal.
评价16层计算机断层摄影结合多平面重建技术在胆管阻塞病人中的应用。
To evaluate the diagnostic use of 16 slice ct cholangiography with multiplanar reformation (MPR) for the assessment of patients with biliary obstruction.
【摘要】目的探讨MSCT增强扫描及其多平面重建技术对判断鼻咽癌颈动脉鞘区侵犯的价值。
Abstract】 Objective To probe into the technology of MSCT contrast enhancement scanning and Multiplanar reformation which judge nasopharyngeal carcinoma carotid sheath area whiplash being infringed.
结论:恰当的选择多平面重建技术系列,有针对性的对病变进行观察,有助于全面理解和分析病灶的全貌,为临床提供更直观可靠的信息。
Conclusion: Proper selection of the technique series and directed observations of pathological changes may help to understand and analyse the whole picture of focus to provide direct and rel...
目的探讨MSCT三维3d重建技术及多平面重建(MPR)技术在骨关节创伤中的诊断价值。
Objective To evaluate diagnostic value of MSCT 3d and multiplanar reconstruction (MPR) for trauma of bones and joints.
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)。
Reconstruction methods were multiple planar reconstruction(MPR), maximum intensity projection(MIP) and volume rendering technique(VRT).
目的探讨螺旋CT多平面重建(MPR)、三维表面重建(SSD)技术在骨盆创伤诊断中的价值。
Objective To evaluate multiplanar reconstruction(MPR), surface shaded display(SSD) techniques with spiral CT in displaying pelvic trauma.
本文旨在介绍mDCTA,薄层动态增强和多平面重建,MDCT灌注成像,MDCT尿路造影等的检查方法与技术及其在泌尿系统疾病诊断中的应用和意义。
In this article, We described the methods and techniques of MDCTA, including dynamic contrast-enhanced CT scan and multiplanar reformation, MDCT perfusion, and MDCT urography.
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。
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。
To evaluate multi-planar reconstruction MPR, maximum intensity projection MIP and volume rendering technique VR in diagnosis of complicated maxillofacial fractures.
应用推荐