Analysis of neoplastic lesions in magnetic resonance imaging using self-organizing maps

Analysis of neoplastic lesions in magnetic resonance imaging using self-organizing maps

Abstract Objective To provide an improved method for the identification and analysis of brain tumors in MRI scans using a semi-automated computational approach, that has the potential to provide a more objective, precise and quantitatively rigorous analysis, compared to human visual analysis. Backgr...

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Veröffentlicht in:Journal of the neurological sciences 2015-12, Vol.359 (1), p.78-83
Hauptverfasser: Mei, Paulo Afonso, de Carvalho Carneiro, Cleyton, Fraser, Stephen J, Min, Li Li, Reis, Fabiano
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Sprache:eng
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Adult
Aged
Aged, 80 and over
Brain
Brain Neoplasms - classification
Brain Neoplasms - pathology
Female
Glioblastoma - pathology
Glioma - pathology
Humans
Image Processing, Computer-Assisted
Magnetic Resonance Imaging
Male
Meningeal Neoplasms - pathology
Meningioma - pathology
Middle Aged
MRI
Neoplastic
Neurology
ROC Curve
Self-organizing maps
SOM
Tumors
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container_end_page 83
container_issue 1
container_start_page 78
container_title Journal of the neurological sciences
container_volume 359
creator Mei, Paulo Afonso
de Carvalho Carneiro, Cleyton
Fraser, Stephen J
Min, Li Li
Reis, Fabiano
description Abstract Objective To provide an improved method for the identification and analysis of brain tumors in MRI scans using a semi-automated computational approach, that has the potential to provide a more objective, precise and quantitatively rigorous analysis, compared to human visual analysis. Background Self-Organizing Maps (SOM) is an unsupervised, exploratory data analysis tool, which can automatically domain an image into selfsimilar regions or clusters, based on measures of similarity. It can be used to perform image-domain of brain tissue on MR images, without prior knowledge. Design/Methods We used SOM to analyze T1, T2 and FLAIR acquisitions from two MRI machines in our service from 14 patients with brain tumors confirmed by biopsies - three lymphomas, six glioblastomas, one meningioma, one ganglioglioma, two oligoastrocytomas and one astrocytoma. The SOM software was used to analyze the data from the three image acquisitions from each patient and generated a self-organized map for each containing 25 clusters. Results Damaged tissue was separated from the normal tissue using the SOM technique. Furthermore, in some cases it allowed to separate different areas from within the tumor - like edema/peritumoral infiltration and necrosis. In lesions with less precise boundaries in FLAIR, the estimated damaged tissue area in the resulting map appears bigger. Conclusions Our results showed that SOM has the potential to be a powerful MR imaging analysis technique for the assessment of brain tumors.
doi_str_mv 10.1016/j.jns.2015.10.032
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Background Self-Organizing Maps (SOM) is an unsupervised, exploratory data analysis tool, which can automatically domain an image into selfsimilar regions or clusters, based on measures of similarity. It can be used to perform image-domain of brain tissue on MR images, without prior knowledge. Design/Methods We used SOM to analyze T1, T2 and FLAIR acquisitions from two MRI machines in our service from 14 patients with brain tumors confirmed by biopsies - three lymphomas, six glioblastomas, one meningioma, one ganglioglioma, two oligoastrocytomas and one astrocytoma. The SOM software was used to analyze the data from the three image acquisitions from each patient and generated a self-organized map for each containing 25 clusters. Results Damaged tissue was separated from the normal tissue using the SOM technique. Furthermore, in some cases it allowed to separate different areas from within the tumor - like edema/peritumoral infiltration and necrosis. In lesions with less precise boundaries in FLAIR, the estimated damaged tissue area in the resulting map appears bigger. Conclusions Our results showed that SOM has the potential to be a powerful MR imaging analysis technique for the assessment of brain tumors.</description><identifier>ISSN: 0022-510X</identifier><identifier>EISSN: 1878-5883</identifier><identifier>DOI: 10.1016/j.jns.2015.10.032</identifier><identifier>PMID: 26671090</identifier><language>eng</language><publisher>Netherlands: Elsevier B.V</publisher><subject>Adult ; Aged ; Aged, 80 and over ; Brain ; Brain Neoplasms - classification ; Brain Neoplasms - pathology ; Female ; Glioblastoma - pathology ; Glioma - pathology ; Humans ; Image Processing, Computer-Assisted ; Magnetic Resonance Imaging ; Male ; Meningeal Neoplasms - pathology ; Meningioma - pathology ; Middle Aged ; MRI ; Neoplastic ; Neurology ; ROC Curve ; Self-organizing maps ; SOM ; Tumors</subject><ispartof>Journal of the neurological sciences, 2015-12, Vol.359 (1), p.78-83</ispartof><rights>2015</rights><rights>Copyright © 2015. 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Background Self-Organizing Maps (SOM) is an unsupervised, exploratory data analysis tool, which can automatically domain an image into selfsimilar regions or clusters, based on measures of similarity. It can be used to perform image-domain of brain tissue on MR images, without prior knowledge. Design/Methods We used SOM to analyze T1, T2 and FLAIR acquisitions from two MRI machines in our service from 14 patients with brain tumors confirmed by biopsies - three lymphomas, six glioblastomas, one meningioma, one ganglioglioma, two oligoastrocytomas and one astrocytoma. The SOM software was used to analyze the data from the three image acquisitions from each patient and generated a self-organized map for each containing 25 clusters. Results Damaged tissue was separated from the normal tissue using the SOM technique. Furthermore, in some cases it allowed to separate different areas from within the tumor - like edema/peritumoral infiltration and necrosis. In lesions with less precise boundaries in FLAIR, the estimated damaged tissue area in the resulting map appears bigger. 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Background Self-Organizing Maps (SOM) is an unsupervised, exploratory data analysis tool, which can automatically domain an image into selfsimilar regions or clusters, based on measures of similarity. It can be used to perform image-domain of brain tissue on MR images, without prior knowledge. Design/Methods We used SOM to analyze T1, T2 and FLAIR acquisitions from two MRI machines in our service from 14 patients with brain tumors confirmed by biopsies - three lymphomas, six glioblastomas, one meningioma, one ganglioglioma, two oligoastrocytomas and one astrocytoma. The SOM software was used to analyze the data from the three image acquisitions from each patient and generated a self-organized map for each containing 25 clusters. Results Damaged tissue was separated from the normal tissue using the SOM technique. Furthermore, in some cases it allowed to separate different areas from within the tumor - like edema/peritumoral infiltration and necrosis. In lesions with less precise boundaries in FLAIR, the estimated damaged tissue area in the resulting map appears bigger. Conclusions Our results showed that SOM has the potential to be a powerful MR imaging analysis technique for the assessment of brain tumors.</abstract><cop>Netherlands</cop><pub>Elsevier B.V</pub><pmid>26671090</pmid><doi>10.1016/j.jns.2015.10.032</doi><tpages>6</tpages></addata></record>
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source MEDLINE; ScienceDirect Journals (5 years ago - present)
subjects Adult
Aged
Aged, 80 and over
Brain
Brain Neoplasms - classification
Brain Neoplasms - pathology
Female
Glioblastoma - pathology
Glioma - pathology
Humans
Image Processing, Computer-Assisted
Magnetic Resonance Imaging
Male
Meningeal Neoplasms - pathology
Meningioma - pathology
Middle Aged
MRI
Neoplastic
Neurology
ROC Curve
Self-organizing maps
SOM
Tumors
title Analysis of neoplastic lesions in magnetic resonance imaging using self-organizing maps
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