Multifunctional X-ray system capable to capture both dynamic and static images
Full DICOM Compatibility
Cineloop up to 300 images in 20s generated by continuously irradiating with pulse X-ray
Whole anatomy acquired in a single exposure with 17’x17’ field of view
No contrast agent or radiopharmaceutical required to provide functional information
Dynamic Digital Radiography (DDR) is a novel X-ray technology that provides a series of individual digital images acquired at high speed and low dose. The resulting cine loop enables clinicians to observe the dynamic motion of anatomical structures over time, enhancing diagnostic capabilities.
Accessibility
DDR capabilities with the new mobile AeroDR TX enables portable exam anytime and anywhere in ICU department and/ or patient ward improving diagnostic capabilities.
Clinical value
DDR presents a 17" x 17" view of quantifiable and functional findings not detected with standard X-ray.
Effective
Visualize and quantify movement, interaction, dynamic density, change over time, and pathophysiology.
Efficient
Full exams are performed in minutes with the same workflow of a standard x-ray.
Cost-effective solution
Availability of DDR into X-ray equipment enhances diagnostic capabilities on the most widely used and easily accessible technique, providing a cost-effective solution that can substantially improve patient care.
Patient-centric
DDR uses low radiation, does not require contrast, and can be performed in multiple positions.
Specifications
For complete specifications please refer to the web pages of the corresponding products:
The DI-X1 is a dedicated medical image analysis workstation designed specifically for DDR images. Alongside the dynamic flat panel digital detector “AeroDR3 HD2” and the AeroDR TX m01 portable x-ray system, the DI-X1 is an essential component to enable the Dynamic Digital Radiography technology. With advanced software capabilities, the DI-X1 provides the analysis and quantification of dynamic images, offering accurate insights into the functional and physiological processes of moving anatomy.
