Characterization of three layer depth of interaction PET detectors for small animal imaging

Behnamian, H.; Shafiee, Mehdi

doi:10.1088/2057-1976/aada19

Cited by 4 publications

(2 citation statements)

References 16 publications

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“…Recently a simulation study based on phoswich arrangement of three scintillator layers (LYSO/GSO/ BGO) with a fixed length of 15 mm showed that two designs of these phoswich detectors (4 mm LYSO-4 mm GSO-7 mm BGO and 5 mm BGO-5 mm LYSO-5 mm GSO) provide the best DOI results and can potentially be used in a small animal PET scanner to simultaneously achieve high sensitivity and superior uniform radial and tangential SR [77].…”

Section: Phoswichmentioning

confidence: 99%

Minimization of parallax error in positron emission tomography using depth of interaction capable detectors: methods and apparatus

Mohammadi

Castro

Correia

et al. 2019

Biomed. Phys. Eng. Express

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In this paper, the authors review the field of parallax error (PE) minimization in positron emission tomography (PET) imaging systems by using depth of interaction (DOI) capable concepts. The review includes apparatus as well as an overview of various methods described in the literature. It also discusses potential advantages gained via these approaches, as discussed with reference to various metrics and tasks, particularly in the improvement of spatial resolution (SR) performance. Furthermore, the authors emphasize limitations encountered in the context of DOI decoding, which can be a considerable pitfall depending on the task of interest.

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Section: Phoswichmentioning

confidence: 99%

Minimization of parallax error in positron emission tomography using depth of interaction capable detectors: methods and apparatus

Mohammadi

Castro

Correia

et al. 2019

Biomed. Phys. Eng. Express

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“…Behnamian and colleagues have also demonstrated that adding an additional crystal layer with a different crystal material can improve sensitivity and spatial resolution [25].…”

Section: Introductionmentioning

confidence: 99%

Comparing Pixelated and Slat-Based Monolithic Tapered MicroPET Scanners in Single-Layer and Phoswich Configurations

Sadremomtaz,

Taherparvar,

saber

2023

Preprint

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As technology advances, there is a growing demand for enhancing the performance of small animal PET scanners. In pursuit of this objective, innovative designs, including tapered pixelated and pseudo-monolithic configurations, have been introduced. This research explores and compares tapered pixelated microPET systems and tapered pseudo-monolithic systems, both in single-layer and phoswich configurations. The pseudo-monolithic detectors were simulated with different slat sizes and orientations, along y and z direction. The focus was on critical parameters, including sensitivity, noise equivalent count rate, scatter fraction, and energy resolution, to assess these systems. The findings emphasize the advantages of phoswich systems in respect to their single-layer counterparts. For pseudo-monolithic systems, while the configuration with slats oriented in the z-direction demonstrate substantial improvements in system performance, the alternative pseudo-monolithic design with slats oriented in the y-direction yielded lower performance, indicating that the orientation of slats in pseudo-monolithic scanners can notably impact system performance.

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PET detectors with depth-of-interaction and time-of-flight capabilities

Yoshida,

Yamaya

2024

Radiol Phys Technol

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Characterization of three layer depth of interaction PET detectors for small animal imaging

Cited by 4 publications

References 16 publications

Minimization of parallax error in positron emission tomography using depth of interaction capable detectors: methods and apparatus

Minimization of parallax error in positron emission tomography using depth of interaction capable detectors: methods and apparatus

Comparing Pixelated and Slat-Based Monolithic Tapered MicroPET Scanners in Single-Layer and Phoswich Configurations

PET detectors with depth-of-interaction and time-of-flight capabilities

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