Effect of data-driven motion correction for respiratory movement on lesion detectability in PET-CT: a phantom study

Marloes A de Winter; Robin Gevers; Jules Lavalaye; Jan B A Habraken; Matteo Maspero

doi:10.1186/s40658-025-00784-x

Effect of data-driven motion correction for respiratory movement on lesion detectability in PET-CT: a phantom study

Marloes A de Winter^*
, Robin Gevers
, Jules Lavalaye
, Jan B A Habraken
, Matteo Maspero

^*Corresponding author for this work

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

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Abstract

PURPOSE: While data-driven motion correction (DDMC) techniques have proven to enhance the visibility of lesions affected by motion, their impact on overall detectability remains unclear. This study investigates whether DDMC improves lesion detectability in PET-CT using FDG-18F.

METHOD: A moving platform simulated respiratory motion in a NEMA-IEC body phantom with varying amplitudes (0, 7, 10, 20, 30 mm) and target-to-background ratios (2, 5, 10.5). Scans were reconstructed with and without DDMC, and the spherical targets' maximal and mean recovery coefficient (RC) and contrast-to-noise ratio (CNR) were measured.

RESULTS: DDMC results in higher RC values in the target spheres. CNR values increase for small, high-motion affected targets but decrease for larger spheres with smaller amplitudes. A sub-analysis shows that DDMC increases the contrast of the sphere along with a 36% increase in background noise.

CONCLUSION: While DDMC significantly enhances contrast (RC), its impact on detectability (CNR) is less profound due to increased background noise. CNR improves for small targets with high motion amplitude, potentially enhancing the detectability of low-uptake lesions. Given that the increased background noise may reduce detectability for targets unaffected by motion, we suggest that DDMC reconstructions are used best in addition to non-DDMC reconstructions.

Original language	English
Article number	68
Number of pages	11
Journal	EJNMMI physics
Volume	12
Issue number	1
DOIs	https://doi.org/10.1186/s40658-025-00784-x
Publication status	Published - 11 Jul 2025

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Effect of data-driven motion correction for respiratory movement on lesion detectability in PET-CT: a phantom studyFinal published version, 1.8 MBLicence: CC BY

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title = "Effect of data-driven motion correction for respiratory movement on lesion detectability in PET-CT: a phantom study",

abstract = "PURPOSE: While data-driven motion correction (DDMC) techniques have proven to enhance the visibility of lesions affected by motion, their impact on overall detectability remains unclear. This study investigates whether DDMC improves lesion detectability in PET-CT using FDG-18F.METHOD: A moving platform simulated respiratory motion in a NEMA-IEC body phantom with varying amplitudes (0, 7, 10, 20, 30 mm) and target-to-background ratios (2, 5, 10.5). Scans were reconstructed with and without DDMC, and the spherical targets' maximal and mean recovery coefficient (RC) and contrast-to-noise ratio (CNR) were measured.RESULTS: DDMC results in higher RC values in the target spheres. CNR values increase for small, high-motion affected targets but decrease for larger spheres with smaller amplitudes. A sub-analysis shows that DDMC increases the contrast of the sphere along with a 36\% increase in background noise.CONCLUSION: While DDMC significantly enhances contrast (RC), its impact on detectability (CNR) is less profound due to increased background noise. CNR improves for small targets with high motion amplitude, potentially enhancing the detectability of low-uptake lesions. Given that the increased background noise may reduce detectability for targets unaffected by motion, we suggest that DDMC reconstructions are used best in addition to non-DDMC reconstructions.",

author = "\{de Winter\}, \{Marloes A\} and Robin Gevers and Jules Lavalaye and Habraken, \{Jan B A\} and Matteo Maspero",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

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doi = "10.1186/s40658-025-00784-x",

language = "English",

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T1 - Effect of data-driven motion correction for respiratory movement on lesion detectability in PET-CT

T2 - a phantom study

AU - de Winter, Marloes A

AU - Gevers, Robin

AU - Lavalaye, Jules

AU - Habraken, Jan B A

AU - Maspero, Matteo

PY - 2025/7/11

Y1 - 2025/7/11

N2 - PURPOSE: While data-driven motion correction (DDMC) techniques have proven to enhance the visibility of lesions affected by motion, their impact on overall detectability remains unclear. This study investigates whether DDMC improves lesion detectability in PET-CT using FDG-18F.METHOD: A moving platform simulated respiratory motion in a NEMA-IEC body phantom with varying amplitudes (0, 7, 10, 20, 30 mm) and target-to-background ratios (2, 5, 10.5). Scans were reconstructed with and without DDMC, and the spherical targets' maximal and mean recovery coefficient (RC) and contrast-to-noise ratio (CNR) were measured.RESULTS: DDMC results in higher RC values in the target spheres. CNR values increase for small, high-motion affected targets but decrease for larger spheres with smaller amplitudes. A sub-analysis shows that DDMC increases the contrast of the sphere along with a 36% increase in background noise.CONCLUSION: While DDMC significantly enhances contrast (RC), its impact on detectability (CNR) is less profound due to increased background noise. CNR improves for small targets with high motion amplitude, potentially enhancing the detectability of low-uptake lesions. Given that the increased background noise may reduce detectability for targets unaffected by motion, we suggest that DDMC reconstructions are used best in addition to non-DDMC reconstructions.

AB - PURPOSE: While data-driven motion correction (DDMC) techniques have proven to enhance the visibility of lesions affected by motion, their impact on overall detectability remains unclear. This study investigates whether DDMC improves lesion detectability in PET-CT using FDG-18F.METHOD: A moving platform simulated respiratory motion in a NEMA-IEC body phantom with varying amplitudes (0, 7, 10, 20, 30 mm) and target-to-background ratios (2, 5, 10.5). Scans were reconstructed with and without DDMC, and the spherical targets' maximal and mean recovery coefficient (RC) and contrast-to-noise ratio (CNR) were measured.RESULTS: DDMC results in higher RC values in the target spheres. CNR values increase for small, high-motion affected targets but decrease for larger spheres with smaller amplitudes. A sub-analysis shows that DDMC increases the contrast of the sphere along with a 36% increase in background noise.CONCLUSION: While DDMC significantly enhances contrast (RC), its impact on detectability (CNR) is less profound due to increased background noise. CNR improves for small targets with high motion amplitude, potentially enhancing the detectability of low-uptake lesions. Given that the increased background noise may reduce detectability for targets unaffected by motion, we suggest that DDMC reconstructions are used best in addition to non-DDMC reconstructions.

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DO - 10.1186/s40658-025-00784-x

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JO - EJNMMI physics

JF - EJNMMI physics

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Effect of data-driven motion correction for respiratory movement on lesion detectability in PET-CT: a phantom study

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