COMPACT All modalities have been designed to minimize total footprint. γ imager is laptop operated for maximal portability.
UPGRADABLE Each module can be purchased separately: switching from one modality to another is fast and easy.
FAST AND EASY Quantitative information is easy to get from planar scintigraphy or µSPECT.
REAL-TIME µSPECT and µCT acquisitions are performed simultaneously, with REAL-TIME display of BOTH modalities and their registered fusion.
SUB-mm Spatial resolution with pinhole collimation.

Planar scintigraphy

• γ imager is fast, easy to operate and provides reliable quantitative information
• powerful hardware and software tools generate high resolution scintigraphic images on which regions of interest can easily be drawn for quantitation purpose
• full body mouse biodistributions are saved in a list mode file allowing separation of the image contributions of different radioisotopes as well as opening any time frame of interest
• γ imager is compatible with a wide range of radioisotopes, including ¹²⁵I, ^81mKr, ²⁰¹Tl, ^99mTc, ¹²³I, ¹¹¹In
• γ imager is operated from a notebook computer and the ideal solution for multi sites experiments including small animal facilities

µ SPECT

• switching from planar scintigraphy to µSPECT imaging is very easy and convenient
• this cost effective solution has been designed to provide state of the art performance with minimal footprint, compatible with any lab bench-top
• during acquisition, a µSPECT reconstructed transaxial slice is displayed and refreshed continuously for close experiment monitoring
• dynamic studies are available in µSPECT mode with 1 minute time resolution
• parallel collimation and high resolution pinhole collimation are available

γ imager -sct

µSPECT/ µCT

• γ imager-sct hardware and software provide 3D image fusion that combines µCT high resolution anatomical image with µSPECT functional information
• µCT large field of view is compatible with large rat imaging as well as full body mouse imaging
• γ imager-sct performs both µSPECT and µCT acquisitions simultaneously
• fused µSPECT/µCT images are displayed in real-time and refreshed continuously during the experiment.