Acquisition settings for PET of124I administered simultaneously with therapeutic amounts of131I

Mark Lubberink, Annelies Van Schie, Hugo W.A.M. De Jong, Guus A.M.S. Van Dongen, Gerrit J.J. Teule

Research output: Contribution to journalArticleAcademicpeer-review

Abstract

Radiation dosimetry of thyroid cancer therapy with 131I can be performed by coadministration of 124I followed by longitudinal PET scans over several days. The photons emitted by 131I may affect PET image quality. The aim of this study was to assess the influence of large amounts of 131I on PET image quality and accuracy with various acquisition settings. Methods: Noise equivalent count (NEC) rates of 124I only were measured with a standard clinical PET scanner. Apart from the standard 350- to 650-keV energy window, 425- to 650-keV and 460- to 562-keV windows were used and data were acquired both with (2-dimensional) and without (3-dimensional [3D]) septa. A phantom containing 6 hot spheres, filled with a combination of 131I and 124I and with a sphere-to-background ratio of 18:1, was scanned repeatedly with energy window settings as indicated and emission and transmission scan durations of 7 and 3 min, respectively. NEC rates were calculated and compared with those measured with the phantom filled with only 124I. Sphere-to-background ratios in the reconstructed images were determined. One patient with known metastatic thyroid cancer was scanned using energy window settings and scan times as indicated 3 and 6 d after administration of 5.5 GBq of 131I and 75 MBq of 124I. Results: The highest 124I-only NEC rates were obtained using a 425- to 650-keV energy window in 3D mode. In the presence of 131I, the settings giving the highest NEC rate and contrast were 425-650 keV and 460-562 keV in 3D mode, with the clinical scans giving the highest quality images with the same settings. Conclusion: Acquisition in 3D mode with a 425- to 650-keV or 460- to 562-keV window leads to the highest image quality and contrast when imaging 124I in the presence of large amounts of 131I using a standard clinical PET scanner.

Original languageEnglish
Pages (from-to)1375-1381
Number of pages7
JournalJournal of Nuclear Medicine
Volume47
Issue number8
Publication statusPublished - 1 Aug 2006

Cite this

@article{b6c297fd3df84c2b8c35e247ce605f94,
title = "Acquisition settings for PET of124I administered simultaneously with therapeutic amounts of131I",
abstract = "Radiation dosimetry of thyroid cancer therapy with 131I can be performed by coadministration of 124I followed by longitudinal PET scans over several days. The photons emitted by 131I may affect PET image quality. The aim of this study was to assess the influence of large amounts of 131I on PET image quality and accuracy with various acquisition settings. Methods: Noise equivalent count (NEC) rates of 124I only were measured with a standard clinical PET scanner. Apart from the standard 350- to 650-keV energy window, 425- to 650-keV and 460- to 562-keV windows were used and data were acquired both with (2-dimensional) and without (3-dimensional [3D]) septa. A phantom containing 6 hot spheres, filled with a combination of 131I and 124I and with a sphere-to-background ratio of 18:1, was scanned repeatedly with energy window settings as indicated and emission and transmission scan durations of 7 and 3 min, respectively. NEC rates were calculated and compared with those measured with the phantom filled with only 124I. Sphere-to-background ratios in the reconstructed images were determined. One patient with known metastatic thyroid cancer was scanned using energy window settings and scan times as indicated 3 and 6 d after administration of 5.5 GBq of 131I and 75 MBq of 124I. Results: The highest 124I-only NEC rates were obtained using a 425- to 650-keV energy window in 3D mode. In the presence of 131I, the settings giving the highest NEC rate and contrast were 425-650 keV and 460-562 keV in 3D mode, with the clinical scans giving the highest quality images with the same settings. Conclusion: Acquisition in 3D mode with a 425- to 650-keV or 460- to 562-keV window leads to the highest image quality and contrast when imaging 124I in the presence of large amounts of 131I using a standard clinical PET scanner.",
keywords = "I, Data acquisition, Dosimetry, PET",
author = "Mark Lubberink and {Van Schie}, Annelies and {De Jong}, {Hugo W.A.M.} and {Van Dongen}, {Guus A.M.S.} and Teule, {Gerrit J.J.}",
year = "2006",
month = "8",
day = "1",
language = "English",
volume = "47",
pages = "1375--1381",
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issn = "0161-5505",
publisher = "Society of Nuclear Medicine Inc.",
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}

Acquisition settings for PET of124I administered simultaneously with therapeutic amounts of131I. / Lubberink, Mark; Van Schie, Annelies; De Jong, Hugo W.A.M.; Van Dongen, Guus A.M.S.; Teule, Gerrit J.J.

