Engineered to inform
- I Shorter photomultiplier tubes combined with lean front-end electronics reduce analog noise and improve performance
- I LEHRS collimators optimized for high sensitivity, low septal penetration and high resolution
- I Exceptional NEMA resolution for SPECT in a detector box that is 13 cm slimmer
- I Evolution technology for up to a 50 percent reduction of scan time or patient dose2
- I Enable a reduction of dose or scan times by up to 25 percent with the increased sensitivity of SwiftScan Planar and SwiftScan SPECT1
- I Improved small lesion detectability with SwiftScan Planar and SwiftScan SPECT3
- I Improved lesion localization, enabled by enhanced visualization of small lesions and anatomical edges4
Switch to an all-digital workflow with SmartConsole
Save time and steps by remotely collaborating with a clinician mid-exam
Enhance productivity with simplified workflows for complex procedures
Easy-to-use user interface helps your department operate efficiently
One home for all of your molecular images
- Improve workflow with automated transfer and archive features
- Streamline access to SPECT/CT and quantitative SPECT/CT studies
- Optimize image quality post-exam with retrospective processing features
One diagnostic insight on top of another
A simpler way to bring everything together
Stay on top of the latest trends in imaging
A system that’s ready for the future when you are
- Modular system design allows for a simple, on-site upgrade without having to do a complete system swap
- Utilize the proven platform of NM/CT 850 and upgrade to NM/CT 860 when you are ready to add standalone diagnostic CT capabilities
- Reduce cost and save space by sharing collimators with existing 600 Series and 800 Series systems
- Cost-effective access to future innovation
- Access future image quality enhancements and Cloud Analytics with the future-ready SmartConsole
Inform your decisions with measurable results
Q. Volumetrix MI
Q. Volumetrix MI
A SPECT/CT system for true discovery
- 1 Compared to LEHR collimator, with Step & Shoot scan mode (for SPECT) / without Clarity 2D (for Planar). As demonstrated in phantom testing using a bone scan protocol, Evolution processing (for SPECT), and a model observer. Because model observer results may not always match those from a human reader, the actual time/dose reduction depends on the clinical task, patient size, anatomical location and clinical practice. A radiologist should determine the appropriate scan time/dose for the particular clinical task.
- 2 In clinical practice, Evolution options2a (Evolution for Bone, Evolution for Cardiac, Evolution for Bone Planar) and Evolution Toolkit2b are recommended for use following consultation of a Nuclear Medicine physician, physicist and/or application specialist to determine the appropriate dose or scan time reduction to obtain diagnostic image quality for a particular clinical task, depending on the protocol adopted by the clinical site.
- 2a Evolution Options - Evolution claims are supported by simulation of count statistics using default factory protocols and imaging of 99mTc based radiotracers with LEHR collimator on anthropomorphic phantom or realistic NCAT – SIMSET phantom followed by quantitative and qualitative images comparison.
- 2b Evolution Toolkit - Evolution Toolkit claims are supported by simulation of full count statistics using lesion simulation phantom images based on various radiotracers and collimators and by showing that SPECT image quality reconstructed with Evolution Toolkit provide equivalent clinical information but have better signal-to-noise, contrast, and lesion resolution compared to the images reconstructed with FBP / OSEM.
- 3 As demonstrated in phantom testing using a model observer. For SPECT, compared to using the LEHR Collimator and a SPECT Step & Shoot acquisition. For Planar, compared to using LEHR without Clarity 2D.
- 4 Compared to Optima™ NM/CT 640, as demonstrated in phantom testing.