High resolution detectors for whole-body PET scanners by using dual-ended readout

Zheng, Li; Niu, Muye; Kuang, Zhonghua; Ren, Na; Wu, San; Cong, Lin; Wang, Xiaohui; Sang, Ziru; Williams, C.; Yang, Yongfeng

doi:10.1186/s40658-022-00460-4

Cited by 5 publications

(9 citation statements)

References 64 publications

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“…A PET detector based on dual-ended signal readout provides continuous DOI information with excellent timing, energy, and DOI resolutions. [24][25][26][27][28][29][30][31] Therefore, it has been widely utilized in various high-resolution PET systems, particularly for small-animal and peripheral human organ imaging. [40][41][42][43] However, the increased material cost of the dual-ended signal readout scheme is a critical drawback since it requires twice the number of photosensors and readout electronics.…”

Section: Discussionmentioning

confidence: 99%

“…The better energy and timing resolution of this detector than our detector owed to simple one-to-one coupling minimizing light collection loss and readout electronics noise. Liu et al 30 tested with similar crystal conditions to our condition for whole-body PET application without using sparse SiPM configurations. The DOI and energy resolution of this detector were 3.5 mm and 10.2% while the timing resolution of this detector was 180 ps with ultrafast NINO application-specific integrated circuit (ASIC), 44 which is better than our detector timing performance (411 ps).…”

Section: Discussionmentioning

confidence: 99%

“…A PET detector based on dual‐ended signal readout provides continuous DOI information with excellent timing, energy, and DOI resolutions 24–31 . Therefore, it has been widely utilized in various high‐resolution PET systems, particularly for small‐animal and peripheral human organ imaging 40–43 .…”

Section: Discussionmentioning

confidence: 99%

“…[21][22][23] Thanks to the accurate DOI estimation and simplicity in DOI calibration,the dual-ended readout method is one of the most intensively investigated approaches. [24][25][26][27][28][29][30][31] However, it requires twice as many photosensors and electronics compared to other DOI measurement methods 14,[32][33][34][35] based on a single-ended signal readout. Therefore, cost-effective PET detectors based on sparsely arranged photosensor configurations have been proposed to reduce detector manufacturing costs for the dual-ended readout method.…”

Section: Introductionmentioning

confidence: 99%

“…Thanks to the accurate DOI estimation and simplicity in DOI calibration, the dual‐ended readout method is one of the most intensively investigated approaches 24–31 . However, it requires twice as many photosensors and electronics compared to other DOI measurement methods 14,32–35 based on a single‐ended signal readout.…”

Section: Introductionmentioning

confidence: 99%

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Depth‐of‐interaction positron emission tomography detector with 45° tilted silicon photomultipliers using dual‐ended signal readout

et al. 2023

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Background: Small-animal positron emission tomography (PET) systems are widely used in molecular imaging research and drug development. There is also growing interest in organ-dedicated clinical PET systems. In these smalldiameter PET systems, the measurement of the depth-of -interaction (DOI) of annihilation photons in scintillation crystals allows for the correction of parallax error in PET system, leading to an improvement on the spatial resolution uniformity. The DOI information is also useful for improving the timing resolution of PET system as it enables the correction of DOI-dependent time walk in the arrival time difference measurement of annihilation photon pairs. The dual-ended readout scheme is one of the most widely investigated DOI measurement methods, which collects visible photons using a pair of photosensors located at both ends of the scintillation crystal. Although the dual-ended readout allows for simple and accurate DOI estimation, it requires twice the number of photosensors compared to the single-ended readout scheme. Purpose: To effectively reduce the number of photosensors in a dual-ended readout scheme, we propose a novel PET detector configuration that employs 45 • tilted and sparsely arranged silicon photomultipliers (SiPMs). In this configuration, the angle between the scintillation crystal and SiPM is 45 • . Therefore, and thus, the diagonal of the scintillation crystal matches one of the lateral sides of the SiPM. Accordingly, it allows for the use of SiPM device larger than the scintillation crystal, thereby improving light collection efficiency with a higher fill factor and reducing SiPM quantity. In addition, all scintillation crystals can achieve more uniform performance than other dual-ended readout methods with a sparse SiPM arrangement because 50% of the scintillation crystal cross section is commonly in contact with the SiPM. Methods: To demonstrate the feasibility of our proposed concept, we implemented a PET detector that employs a 4 × 4 LSO block with a single crystal dimension of 3.03 × 3.03 × 20 mm 3 and a 45 • tilted SiPM array. The 45 • tilted SiPM array consists of 2 × 3 SiPM elements at the top ("Top SiPM") and 3 × 2 SiPM elements at the bottom ("Bottom SiPM"). Each crystal element of the 4 × 4 LSO block is optically coupled with each quarter section of the Top SiPM and Bottom SiPM pair. To characterize the performance of the PET detector, the energy, DOI, and timing resolution were measured for Minjee Seo and Haewook Park contributed equally to this work.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Depth‐of‐interaction positron emission tomography detector with 45° tilted silicon photomultipliers using dual‐ended signal readout

