GATE simulation of a new design of pinhole SPECT system for small animal brain imaging

Small animal SPECT imaging has gained an increased interest over the past decade since it is an excellent tool for developing new drugs and tracers. Therefore, there is a huge effort on the development of cost-effective SPECT detectors with high capabilities. The aim of this study is to simulate the performance characteristics of new designs for a cost effective, stationary SPECT system dedicated to small animal imaging with a focus on mice brain. The conceptual design of this SPECT system platform, Stationary Small Animal SSA-SPECT, is to use many pixelated CsI:TI detector modules with 0.4 mm × 0.4 mm pixels in order to achieve excellent intrinsic detector resolution where each module is backed by a single pinhole collimator with 0.3 mm hole diameter. In this work, we present the simulation results of four variations of the SSA-SPECT platform where the number of detector modules and FOV size is varied while keeping the detector size and collimator hole size constant. Using the NEMA NU-4 protocol, we performed spatial resolution, sensitivity, image quality simulations followed by a Derenzo-like phantom evaluation. The results suggest that all four SSA-SPECT systems can provide better than 0.063% system sensitivity and < 1.5 mm FWHM spatial resolution without resolution recovery or other correction techniques. Specifically, SSA-SPECT-1 showed a system sensitivity of 0.09% in combination with 1.1 mm FWHM spatial resolution.

[1]  Donald W. Wilson,et al.  FastSPECT II: a second-generation high-resolution dynamic SPECT imager , 2002, IEEE Transactions on Nuclear Science.

[2]  C Lartizien,et al.  GATE: a simulation toolkit for PET and SPECT. , 2004, Physics in medicine and biology.

[3]  Mark T Madsen,et al.  Recent Advances in SPECT Imaging , 2007, Journal of Nuclear Medicine.

[4]  S. Ohsuka,et al.  Development of PET detectors using monolithic scintillation crystals processed with sub-surface laser engraving technique , 2009 .

[5]  S. Shokouhi,et al.  Multi-Pinhole SPECT Imaging With Silicon Strip Detectors , 2005, IEEE Transactions on Nuclear Science.

[6]  L. C. Johnson,et al.  Performance characterization of a high-purity germanium detector for small-animal SPECT , 2011 .

[7]  M. Khalil,et al.  Molecular SPECT Imaging: An Overview , 2011, International journal of molecular imaging.

[8]  Bipin Singh,et al.  Fabricating high-resolution and high-sensitivity scintillator arrays using Laser Induced Optical Barriers , 2012, 2012 IEEE Nuclear Science Symposium and Medical Imaging Conference Record (NSS/MIC).

[9]  Harrison H Barrett,et al.  Progress in BazookaSPECT: high-resolution dynamic scintigraphy with large-area imagers , 2012, Other Conferences.

[10]  Roel Van Holen,et al.  Design and performance of a compact and stationary microSPECT system. , 2013, Medical physics.

[11]  B. Jang MicroSPECT and MicroPET Imaging of Small Animals for Drug Development , 2013, Toxicological research.

[12]  E. Mikhaylova,et al.  Optimization, evaluation, and comparison of standard algorithms for image reconstruction with the VIP-PET , 2014, Journal of instrumentation : an IOP and SISSA journal.

[13]  Chin-Tu Chen,et al.  MRC-SPECT: A sub-500 μm resolution MR-compatible SPECT system for simultaneous dual-modality study of small animals. , 2014, Nuclear instruments & methods in physics research. Section A, Accelerators, spectrometers, detectors and associated equipment.

[14]  L. MacDonald,et al.  Light-Sharing Interface for dMiCE Detectors Using Sub-Surface Laser Engraving , 2013, IEEE Transactions on Nuclear Science.

[15]  Arkadiusz Sitek,et al.  A sub-mm spatial resolution LYSO:Ce detector for small animal PET , 2015, 2015 IEEE Nuclear Science Symposium and Medical Imaging Conference (NSS/MIC).

[16]  H. Sabet,et al.  Novel laser-processed CsI:Tl detector for SPECT. , 2016, Medical physics.

[17]  H. Uchida,et al.  A novel single-ended readout depth-of-interaction PET detector fabricated using sub-surface laser engraving , 2016, Physics in medicine and biology.