PET rapid image reconstruction challenge (PETRIC)

Casper da Costa-Luis; Matthias J Ehrhardt; Christoph Kolbitsch; Evgueni Ovtchinnikov; Edoardo Pasca; Kris Thielemans; Charalampos Tsoumpas

doi:10.3389/fnume.2026.1770002

PET rapid image reconstruction challenge (PETRIC)

Casper da Costa-Luis, Matthias J Ehrhardt, Christoph Kolbitsch, Evgueni Ovtchinnikov, Edoardo Pasca, Kris Thielemans, Charalampos Tsoumpas

Research output: Contribution to journal › Article › peer-review

Abstract

INTRODUCTION: We describe the foundation of PETRIC, an image reconstruction challenge to minimise the computational runtime of related algorithms for Positron Emission Tomography (PET).

PURPOSE: Although several similar challenges are well-established in the field of medical imaging, there have been no prior challenges for PET image reconstruction.

METHODS: Participants were provided with open-source software for implementation of their reconstruction algorithm(s). We defined the objective function and reconstruct "gold standard" reference images, and provided metrics for quantifying algorithmic performance. We also received and curated phantom datasets (acquired with different scanners, radionuclides, and phantom types), which we further split into training and evaluation datasets. The automated computational framework of the challenge is released as open-source software.

RESULTS: Four teams with nine algorithms in total participated in the challenge. Their contributions made use of various tools from optimisation theory including preconditioning, stochastic gradients, and artificial intelligence. While most of the submitted approaches appear very similar in nature, their specific implementation lead to a range of algorithmic performance.

CONCLUSION: As the first challenge for PET image reconstruction, PETRIC's solid foundations allow researchers to reuse its framework for evaluating new and existing image reconstruction methods on new or existing datasets. Variant versions of the challenge have and will continue to be launched in the future.

Original language	English
Article number	1770002
Journal	Frontiers in Nuclear Medicine
Volume	6
Early online date	27 Mar 2026
DOIs	https://doi.org/10.3389/fnume.2026.1770002
Publication status	Published - 27 Mar 2026

Data Availability Statement

The datasets provided for the challenge can be found in Tables 1 & 2 as well as https://petric.tomography.stfc.ac.uk/data/.

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10.3389/fnume.2026.1770002Licence: CC BY

Cite this

@article{9e580300fa3c4e54856960fea2a421d6,

title = "PET rapid image reconstruction challenge (PETRIC)",

abstract = "INTRODUCTION: We describe the foundation of PETRIC, an image reconstruction challenge to minimise the computational runtime of related algorithms for Positron Emission Tomography (PET).PURPOSE: Although several similar challenges are well-established in the field of medical imaging, there have been no prior challenges for PET image reconstruction.METHODS: Participants were provided with open-source software for implementation of their reconstruction algorithm(s). We defined the objective function and reconstruct {"}gold standard{"} reference images, and provided metrics for quantifying algorithmic performance. We also received and curated phantom datasets (acquired with different scanners, radionuclides, and phantom types), which we further split into training and evaluation datasets. The automated computational framework of the challenge is released as open-source software.RESULTS: Four teams with nine algorithms in total participated in the challenge. Their contributions made use of various tools from optimisation theory including preconditioning, stochastic gradients, and artificial intelligence. While most of the submitted approaches appear very similar in nature, their specific implementation lead to a range of algorithmic performance.CONCLUSION: As the first challenge for PET image reconstruction, PETRIC's solid foundations allow researchers to reuse its framework for evaluating new and existing image reconstruction methods on new or existing datasets. Variant versions of the challenge have and will continue to be launched in the future.",

author = "\{da Costa-Luis\}, Casper and Ehrhardt, \{Matthias J\} and Christoph Kolbitsch and Evgueni Ovtchinnikov and Edoardo Pasca and Kris Thielemans and Charalampos Tsoumpas",

year = "2026",

month = mar,

day = "27",

doi = "10.3389/fnume.2026.1770002",

language = "English",

volume = "6",

journal = "Frontiers in Nuclear Medicine",

issn = "2673-8880",

publisher = "Frontiers Media S.A.",

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TY - JOUR

T1 - PET rapid image reconstruction challenge (PETRIC)

AU - da Costa-Luis, Casper

AU - Ehrhardt, Matthias J

AU - Kolbitsch, Christoph

AU - Ovtchinnikov, Evgueni

AU - Pasca, Edoardo

AU - Thielemans, Kris

AU - Tsoumpas, Charalampos

PY - 2026/3/27

Y1 - 2026/3/27

N2 - INTRODUCTION: We describe the foundation of PETRIC, an image reconstruction challenge to minimise the computational runtime of related algorithms for Positron Emission Tomography (PET).PURPOSE: Although several similar challenges are well-established in the field of medical imaging, there have been no prior challenges for PET image reconstruction.METHODS: Participants were provided with open-source software for implementation of their reconstruction algorithm(s). We defined the objective function and reconstruct "gold standard" reference images, and provided metrics for quantifying algorithmic performance. We also received and curated phantom datasets (acquired with different scanners, radionuclides, and phantom types), which we further split into training and evaluation datasets. The automated computational framework of the challenge is released as open-source software.RESULTS: Four teams with nine algorithms in total participated in the challenge. Their contributions made use of various tools from optimisation theory including preconditioning, stochastic gradients, and artificial intelligence. While most of the submitted approaches appear very similar in nature, their specific implementation lead to a range of algorithmic performance.CONCLUSION: As the first challenge for PET image reconstruction, PETRIC's solid foundations allow researchers to reuse its framework for evaluating new and existing image reconstruction methods on new or existing datasets. Variant versions of the challenge have and will continue to be launched in the future.

AB - INTRODUCTION: We describe the foundation of PETRIC, an image reconstruction challenge to minimise the computational runtime of related algorithms for Positron Emission Tomography (PET).PURPOSE: Although several similar challenges are well-established in the field of medical imaging, there have been no prior challenges for PET image reconstruction.METHODS: Participants were provided with open-source software for implementation of their reconstruction algorithm(s). We defined the objective function and reconstruct "gold standard" reference images, and provided metrics for quantifying algorithmic performance. We also received and curated phantom datasets (acquired with different scanners, radionuclides, and phantom types), which we further split into training and evaluation datasets. The automated computational framework of the challenge is released as open-source software.RESULTS: Four teams with nine algorithms in total participated in the challenge. Their contributions made use of various tools from optimisation theory including preconditioning, stochastic gradients, and artificial intelligence. While most of the submitted approaches appear very similar in nature, their specific implementation lead to a range of algorithmic performance.CONCLUSION: As the first challenge for PET image reconstruction, PETRIC's solid foundations allow researchers to reuse its framework for evaluating new and existing image reconstruction methods on new or existing datasets. Variant versions of the challenge have and will continue to be launched in the future.

U2 - 10.3389/fnume.2026.1770002

DO - 10.3389/fnume.2026.1770002

M3 - Article

C2 - 41971984

SN - 2673-8880

VL - 6

JO - Frontiers in Nuclear Medicine

JF - Frontiers in Nuclear Medicine

M1 - 1770002

ER -

PET rapid image reconstruction challenge (PETRIC)

Abstract

Data Availability Statement

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