et al. 2023

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Edge effect reduction of high-resolution PET detectors using LYSO and GAGG phoswich crystals

et al. 2023

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Objective: Small-animal positron emission tomography (PET) is a powerful preclinical imaging tool in animal model studies. The spatial resolution and sensitivity of current PET scanners developed for small-animal imaging need to be improved to increase the quantitative accuracy of preclinical animal studies. This study aimed to improve the identification capability of edge scintillator crystals of a PET detector which will enable to apply a crystal array with the same cross-section area as the active area of a photodetector for improving the detection area and thus reducing or eliminating the inter-detector gaps. Approach: PET detectors using crystal arrays with mixed lutetium yttrium orthosilicate (LYSO) and gadolinium aluminum gallium garnet (GAGG) crystals were developed and evaluated. The crystal arrays consisted of 31 × 31 array of 0.49 × 0.49 × 20 mm3 crystals; they were read out by two silicon photomultiplier arrays with pixel sizes of 2 × 2 mm2 that were placed at both ends of the crystal arrays. The second or first outermost layer of the LYSO crystals was replaced by GAGG crystals in the two crystal arrays. The two crystal types were identified using a pulse-shape discrimination technique to provide better edge crystal identification. Main results: Using the pulse shape discrimination technique, almost all (except for a few edge) crystals were resolved in the two detectors; high sensitivity was achieved by using the scintillator array and the photodetector with the same areas and achieved high resolution by using crystals with sizes equal to 0.49 × 0.49 × 20 mm3. Energy resolutions of 19.3 ± 1.8% and 18.9 ± 1.5%, depth-of-interaction resolutions of 2.02 ± 0.17 mm and 2.04 ± 0.18 mm, and timing resolutions of 1.6 ± 0.2 ns and 1.5 ± 0.2 ns were achieved by the two detectors, respectively. Significance: In summary, novel three-dimensional high-resolution PET detectors consisting of a mixture of LYSO and GAGG crystals were developed. The detectors significantly improve the detection area with the same photodetectors and thus improve the detection efficiency.

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A multi-resolution TOF-DOI detector for human brain dedicated PET scanner

He,

Zhao,

Huang

et al. 2024

Phys. Med. Biol.

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Objective: We propose a single-ended readout, multi-resolution detector design that can achieve high spatial, depth-of-interaction (DOI), and time-of-flight (TOF) resolutions, as well as high sensitivity for human brain-dedicated positron emission tomography (PET) scanners.Approach: The detector comprised two layers of LYSO crystal arrays and a lightguide in between. The top (gamma ray entrance) layer consisted of a 16×16 array of 1.53×1.53×6 mm3 LYSO crystals for providing high spatial resolution. The bottom layer consisted of an 8×8 array of 3.0×3.0×15 mm3 LYSO crystals that were one-to-one coupled to an 8×8 multipixel photon counter (MPPC) array for providing high TOF resolution. The 2-mm-thick lightguide introduces inter-crystal light sharing that causes variations of the light distribution patterns for high DOI resolution. The detector was read out by a PETsys TOFPET2 application-specific integrated circuit.Main result: The top and bottom layers were distinguished by a convolutional neural network with 97% accuracy. All crystals in the top and bottom layers were resolved. The inter-crystal scatter (ICS) events in the bottom layer were identified, and the measured average DOI resolution of the bottom layer was 4.1 mm. The coincidence time resolution (CTR) for the top-top, top-bottom, and bottom-bottom coincidences was 476 ps, 405 ps, and 298 ps, respectively. When ICS events were excluded from the bottom layer, the CTR of the bottom-bottom coincidence was 277 ps.Significance: The top layer of the proposed two-layer detector achieved a high spatial resolution and the bottom layer achieved a high TOF resolution. Together with its high DOI resolution and detection efficiency, the proposed detector is well suited for next-generation high-performance brain-dedicated PET scanners.

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High resolution detectors for whole-body PET scanners by using dual-ended readout

Cited by 5 publications

References 64 publications

Depth‐of‐interaction positron emission tomography detector with 45° tilted silicon photomultipliers using dual‐ended signal readout

Depth‐of‐interaction positron emission tomography detector with 45° tilted silicon photomultipliers using dual‐ended signal readout

Edge effect reduction of high-resolution PET detectors using LYSO and GAGG phoswich crystals

A multi-resolution TOF-DOI detector for human brain dedicated PET scanner

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