Seracam: characterisation of a new small field of view hybrid gamma camera for nuclear medicine

Background Portable gamma cameras are being developed for nuclear medicine procedures such as thyroid scintigraphy.

This article introduces Seracam® – a new technology that combines small field of view gamma imaging with optical imaging – and reports its performance and suitability for small organ imaging.

Methods The count rate capability, uniformity, spatial resolution, and sensitivity for ^99mTc are reported for four integrated pinhole collimators of nominal sizes of 1 mm, 2 mm, 3 mm and 5 mm.

Characterisation methodology is based on NEMA guidelines, with some adjustments necessitated by camera design.

Two diagnostic scenarios – thyroid scintigraphy and gastric emptying – are simulated using clinically relevant activities and geometries to investigate application-specific performance.

A qualitative assessment of the potential benefits and disadvantages of Seracam is also provided.

Results Seracam’s performance across the measured characteristics is appropriate for small field of view applications in nuclear medicine.

At an imaging distance of 50 mm, corresponding to a field of view of 77.6 mm × 77.6 mm, spatial resolution ranged from 4.6 mm to 26 mm and sensitivity from 3.6 cps/MBq to 52.2 cps/MBq, depending on the collimator chosen.

Results from the clinical simulations were particularly promising despite the challenging scenarios investigated.

The optimal collimator choice was strongly application dependent, with gastric emptying relying on the higher sensitivity of the 5 mm pinhole whereas thyroid imaging benefitted from the enhanced spatial resolution of the 1 mm pinhole.

Signal to noise ratio in images was improved by pixel binning.

Seracam has lower measured sensitivity when compared to a traditional large field of view gamma camera, for the simulated applications this is balanced by advantages such as high spatial resolution, portability, ease of use and real time gamma-optical image fusion and display.

Conclusion The results show that Seracam has appropriate performance for small organ ^99mTc imaging.

The results also show that the performance of small field of view systems must be considered holistically and in clinically appropriate scenarios.