High-Performance Dual-Ended SiPM Readout for TOF-PET With BGO and LYSO:Ce

IF 3.5 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING

IEEE Transactions on Radiation and Plasma Medical Sciences Pub Date : 2025-02-07 DOI:10.1109/TRPMS.2025.3539191

Nicolaus Kratochwil;Emilie Roncali;Joshua W. Cates;Gerard Ariño-Estrada

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引用次数: 0

Abstract

Detection time performance is a key aspect for time-of-flight positron emission tomography. With recent advancement in SiPM technology and fast readout electronics, one limiting factor on timing performance is light transport in the crystal. For high aspect-ratio crystals with single-ended readout, the time information of approximately half the optical photons is severely degraded as they initially travel in the direction opposed to the photodetector. For promptly-emitted Cherenkov photons, the increase of variance of optical path length limits their intrinsic advantage. Low-noise and high-frequency dual-ended SiPM readout can be employed to mitigate the aforementioned challenges and has the potential to combine ultrafast timing with highest gamma-ray detection efficiency. We have studied the timing properties of cerium-doped lutetium-yttrium-oxyorthosilicate (LYSO:Ce) and bismuth germanate (BGO) in a symmetric dual-ended SiPM readout configuration. A time-based depth-of-interaction correction and a novel adaptive timestamp weighting was used to optimize the timing performance. Coupling 3x3x20 mm3 polished BGO crystals to Broadcom AFBR-S4N44P014M SiPMs a CTR of 234 ± 4 ps FWHM (harmonic average) was obtained for all photopeak events. For same-sized LYSO:Ce crystals, the measured CTR value is 98 ± 2 ps, which is in excellent agreement with analytic calculations on the timing limits considering scintillation properties and modeling of light transport. The results demonstrate significant timing improvement with dual-ended readout, both for Cherenkov photons in BGO and for standard scintillation for enhanced diagnostic accuracy in PET imaging.

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高性能双端SiPM读出TOF-PET与BGO和LYSO:Ce

探测时间性能是飞行时间正电子发射层析成像的一个关键方面。随着SiPM技术和快速读出电子器件的最新进展，晶体中的光输运是影响定时性能的一个限制因素。对于具有单端读出的高宽高比晶体，大约一半光子的时间信息在它们最初沿与光电探测器相反的方向行进时严重退化。对于迅速发射的切伦科夫光子，光程长度方差的增加限制了它们固有的优势。低噪声和高频双端SiPM读出器可用于缓解上述挑战，并具有将超快定时与最高伽马射线探测效率相结合的潜力。我们研究了铈掺杂的氧化硅酸镥钇（LYSO:Ce）和锗酸铋（BGO）在对称双端SiPM读出结构下的定时特性。采用基于时间的交互深度校正和一种新的自适应时间戳加权来优化定时性能。将3x3x20mm3抛光BGO晶体与Broadcom AFBR-S4N44P014M SiPMs耦合，获得了所有光峰事件的CTR为234±4 ps FWHM（谐波平均）。对于相同尺寸的LYSO:Ce晶体，CTR测量值为98±2 ps，这与考虑闪烁特性和光输运建模的时间限制的解析计算非常吻合。结果表明，双端读出对BGO中的切伦科夫光子和标准闪烁都有显著的时序改善，从而提高了PET成像的诊断准确性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

IEEE Transactions on Radiation and Plasma Medical Sciences RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING-

CiteScore

8.00

自引率

18.20%

发文量

109