Textural Feature Based Segmentation: A Repeatable and Accurate Segmentation Approach for Tumors in PET Images

Elisabeth Pfaehler; Liesbet Mesotten; Gem Kramer; Michiel Thomeer; Karolien Vanhove; Johan de Jong; Peter Adriaensens; Otto S. Hoekstra; Ronald Boellaard

doi:https://doi.org/10.1007/978-3-030-52791-4_1

Textural Feature Based Segmentation: A Repeatable and Accurate Segmentation Approach for Tumors in PET Images

Elisabeth Pfaehler, Liesbet Mesotten, Gem Kramer, Michiel Thomeer, Karolien Vanhove, Johan de Jong, Peter Adriaensens, Otto S. Hoekstra, Ronald Boellaard

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

2 Citations (Scopus)

Abstract

In oncology, Positron Emission Tomography (PET) is frequently performed for cancer staging and treatment monitoring. Metabolic active tumor volume (MATV) as well as total MATV (TMATV - including primary tumor, lymph nodes and metastasis) derived from PET images have been identified as prognostic factor or for evaluating treatment efficacy in cancer patients. To this end a segmentation approach with high precision and repeatability is important. Moreover, to derive TMATV, a reliable segmentation of the primary tumor as well as all metastasis is essential. However, the implementation of a repeatable and accurate segmentation algorithm remains a challenge. In this work, we propose an artificial intelligence based segmentation method based on textural features (TF) extracted from the PET image. From a large number of textural features, the most important features for the segmentation task were selected. The selected features are used for training a random forest classifier to identify voxels as tumor or background. The algorithm is trained, validated and tested using a lung cancer PET/CT dataset and, additionally, applied on a fully independent test-retest dataset. The approach is especially designed for accurate and repeatable segmentation of primary tumors and metastasis in order to derive TMATV. The segmentation results are compared with conventional segmentation approaches in terms of accuracy and repeatability. In summary, the TF segmentation proposed in this study provided better repeatability and accuracy than conventional segmentation approaches. Moreover, segmentations were accurate for both primary tumors and metastasis and the proposed algorithm is therefore a good candidate for PET tumor segmentation.

Original language	English
Title of host publication	Medical Image Understanding and Analysis - 24th Annual Conference, MIUA 2020, Proceedings
Editors	Bartlomiej W. Papiez, Ana I.L. Namburete, Mohammad Yaqub, J. Alison Noble
Publisher	Springer
Pages	3-14
Number of pages	12
ISBN (Print)	9783030527907
DOIs	https://doi.org/10.1007/978-3-030-52791-4_1
Publication status	Published - 1 Jan 2020
Event	24th Annual Conference on Medical Image Understanding and Analysis, MIUA 2020 - Oxford, United Kingdom Duration: 15 Jul 2020 → 17 Jul 2020

Publication series

Name	Communications in Computer and Information Science
Volume	1248 CCIS

Conference

Conference	24th Annual Conference on Medical Image Understanding and Analysis, MIUA 2020
Country/Territory	United Kingdom
City	Oxford
Period	15/07/2020 → 17/07/2020

Keywords

Artificial intelligence
PET
Repeatability
Textural feature segmentation
Tumor segmentation

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https://doi.org/10.1007/978-3-030-52791-4_1

Cite this

Pfaehler, E., Mesotten, L., Kramer, G., Thomeer, M., Vanhove, K., de Jong, J., Adriaensens, P., Hoekstra, O. S., & Boellaard, R. (2020). Textural Feature Based Segmentation: A Repeatable and Accurate Segmentation Approach for Tumors in PET Images. In B. W. Papiez, A. I. L. Namburete, M. Yaqub, & J. A. Noble (Eds.), Medical Image Understanding and Analysis - 24th Annual Conference, MIUA 2020, Proceedings (pp. 3-14). (Communications in Computer and Information Science; Vol. 1248 CCIS). Springer. https://doi.org/10.1007/978-3-030-52791-4_1

Pfaehler, Elisabeth ; Mesotten, Liesbet ; Kramer, Gem et al. / Textural Feature Based Segmentation : A Repeatable and Accurate Segmentation Approach for Tumors in PET Images. Medical Image Understanding and Analysis - 24th Annual Conference, MIUA 2020, Proceedings. editor / Bartlomiej W. Papiez ; Ana I.L. Namburete ; Mohammad Yaqub ; J. Alison Noble. Springer, 2020. pp. 3-14 (Communications in Computer and Information Science).

