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Journal of medical physics
2024 Oct-Dec;49 (4): 631-641.

Design and Performance Evaluation of SiPM-based High-resolution Dedicated Brain Positron Emission Tomography Scanner: A Simulation Study.

Tahereh Zare, Peyman Sheikhzadeh, Behnoosh Teimourian Fard, Pardis Ghafarian, Mohammad Reza Ay
Author Information
  1. Tahereh Zare: Department of Medical Physics and Biomedical Engineering, Tehran University of Medical Science, Tehran, Iran.
  2. Peyman Sheikhzadeh: Department of Medical Physics and Biomedical Engineering, Tehran University of Medical Science, Tehran, Iran.
  3. Behnoosh Teimourian Fard: Research Center for Molecular and Cellular Imaging (RCMCI), Advanced Medical Technologies and Equipment Institute (AMTEI), Tehran University of Medical Sciences, Tehran, Iran.
  4. Pardis Ghafarian: Chronic Respiratory Diseases Research Center, National Research Institute of Tuberculosis and Lung Diseases (NRITLD), Shahid Beheshti University of Medical Sciences, Tehran, Iran.
  5. Mohammad Reza Ay: Department of Medical Physics and Biomedical Engineering, Tehran University of Medical Science, Tehran, Iran.
PMID: 39926137 DOI: 10.4103/jmp.jmp_134_24

Abstract

Purpose/Aim: The increasing population age highlights the critical need for early brain disease diagnosis, especially in disorders such as dementia. Consequently, a notable focus has been on developing dedicated brain positron emission tomography (PET) scanners, which offer higher resolution and sensitivity than whole-body PET scanners. This study aims to design and performance evaluation of an LYSO-based dedicated brain PET scanner.
Materials and Methods: We developed a dedicated brain PET using Monte Carlo simulation based on cylindrical geometry. Each detector block consisted of a 23 �� 23 array of 2 mm �� 2 mm �� 15 mm LYSO crystals coupled with SiPM. The performance of this scanner was evaluated based on the NEMA NU-2-2018 standard, focusing on analyzing various energy windows and coincidence time windows (CTWs).
Results: The results demonstrated that the noise equivalent count rate (NECR) peaked at each CTW in the 408-680 keV energy window. In addition, increasing the CTWs from 3 ns to 10 ns resulted in a decrease of 9% in sensitivity and an increase of 63% in NECR. Furthermore, the study findings highlight that using a time-of-flight (TOF) resolution of 250 ps can substantially improve image contrast relative to non-TOF reconstruction.
Conclusions: We conclude that employing a broader energy window and a narrower CTW can significantly enhance the scanner's performance regarding sensitivity and NECR. Furthermore, incorporating LYSO pixelated crystals with TOF information will facilitate the generation of high-resolution and high-contrast images.

Keywords

Dedicated brain positron emission tomography Monte Carlo simulation noise equivalent count rate sensitivity time of flight

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Journal Article

Word Cloud

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