Computer-Aided Segmentation and Volumetry of Artificial Ground-Glass Nodules at Chest CT

Ernst Th. Scholten; Colin Jacobs; Bram van Ginneken; Martin J. Willemink; Jan-Martin Kuhnigk; Peter M. A. van Ooijen; Matthijs Oudkerk; Willem P. Th. M. Mali; Pim A. de Jong

doi:10.2214/AJR.12.9640

Computer-Aided Segmentation and Volumetry of Artificial Ground-Glass Nodules at Chest CT

Ernst Th. Scholten^*
, Colin Jacobs
, Bram van Ginneken
, Martin J. Willemink
, Jan-Martin Kuhnigk
, Peter M. A. van Ooijen
, Matthijs Oudkerk
, Willem P. Th. M. Mali
, Pim A. de Jong

^*Corresponding author for this work

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

26 Citations (Scopus)

Abstract

OBJECTIVE. The purpose of this study was to investigate a new software program for semiautomatic measurement of the volume and mass of ground-glass nodules (GGNs) in a chest phantom and to investigate the influence of CT scanner, reconstruction filter, tube voltage, and tube current.

MATERIALS AND METHODS. We used an anthropomorphic chest phantom with eight artificial GGNs with two different CT attenuations and four different volumes. CT scans were obtained with four models of CT scanner at 120 kVp and 25 mAs with a soft and a sharp reconstruction filter. On the 256-MDCT scanner, the tube current-exposure time product and tube voltage settings were varied. GGNs were measured with software that automatically segmented the nodules. Absolute percentage error (APE) was calculated for volume, mass, and density. Wilcoxon signed rank, Mann-Whitney U, and Kruskal-Wallis tests were used for analysis.

RESULTS. Volume and mass did not differ significantly from the true values. When measurements were expressed as APE, the error range was 2-36% for volume and 5-46% for mass, which was significantly different from no error. We did not find significant differences in APE between CT scanners with filters for lower tube current for volume or lower tube voltage for mass.

CONCLUSION. Computer-aided segmentation and mass and volume measurements of GGNs with the prototype software had promising results in this study.

Original language	English
Pages (from-to)	295-300
Number of pages	6
Journal	American Journal of Roentgenology
Volume	201
Issue number	2
DOIs	https://doi.org/10.2214/AJR.12.9640
Publication status	Published - Aug-2013

Keywords

CT
ground-glass opacity nodule
volume measurement
PULMONARY NODULES
LUNG NODULES
PARAMETERS
MANAGEMENT
ACCURACY
GROWTH
MASS

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@article{cbc1f78db31e4a83b6f5b2c731e69ad5,

title = "Computer-Aided Segmentation and Volumetry of Artificial Ground-Glass Nodules at Chest CT",

abstract = "OBJECTIVE. The purpose of this study was to investigate a new software program for semiautomatic measurement of the volume and mass of ground-glass nodules (GGNs) in a chest phantom and to investigate the influence of CT scanner, reconstruction filter, tube voltage, and tube current.MATERIALS AND METHODS. We used an anthropomorphic chest phantom with eight artificial GGNs with two different CT attenuations and four different volumes. CT scans were obtained with four models of CT scanner at 120 kVp and 25 mAs with a soft and a sharp reconstruction filter. On the 256-MDCT scanner, the tube current-exposure time product and tube voltage settings were varied. GGNs were measured with software that automatically segmented the nodules. Absolute percentage error (APE) was calculated for volume, mass, and density. Wilcoxon signed rank, Mann-Whitney U, and Kruskal-Wallis tests were used for analysis.RESULTS. Volume and mass did not differ significantly from the true values. When measurements were expressed as APE, the error range was 2-36\% for volume and 5-46\% for mass, which was significantly different from no error. We did not find significant differences in APE between CT scanners with filters for lower tube current for volume or lower tube voltage for mass.CONCLUSION. Computer-aided segmentation and mass and volume measurements of GGNs with the prototype software had promising results in this study.",

keywords = "CT, ground-glass opacity nodule, volume measurement, PULMONARY NODULES, LUNG NODULES, PARAMETERS, MANAGEMENT, ACCURACY, GROWTH, MASS",