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title = "Textural Feature Based Segmentation: A Repeatable and Accurate Segmentation Approach for Tumors in PET Images",

abstract = "In oncology, Positron Emission Tomography (PET) is frequently performed for cancer staging and treatment monitoring. Metabolic active tumor volume (MATV) as well as total MATV (TMATV - including primary tumor, lymph nodes and metastasis) derived from PET images have been identified as prognostic factor or for evaluating treatment efficacy in cancer patients. To this end a segmentation approach with high precision and repeatability is important. Moreover, to derive TMATV, a reliable segmentation of the primary tumor as well as all metastasis is essential. However, the implementation of a repeatable and accurate segmentation algorithm remains a challenge. In this work, we propose an artificial intelligence based segmentation method based on textural features (TF) extracted from the PET image. From a large number of textural features, the most important features for the segmentation task were selected. The selected features are used for training a random forest classifier to identify voxels as tumor or background. The algorithm is trained, validated and tested using a lung cancer PET/CT dataset and, additionally, applied on a fully independent test-retest dataset. The approach is especially designed for accurate and repeatable segmentation of primary tumors and metastasis in order to derive TMATV. The segmentation results are compared with conventional segmentation approaches in terms of accuracy and repeatability. In summary, the TF segmentation proposed in this study provided better repeatability and accuracy than conventional segmentation approaches. Moreover, segmentations were accurate for both primary tumors and metastasis and the proposed algorithm is therefore a good candidate for PET tumor segmentation.",

keywords = "Artificial intelligence, PET, Repeatability, Textural feature segmentation, Tumor segmentation",

author = "Elisabeth Pfaehler and Liesbet Mesotten and Gem Kramer and Michiel Thomeer and Karolien Vanhove and {de Jong}, Johan and Peter Adriaensens and Hoekstra, {Otto S.} and Ronald Boellaard",

year = "2020",

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doi = "https://doi.org/10.1007/978-3-030-52791-4_1",

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series = "Communications in Computer and Information Science",

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editor = "Papiez, {Bartlomiej W.} and Namburete, {Ana I.L.} and Mohammad Yaqub and Noble, {J. Alison}",

booktitle = "Medical Image Understanding and Analysis - 24th Annual Conference, MIUA 2020, Proceedings",

note = "24th Annual Conference on Medical Image Understanding and Analysis, MIUA 2020 ; Conference date: 15-07-2020 Through 17-07-2020",

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Pfaehler, E, Mesotten, L, Kramer, G, Thomeer, M, Vanhove, K, de Jong, J, Adriaensens, P, Hoekstra, OS & Boellaard, R 2020, Textural Feature Based Segmentation: A Repeatable and Accurate Segmentation Approach for Tumors in PET Images. in BW Papiez, AIL Namburete, M Yaqub & JA Noble (eds), Medical Image Understanding and Analysis - 24th Annual Conference, MIUA 2020, Proceedings. Communications in Computer and Information Science, vol. 1248 CCIS, Springer, pp. 3-14, 24th Annual Conference on Medical Image Understanding and Analysis, MIUA 2020, Oxford, United Kingdom, 15/07/2020. https://doi.org/10.1007/978-3-030-52791-4_1

Textural Feature Based Segmentation: A Repeatable and Accurate Segmentation Approach for Tumors in PET Images. / Pfaehler, Elisabeth; Mesotten, Liesbet; Kramer, Gem et al.
Medical Image Understanding and Analysis - 24th Annual Conference, MIUA 2020, Proceedings. ed. / Bartlomiej W. Papiez; Ana I.L. Namburete; Mohammad Yaqub; J. Alison Noble. Springer, 2020. p. 3-14 (Communications in Computer and Information Science; Vol. 1248 CCIS).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

TY - GEN

T1 - Textural Feature Based Segmentation

T2 - 24th Annual Conference on Medical Image Understanding and Analysis, MIUA 2020

AU - Pfaehler, Elisabeth

AU - Mesotten, Liesbet

AU - Kramer, Gem

AU - Thomeer, Michiel

AU - Vanhove, Karolien

AU - de Jong, Johan

AU - Adriaensens, Peter

AU - Hoekstra, Otto S.

