Nuclear Medicine

With a wide range of available isotopes and the flexibility to explore multiple pathways in a single session, NM cameras are full of potential. Our latest advancements are making nuclear medicine technology more accessible and enabling it to provide you with more meaningful clinical answers.
StarGuide™
MyoSPECT™
NM/CT 860
NM/CT 850
NM 830

StarGuide

Introducing StarGuide, our most advanced SPECT/CT featuring advanced Cadmium Zinc Telluride (CZT) technology designed to usher in a new era of discovery for nuclear medicine.

Explore

new protocols by visualizing multiple tracers simultaneously

Search

for new insights with 3D Dynamic Acquisition¹

Research

existing tracers to help expand their clinical applications

Support

the development of new tracers

Learn more

MyoSPECT

A next-generation cardiac-dedicated nuclear medicine scanner that gets to the heart of challenging cardiovascular cases

Clear, more complete look at every patient's heart

Extended FOV processing for a 76% increase in FOV volume²

True dynamic imaging with SPECT Flow

Combine dynamic acquisition on MyoSPECT with CFR and aboslute myocardial blood flow

Two different attenuation compensation solutions

Evaluate attenuation by imaging in prone and supine positions, or combine the perfusion images with separate CT images on Xeleris

Smart Positioning Workflow

Automated scan position and FOV recommendations

Learn more

NM/CT 860

NM/CT 860 is a SPECT/CT system designed for high-performance clinical environments. It combines the SPECT and productivity enhancements of the 800 Series with an optimal balance of CT technology. Technology with the thin-slice CT performance you need for all of your SPECT/CT protocols and the most common standalone CT exams.

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

Improve workflow

with automated transfer and archive features

Learn more

NM/CT 850

NM/CT 850 is our most accessible SPECT/CT system with the smallest footprint of all our 800 Series SPECT/CT systems. It combines the SPECT image quality and productivity enhancements of the 800 Series with the essential CT technology for providing that all-important layer of anatomical information, which you need specifically for localization and attenuation correction in SPECT imaging.

Our most accessible SPECT/CT system

Has the smallest footprint of all our 800 Series SPECT/CT systems

Enhance productivity

with simplified workflows for complex procedures

Increase confidence in your images

Leveraging the CT technology you need for anatomical localization and attenuation correction

Cost-effective system upgrade

Shares the same modular design as the rest of the 800 Series family of nuclear medicine systems

Learn more

NM 830

NM 830 brings you the diagnostic capability of a dual-head SPECT system with a focus on patient comfort. With low total cost of ownership and straight-forward upgrade paths to more advanced capabilities, this system is the foundation of our general purpose nuclear medicine portfolio.

Enable reduction of dose or scan times

by up to 25 percent with the increased sensitivity of SwiftScan Planar and SwiftScan SPECT5

Shorter, more tolerable exams

for greater patient comfort, with Evolution technology6

Diagnose disease earlier

with SwiftScan Planar and SwiftScan SPECT’s improved small lesion detectability4

Learn more

CZT: Precision imaging at the speed of tomorrow

CZT is the key component to the future of nuclear medicine. Not only is it lighter and more compact than the Nal crystals used in analog technology, it is pixelated. With registered collimation, each photon is directly converted into an electrical signal that more accurately identifies its location and energy. The result is increased spatial and energy resolution.

DISCLAIMERS
  1. 1. Acquisition only. The acquired dynamic data is stored in a list file.
  2. 2. As compared to Discovery™ NM 530c.
  3. 3. In clinical practice, the use of NM/CT CZT 870 with WEHR collimator may improve lesion detectability depending on the clinical task, patient size, anatomical location and clinical practice. A consultation with a radiologist and a physicist should be made to determine the appropriate dose or scan time to obtain diagnostic image quality for the particular clinical task.
  4. 4. 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.
  5. 5. 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 task.
  6. 6. In clinical practice, Evolution options6a (Evolution for Bone, Evolution for Cardiac, Evolution for Bone Planar) and Evolution Toolkit6b 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.
    1. 6a. 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.
    2. 6b. 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.

Have a question? We would love to hear from you.

JB02111IN