author = "Scholten, \{Ernst Th.\} and Colin Jacobs and \{van Ginneken\}, Bram and Willemink, \{Martin J.\} and Jan-Martin Kuhnigk and \{van Ooijen\}, \{Peter M. A.\} and Matthijs Oudkerk and Mali, \{Willem P. Th. M.\} and \{de Jong\}, \{Pim A.\}",

year = "2013",

month = aug,

doi = "10.2214/AJR.12.9640",

language = "English",

volume = "201",

pages = "295--300",

journal = "American Journal of Roentgenology",

issn = "0361-803X",

publisher = "AMER ROENTGEN RAY SOC",

number = "2",

}

TY - JOUR

T1 - Computer-Aided Segmentation and Volumetry of Artificial Ground-Glass Nodules at Chest CT

AU - Scholten, Ernst Th.

AU - Jacobs, Colin

AU - van Ginneken, Bram

AU - Willemink, Martin J.

AU - Kuhnigk, Jan-Martin

AU - van Ooijen, Peter M. A.

AU - Oudkerk, Matthijs

AU - Mali, Willem P. Th. M.

AU - de Jong, Pim A.

PY - 2013/8

Y1 - 2013/8

N2 - OBJECTIVE. The purpose of this study was to investigate a new software program for semiautomatic measurement of the volume and mass of ground-glass nodules (GGNs) in a chest phantom and to investigate the influence of CT scanner, reconstruction filter, tube voltage, and tube current.MATERIALS AND METHODS. We used an anthropomorphic chest phantom with eight artificial GGNs with two different CT attenuations and four different volumes. CT scans were obtained with four models of CT scanner at 120 kVp and 25 mAs with a soft and a sharp reconstruction filter. On the 256-MDCT scanner, the tube current-exposure time product and tube voltage settings were varied. GGNs were measured with software that automatically segmented the nodules. Absolute percentage error (APE) was calculated for volume, mass, and density. Wilcoxon signed rank, Mann-Whitney U, and Kruskal-Wallis tests were used for analysis.RESULTS. Volume and mass did not differ significantly from the true values. When measurements were expressed as APE, the error range was 2-36% for volume and 5-46% for mass, which was significantly different from no error. We did not find significant differences in APE between CT scanners with filters for lower tube current for volume or lower tube voltage for mass.CONCLUSION. Computer-aided segmentation and mass and volume measurements of GGNs with the prototype software had promising results in this study.

AB - OBJECTIVE. The purpose of this study was to investigate a new software program for semiautomatic measurement of the volume and mass of ground-glass nodules (GGNs) in a chest phantom and to investigate the influence of CT scanner, reconstruction filter, tube voltage, and tube current.MATERIALS AND METHODS. We used an anthropomorphic chest phantom with eight artificial GGNs with two different CT attenuations and four different volumes. CT scans were obtained with four models of CT scanner at 120 kVp and 25 mAs with a soft and a sharp reconstruction filter. On the 256-MDCT scanner, the tube current-exposure time product and tube voltage settings were varied. GGNs were measured with software that automatically segmented the nodules. Absolute percentage error (APE) was calculated for volume, mass, and density. Wilcoxon signed rank, Mann-Whitney U, and Kruskal-Wallis tests were used for analysis.RESULTS. Volume and mass did not differ significantly from the true values. When measurements were expressed as APE, the error range was 2-36% for volume and 5-46% for mass, which was significantly different from no error. We did not find significant differences in APE between CT scanners with filters for lower tube current for volume or lower tube voltage for mass.CONCLUSION. Computer-aided segmentation and mass and volume measurements of GGNs with the prototype software had promising results in this study.

KW - CT

KW - ground-glass opacity nodule

KW - volume measurement

KW - PULMONARY NODULES

KW - LUNG NODULES

KW - PARAMETERS

KW - MANAGEMENT

KW - ACCURACY

KW - GROWTH

KW - MASS

U2 - 10.2214/AJR.12.9640

DO - 10.2214/AJR.12.9640

M3 - Article

SN - 0361-803X

VL - 201

SP - 295

EP - 300

JO - American Journal of Roentgenology

JF - American Journal of Roentgenology

IS - 2

ER -

Computer-Aided Segmentation and Volumetry of Artificial Ground-Glass Nodules at Chest CT

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