Image quality is resilient against tube voltage variations in post-mortem skeletal radiography with a digital flat-panel detector

Image quality is resilient against tube voltage variations in post-mortem skeletal radiography with a digital flat-panel detector

Abstract In recent phantom studies low-contrast detectability was shown to be independent from variations in tube voltage in digital radiography (DR) systems. To investigate the transferability to a clinical setting, the lower extremities of human cadavers were exposed at constant detector doses wit...

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Main Authors: S. Notohamiprodjo, K. M. Roeper, K. M. Treitl, B. Hoberg, F. Wanninger, L. Verstreepen, F. G. Mueck, D. Maxien, F. Fischer, O. Peschel, S. Wirth
Format: Article
Language:English
Published: Nature Publishing Group 2021-04-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-021-87294-9
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spelling doaj-f12d533cc7284e60943c38ec08cab3ec2021-04-11T11:33:08ZengNature Publishing GroupScientific Reports2045-23222021-04-0111111210.1038/s41598-021-87294-9Image quality is resilient against tube voltage variations in post-mortem skeletal radiography with a digital flat-panel detectorS. Notohamiprodjo0K. M. Roeper1K. M. Treitl2B. Hoberg3F. Wanninger4L. Verstreepen5F. G. Mueck6D. Maxien7F. Fischer8O. Peschel9S. Wirth10Department of Nuclear Medicine, Klinikum Rechts Der Isar, Technical University of MunichDepartment of Ophtalmology, Klinikum Rechts Der Isar, Technical University of MunichDepartment of Radiology, University Hospital of Munich, LMU MunichAgfa HealthCare Germany GmbHAgfa-Gevaert HealthCare GmbHAgfa HealthCare N.V.Department of Radiology, HELIOS Klinikum München WestRadiologie Zentrum MünchenInstitute of Forensic Medicine, LMU MunichInstitute of Forensic Medicine, LMU MunichInstitute of Radiology, Schwarzwald-Baar KlinikumAbstract In recent phantom studies low-contrast detectability was shown to be independent from variations in tube voltage in digital radiography (DR) systems. To investigate the transferability to a clinical setting, the lower extremities of human cadavers were exposed at constant detector doses with different tube voltages in a certain range, as proposed in the phantom studies. Three radiologists independently graded different aspects of image quality (IQ) in a comparative analysis. The grades show no correlation between IQ and kV, which means that the readers were not able to recognize a significant IQ difference at different kV. Signal-to-noise and contrast-to-noise ratios showed no significant differences in IQ despite the kV-setting variations. These findings were observed from a limited kV range setting. Higher kV-settings resulted in lowest patient exposure at constant IQ. These results confirm the potential of DR-systems to contribute to standardization of examination protocols comparable to computed tomography. This may prevent the trend to overexpose. Further investigations in other body regions and other DR-systems are encouraged to determine transferability.https://doi.org/10.1038/s41598-021-87294-9
collection DOAJ
language English
format Article
sources DOAJ
author S. Notohamiprodjo
K. M. Roeper
K. M. Treitl
B. Hoberg
F. Wanninger
L. Verstreepen
F. G. Mueck
D. Maxien
F. Fischer
O. Peschel
S. Wirth
spellingShingle S. Notohamiprodjo
K. M. Roeper
K. M. Treitl
B. Hoberg
F. Wanninger
L. Verstreepen
F. G. Mueck
D. Maxien
F. Fischer
O. Peschel
S. Wirth
Image quality is resilient against tube voltage variations in post-mortem skeletal radiography with a digital flat-panel detector
Scientific Reports
author_facet S. Notohamiprodjo
K. M. Roeper
K. M. Treitl
B. Hoberg
F. Wanninger
L. Verstreepen
F. G. Mueck
D. Maxien
F. Fischer
O. Peschel
S. Wirth
author_sort S. Notohamiprodjo
title Image quality is resilient against tube voltage variations in post-mortem skeletal radiography with a digital flat-panel detector
title_short Image quality is resilient against tube voltage variations in post-mortem skeletal radiography with a digital flat-panel detector
title_full Image quality is resilient against tube voltage variations in post-mortem skeletal radiography with a digital flat-panel detector
title_fullStr Image quality is resilient against tube voltage variations in post-mortem skeletal radiography with a digital flat-panel detector
title_full_unstemmed Image quality is resilient against tube voltage variations in post-mortem skeletal radiography with a digital flat-panel detector
title_sort image quality is resilient against tube voltage variations in post-mortem skeletal radiography with a digital flat-panel detector
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2021-04-01
description Abstract In recent phantom studies low-contrast detectability was shown to be independent from variations in tube voltage in digital radiography (DR) systems. To investigate the transferability to a clinical setting, the lower extremities of human cadavers were exposed at constant detector doses with different tube voltages in a certain range, as proposed in the phantom studies. Three radiologists independently graded different aspects of image quality (IQ) in a comparative analysis. The grades show no correlation between IQ and kV, which means that the readers were not able to recognize a significant IQ difference at different kV. Signal-to-noise and contrast-to-noise ratios showed no significant differences in IQ despite the kV-setting variations. These findings were observed from a limited kV range setting. Higher kV-settings resulted in lowest patient exposure at constant IQ. These results confirm the potential of DR-systems to contribute to standardization of examination protocols comparable to computed tomography. This may prevent the trend to overexpose. Further investigations in other body regions and other DR-systems are encouraged to determine transferability.
url https://doi.org/10.1038/s41598-021-87294-9
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