AU - Boellaard, Ronald

PY - 2020/1/1

Y1 - 2020/1/1

N2 - In oncology, Positron Emission Tomography (PET) is frequently performed for cancer staging and treatment monitoring. Metabolic active tumor volume (MATV) as well as total MATV (TMATV - including primary tumor, lymph nodes and metastasis) derived from PET images have been identified as prognostic factor or for evaluating treatment efficacy in cancer patients. To this end a segmentation approach with high precision and repeatability is important. Moreover, to derive TMATV, a reliable segmentation of the primary tumor as well as all metastasis is essential. However, the implementation of a repeatable and accurate segmentation algorithm remains a challenge. In this work, we propose an artificial intelligence based segmentation method based on textural features (TF) extracted from the PET image. From a large number of textural features, the most important features for the segmentation task were selected. The selected features are used for training a random forest classifier to identify voxels as tumor or background. The algorithm is trained, validated and tested using a lung cancer PET/CT dataset and, additionally, applied on a fully independent test-retest dataset. The approach is especially designed for accurate and repeatable segmentation of primary tumors and metastasis in order to derive TMATV. The segmentation results are compared with conventional segmentation approaches in terms of accuracy and repeatability. In summary, the TF segmentation proposed in this study provided better repeatability and accuracy than conventional segmentation approaches. Moreover, segmentations were accurate for both primary tumors and metastasis and the proposed algorithm is therefore a good candidate for PET tumor segmentation.

AB - In oncology, Positron Emission Tomography (PET) is frequently performed for cancer staging and treatment monitoring. Metabolic active tumor volume (MATV) as well as total MATV (TMATV - including primary tumor, lymph nodes and metastasis) derived from PET images have been identified as prognostic factor or for evaluating treatment efficacy in cancer patients. To this end a segmentation approach with high precision and repeatability is important. Moreover, to derive TMATV, a reliable segmentation of the primary tumor as well as all metastasis is essential. However, the implementation of a repeatable and accurate segmentation algorithm remains a challenge. In this work, we propose an artificial intelligence based segmentation method based on textural features (TF) extracted from the PET image. From a large number of textural features, the most important features for the segmentation task were selected. The selected features are used for training a random forest classifier to identify voxels as tumor or background. The algorithm is trained, validated and tested using a lung cancer PET/CT dataset and, additionally, applied on a fully independent test-retest dataset. The approach is especially designed for accurate and repeatable segmentation of primary tumors and metastasis in order to derive TMATV. The segmentation results are compared with conventional segmentation approaches in terms of accuracy and repeatability. In summary, the TF segmentation proposed in this study provided better repeatability and accuracy than conventional segmentation approaches. Moreover, segmentations were accurate for both primary tumors and metastasis and the proposed algorithm is therefore a good candidate for PET tumor segmentation.

KW - Artificial intelligence

KW - PET

KW - Repeatability

KW - Textural feature segmentation

KW - Tumor segmentation

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DO - https://doi.org/10.1007/978-3-030-52791-4_1

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BT - Medical Image Understanding and Analysis - 24th Annual Conference, MIUA 2020, Proceedings

A2 - Papiez, Bartlomiej W.

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Pfaehler E, Mesotten L, Kramer G, Thomeer M, Vanhove K, de Jong J et al. Textural Feature Based Segmentation: A Repeatable and Accurate Segmentation Approach for Tumors in PET Images. In Papiez BW, Namburete AIL, Yaqub M, Noble JA, editors, Medical Image Understanding and Analysis - 24th Annual Conference, MIUA 2020, Proceedings. Springer. 2020. p. 3-14. (Communications in Computer and Information Science). doi: https://doi.org/10.1007/978-3-030-52791-4_1

Textural Feature Based Segmentation: A Repeatable and Accurate Segmentation Approach for Tumors in PET Images

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Keywords

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