Digital SPECT Imaging Solutions
Innovations that provide the foundation for the next generation of nuclear medicine scanners.
Introducing a true paradigm shift in design, workflow and diagnostic capabilities.
Digital SPECT Imaging Solutions
Innovations that provide the foundation for the next generation of nuclear medicine scanners Introducing a true paradigm shift in design, workflow and diagnostic capabilities
D-SPECT Series
CARDIOLOGY DIGITAL SPECT IMAGING
Open-gantry design for patient access and comfort. Myocardial perfusion scan as fast as two minutes. First digital SPECT camera to provide attenuation artifact correction using patient’s own SPECT data. Two key features for a compressive diagnosis: dynamic imaging for flow reserve calculation and emission-based attenuation correction for conclusive findings.
VERITON-CT Series
360˚ TOTAL BODY DIGITAL SPECT/CT IMAGING
The First ring-shaped SPECT/CT. Design enables 18-minute total body hybrid scan in 3D providing much more information than a planar scan Its 80cm bore size and diagnostic CT capabilities allow for growth in the nuclear medicine department with the technology for new types of procedures and patients. Dynamic imaging in 3D for additional diagnostic information from the moment patient is first injected.
About Us
Leaders in Digital SPECT Innovation
Changing the Shape of Nuclear Medicine
Spectrum Dynamics’ sole passion is the development of high definition, solid-state based nuclear imaging technology that meets the clinical needs and the workflow demands of today’s diagnostic imaging departments in hospitals, clinics and cardiology centers.
Our Technology
Digital SPECT Scanner:
Technology and Design
Spectrum Dynamics’ unique implementation of CZT solid-state detectors has established the design as the gold standard of CZT-based SPECT cameras used in Nuclear Medicine.
CZT detectors technical advantages for SPECT imaging, when compared to traditional NaI detectors, include higher sensitivity, improved energy resolution, and increased sensitivity. CZT is a semi-conductor and via direct conversion of gamma radiation to an electric signal allows for significantly higher count rate when compared to NaI with Anger-based technology. CZT eliminates the need for photomultiplier tubes.