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Concept Design and Monte Carlo Performance Evaluation of Headphonepet: A Novel Brain-Dedicated Pet System Based on Partial Cylindrical Detectors Publisher



Sheikhzadeh P1, 2 ; Sabet H3 ; Ghadiri H1, 2 ; Geramifar P4 ; Ghafarian P5, 6 ; Ay MR1, 2
Authors
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Authors Affiliations
  1. 1. Department of Medical Physics and Biomedical Engineering, Tehran University of Medical Science, Tehran, Iran
  2. 2. Research Center for Molecular and Cellular Imaging, Tehran University of Medical Sciences, Tehran, Iran
  3. 3. Massachusetts General Hospital, Harvard Medical School, Boston, MA, United States
  4. 4. Research Center for Nuclear Medicine, Shariati Hospital, Tehran University of Medical Sciences, Tehran, Iran
  5. 5. Chronic Respiratory Diseases Research Center, National Research Institute of Tuberculosis and Lung Diseases (NRITLD), Shahid Beheshti University of Medical Sciences, Tehran, Iran
  6. 6. PET/CT and Cyclotron Center, Masih Daneshvari Hospital, Shahid Beheshti University of Medical Sciences, Tehran, Iran

Source: Journal of Instrumentation Published:2018


Abstract

Introduction: In recent years, different geometries of brain-dedicated PET scanners have been developed due to the fact that there are great emerging demands for high-quality and low-cost brain-dedicated scanners. To meet the demand, we present a novel conceptual design based on a partial cylindrical detector geometry and evaluate the performance of the designed scanner. Methods and materials: The proposed design was modeled with a ring diameter of 245 mm and axial field of view (FOV) of 277 mm, thus covering the top and sides of patient's head. Detection efficiency of our new optimized design, which we refer to as HeadphonePET, was calculated against conventional cylindrical brain PET and whole-body positron scanners. Also, in order to measure the system spatial resolution and evaluate image quality, different simulated array sources and their related projections were extracted. Finally the obtained projections were reconstructed using analytical and iterative algorithms. Results: The simulation results indicate that the normalized mean efficiency of the HeadphonePET, with 30% less used crystals, can provide 1.2% higher sensitivity with respect to conventional cylindrical brain PET. However, it was demonstrated that the HeadphonePET, due to its partial coverage nature, cannot provide better spatial resolution when using analytical reconstruction algorithms. We obtained much-improved results when we used iterative reconstruction algorithms (1.61 mm FMHM for the HeadphonePET, versus 1.16 mm FWHM for the same full-ring scanner). Conclusion: The HeadphonePET as a novel conceptual design, with about 70% number of detectors with respect to a conventional full-ring cylindrical scanner, can achieve higher detection efficiency and comparable image quality (on the level of resolution of point sources). This proposed low-cost, compact and open view design, inducing no patient fear, possesses a big potential for brain imaging for different patient positions. © 2018 IOP Publishing Ltd and Sissa Medialab.
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