The content on this page is intended to healthcare professionals and equivalents.
With the aging of society around the world, the demand for reducing the physical burden on patients is increasing at medical fields.
On the other hand, there is a demand for optimal and efficient hospital management, and it is also required to respond to various healthcare needs.
We will solve the challenges being faced in the medical practice with “Supria”, which can meet the healthcare needs of present and future.
To use the iterative processing (Intelli IP), a noise reduction technology, more efficiently on routine examinations, reconstruction speed has been improved by 50% compared to the Conventional CT. In addition, the intensity of noise reduction can be selected from seven levels, providing high quality images with appropriate exposure dose, image noise reduction and artifact reduction based on the operation
guideline at clincal sites.
High performance, such as high-speed rotation, submillimeter slice imaging, powerful X-ray generator and state-of-the-art image reconstruction algorithms,
realizes high resolution and high throughput examinations.
Supria realizes high resolution images in a short time based on 0.625mm x 16ch scanning. In addition, high resolution and smooth 3D images and MPR images can be achieved by submillimeter slice scanning. Oblique images by MPR can be also achieved after scanning.
The gantry has a function of tilting within a range of ± 30 degrees, which is possible to reduce exposure to highly radiation sensitive tissues.
In addition, excellent, high-quality images with low contrast can be achieved by normal scan of the head, compared to volume scan.
This imaging method takes into account exposure to the patient as well as image quality.
Our technology enables to develop a powerful and high efficiency X-ray generator.
It achieves sufficient output with a compact power supply facility. It can also cover heavy load examinations on X-ray tube, such as wide-area imaging and multi-phase imaging.
HiMAR (High Quality Metal Artifact Reduction) adopts unique algorithms for estimating and correcting artifacts based on metal data.
With a large bore of 750mm and a maximum effective field of view that reduces anxiety of the patient, it is possible to scan with various patient's positions.
ECG Prospective scanning is a function that scans and achieves image in synchronization with electrocardiographic information. Images achieved by ECG Prospective scanning can be used for calcium scoring analysis*1.
Equipped with a motion artifact correction, body movement can be compensated even after scanning. Even if the patient is out of the effective field of view, such as a patient with a kyphosis, images can be reconstructed without re-scanning in case it is within the maximum effective field of view.
Motion artifact correction
Full FOV data acquisition
The scan button is located on the intercom box, just above the keyboard, with simply arranged operation buttons, large text, and an easy-to-understand display, which support examinations efficiently.