核医学图像处理工作站是核医学成像设备的重要组成部分。
The workstation of nuclear medicine image is one of indispensable sets in nuclear medicine imaging equipment.
闪烁晶体广泛应用于高能物理、核医学成像和辐射探测等领域。
Scintillation crystals have been extensively used in high energy physics, nuclear medical image and radiation detectors.
超声由于不使用电离辐射,与摄片,CT扫描和核医学成像技术,它通常被认为更安全。
Because ultrasound does not use ionizing radiation, unlike radiography, CT scans, and nuclear medicine imaging techniques, it is generally considered safer.
宠物,一个核医学成像形态,很适合于透过使用发出正电子的化学实体产生这样的多种图像。
PET, a nuclear medical imaging modality, is ideally suited to produce such kinds of images by use of positron-emitting chemical entities.
随着分子影像学的提出,能通过活体检测移植后的细胞,方法主要有磁共振成像、核医学成像、光学成像。
With the proposing of the molecular imaging, the transplanted cells can be tracked in vivo by MR imaging, nuclear imaging and optical imaging.
目前,比较常用的物理检测手段有:X射线、断层扫描(CT)、核医学成像(mri)、超声成像以及内窥镜检查等。
At present, some often-used physics detecting artifices are: X radial, computerized tomography (ct), magnetic resonance imaging (MRI), ultrasound imaging, endoscopy and so on.
除了少数情况外,放射性检查,包括X光片,计算机断层扫描(CT)或核医学成像技术的辐射暴露的剂量远低于会损伤胎儿的暴露。
With few exceptions, radiation exposure through radiography, computed tomography (CT) scan, or nuclear medicine imaging techniques is at a dose much lower than the exposure associated with fetal harm.
除了少数情况外,放射性检查,包括X光片,计算机断层扫描(CT)或核医学成像技术的辐射暴露的剂量远低于会损伤胎儿的暴露。
With few exceptions, radiation exposure through radiography, computed tomography (CT) scan, or nuclear medicine imaging techniques is at a dose much lower than the exposure associated with fetal harm.
应用推荐