In: Journal of Nuclear Medicine, Vol. 47, No. 8, 01.08.2006, p. 1375-1381.

Research output: Contribution to journalArticleAcademicpeer-review

TY - JOUR

T1 - Acquisition settings for PET of124I administered simultaneously with therapeutic amounts of131I

AU - Lubberink, Mark

AU - Van Schie, Annelies

AU - De Jong, Hugo W.A.M.

AU - Van Dongen, Guus A.M.S.

AU - Teule, Gerrit J.J.

PY - 2006/8/1

Y1 - 2006/8/1

N2 - Radiation dosimetry of thyroid cancer therapy with 131I can be performed by coadministration of 124I followed by longitudinal PET scans over several days. The photons emitted by 131I may affect PET image quality. The aim of this study was to assess the influence of large amounts of 131I on PET image quality and accuracy with various acquisition settings. Methods: Noise equivalent count (NEC) rates of 124I only were measured with a standard clinical PET scanner. Apart from the standard 350- to 650-keV energy window, 425- to 650-keV and 460- to 562-keV windows were used and data were acquired both with (2-dimensional) and without (3-dimensional [3D]) septa. A phantom containing 6 hot spheres, filled with a combination of 131I and 124I and with a sphere-to-background ratio of 18:1, was scanned repeatedly with energy window settings as indicated and emission and transmission scan durations of 7 and 3 min, respectively. NEC rates were calculated and compared with those measured with the phantom filled with only 124I. Sphere-to-background ratios in the reconstructed images were determined. One patient with known metastatic thyroid cancer was scanned using energy window settings and scan times as indicated 3 and 6 d after administration of 5.5 GBq of 131I and 75 MBq of 124I. Results: The highest 124I-only NEC rates were obtained using a 425- to 650-keV energy window in 3D mode. In the presence of 131I, the settings giving the highest NEC rate and contrast were 425-650 keV and 460-562 keV in 3D mode, with the clinical scans giving the highest quality images with the same settings. Conclusion: Acquisition in 3D mode with a 425- to 650-keV or 460- to 562-keV window leads to the highest image quality and contrast when imaging 124I in the presence of large amounts of 131I using a standard clinical PET scanner.

AB - Radiation dosimetry of thyroid cancer therapy with 131I can be performed by coadministration of 124I followed by longitudinal PET scans over several days. The photons emitted by 131I may affect PET image quality. The aim of this study was to assess the influence of large amounts of 131I on PET image quality and accuracy with various acquisition settings. Methods: Noise equivalent count (NEC) rates of 124I only were measured with a standard clinical PET scanner. Apart from the standard 350- to 650-keV energy window, 425- to 650-keV and 460- to 562-keV windows were used and data were acquired both with (2-dimensional) and without (3-dimensional [3D]) septa. A phantom containing 6 hot spheres, filled with a combination of 131I and 124I and with a sphere-to-background ratio of 18:1, was scanned repeatedly with energy window settings as indicated and emission and transmission scan durations of 7 and 3 min, respectively. NEC rates were calculated and compared with those measured with the phantom filled with only 124I. Sphere-to-background ratios in the reconstructed images were determined. One patient with known metastatic thyroid cancer was scanned using energy window settings and scan times as indicated 3 and 6 d after administration of 5.5 GBq of 131I and 75 MBq of 124I. Results: The highest 124I-only NEC rates were obtained using a 425- to 650-keV energy window in 3D mode. In the presence of 131I, the settings giving the highest NEC rate and contrast were 425-650 keV and 460-562 keV in 3D mode, with the clinical scans giving the highest quality images with the same settings. Conclusion: Acquisition in 3D mode with a 425- to 650-keV or 460- to 562-keV window leads to the highest image quality and contrast when imaging 124I in the presence of large amounts of 131I using a standard clinical PET scanner.

KW - I

KW - Data acquisition

KW - Dosimetry

KW - PET

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M3 - Article

VL - 47

SP - 1375

EP - 1381

JO - Journal of Nuclear Medicine

JF - Journal of Nuclear Medicine

SN - 0161-5505

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