DELTA

Up to 80%* radiation dose reduction at the same low contrast detectability (LCD).
Up to 98%* image noise reduction at the same dose.
Up to 155%* LCD improvement at the same dose.
As clinical examinations become more complex, the demands on CT scanner's performance increase, requiring improvements not only in patient care but also in workflow efficiency. This drives the need to integrate AI into the CT scanners. uCT 780, equipped with advanced AI technology, enhances image quality while reducing dose, simplifies the examination process for technicians, and offers versatility for radiologists handling a broad spectrum of clinical scenarios.
uCT 780 equipped with the DELTA deep learning reconstruction algorithm, excels in fine image details at low radiation dose, effectively bridging the gap between radiation dose reduction and patient-centric care.
Up to 80%* radiation dose reduction at the same low contrast detectability (LCD).
Up to 98%* image noise reduction at the same dose.
Up to 155%* LCD improvement at the same dose.
Under low-dose scanning conditions, DELTA can display richer vascular details, with longer vascular extraction and sharper vessel edges.
Cardiac CT imaging is commonly used, yet complex cases need more advanced solutions. uCT 780 combines AI workflows with advanced hardware to offer a smooth and efficient examination experience for intricate cardiac scenarios.
For a patient with a high heart rate of 93 bpm, thanks to 0.3s rotation speed, the images obtained were clear without significant motion artifacts.
In addition to the clinical applications of conventional 64-row CT scanners, the uCT 780 showcases remarkable versatility. Equipped with spectral and dynamic perfusion imaging, it serves as a valuable tool across various clinical scenarios.
Whole-brain dynamic perfusion imaging, with a scanning length of 14 cm, combines wide-ranging dynamic perfusion imaging with an intelligent post-processing software, which can rapidly and accurately present quantitative analysis results for whole-brain functional studies.