Robust calculation of the midsagittal plane in CT scans using the Kullback–Leibler’s measure

Objective The identification of the interhemispheric fissure (IF) is important in clinical applications for brain landmark identification, registration, symmetry assessment, and pathology detection. The IF is usually approximated by the midsagittal plane (MSP) separating the brain into two hemispher...

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Published inInternational journal for computer assisted radiology and surgery Vol. 4; no. 6; pp. 535 - 547
Main Authors Puspitasari, Fiftarina, Volkau, Ihar, Ambrosius, Wojciech, Nowinski, Wieslaw L.
Format Journal Article
LanguageEnglish
Published Berlin/Heidelberg Springer-Verlag 01.11.2009
Subjects
Algorithms
Brain - anatomy & histology
Brain - diagnostic imaging
Computer Imaging
Computer Science
Health Informatics
Humans
Imaging
Medicine
Medicine & Public Health
Pattern Recognition and Graphics
Radiology
Review Article
Surgery
Tomography, X-Ray Computed - methods
Vision
CT
Stroke
Midsagittal plane
Symmetry
Online AccessGet full text
ISSN1861-6410
1861-6429
1861-6429
DOI10.1007/s11548-009-0366-2

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Abstract Objective The identification of the interhemispheric fissure (IF) is important in clinical applications for brain landmark identification, registration, symmetry assessment, and pathology detection. The IF is usually approximated by the midsagittal plane (MSP) separating the brain into two hemispheres. We present a fast accurate, automatic, and robust algorithm for finding the MSP for CT scans acquired in emergency room (ER) with a large slice thickness, high partial volume effect, and substantial head tilt. Materials and methods An earlier algorithm for MSP identification from MRI using the Kullback–Leibler’s measure was extended for CT by estimating patient’s head orientation using model fitting, image processing, and atlas-based techniques. The new algorithm was validated on 208 clinical scans acquired mainly in the ER with slice thickness ranging from 1.5 to 6 mm and severe head tilt. Results The algorithm worked robustly for all 208 cases. An angular discrepancy (°) and maximum distance (mm) between the calculated MSP and ground truth have the mean value (SD) 0.0258° (0.9541°) and 0.1472 (0.7373) mm, respectively. In average, the algorithm takes 10 s to process of a typical CT case. Conclusion The proposed algorithm is robust to head rotation, and correctly identifies the MSP for a standard clinical CT scan with a large slice thickness. It has been applied in our several CT stroke CAD systems.
AbstractList Objective The identification of the interhemispheric fissure (IF) is important in clinical applications for brain landmark identification, registration, symmetry assessment, and pathology detection. The IF is usually approximated by the midsagittal plane (MSP) separating the brain into two hemispheres. We present a fast accurate, automatic, and robust algorithm for finding the MSP for CT scans acquired in emergency room (ER) with a large slice thickness, high partial volume effect, and substantial head tilt. Materials and methods An earlier algorithm for MSP identification from MRI using the Kullback–Leibler’s measure was extended for CT by estimating patient’s head orientation using model fitting, image processing, and atlas-based techniques. The new algorithm was validated on 208 clinical scans acquired mainly in the ER with slice thickness ranging from 1.5 to 6 mm and severe head tilt. Results The algorithm worked robustly for all 208 cases. An angular discrepancy (°) and maximum distance (mm) between the calculated MSP and ground truth have the mean value (SD) 0.0258° (0.9541°) and 0.1472 (0.7373) mm, respectively. In average, the algorithm takes 10 s to process of a typical CT case. Conclusion The proposed algorithm is robust to head rotation, and correctly identifies the MSP for a standard clinical CT scan with a large slice thickness. It has been applied in our several CT stroke CAD systems.
The identification of the interhemispheric fissure (IF) is important in clinical applications for brain landmark identification, registration, symmetry assessment, and pathology detection. The IF is usually approximated by the midsagittal plane (MSP) separating the brain into two hemispheres. We present a fast accurate, automatic, and robust algorithm for finding the MSP for CT scans acquired in emergency room (ER) with a large slice thickness, high partial volume effect, and substantial head tilt. An earlier algorithm for MSP identification from MRI using the Kullback-Leibler's measure was extended for CT by estimating patient's head orientation using model fitting, image processing, and atlas-based techniques. The new algorithm was validated on 208 clinical scans acquired mainly in the ER with slice thickness ranging from 1.5 to 6 mm and severe head tilt. The algorithm worked robustly for all 208 cases. An angular discrepancy (degrees) and maximum distance (mm) between the calculated MSP and ground truth have the mean value (SD) 0.0258 degrees (0.9541 degrees) and 0.1472 (0.7373) mm, respectively. In average, the algorithm takes 10 s to process of a typical CT case. The proposed algorithm is robust to head rotation, and correctly identifies the MSP for a standard clinical CT scan with a large slice thickness. It has been applied in our several CT stroke CAD systems.
The identification of the interhemispheric fissure (IF) is important in clinical applications for brain landmark identification, registration, symmetry assessment, and pathology detection. The IF is usually approximated by the midsagittal plane (MSP) separating the brain into two hemispheres. We present a fast accurate, automatic, and robust algorithm for finding the MSP for CT scans acquired in emergency room (ER) with a large slice thickness, high partial volume effect, and substantial head tilt.OBJECTIVEThe identification of the interhemispheric fissure (IF) is important in clinical applications for brain landmark identification, registration, symmetry assessment, and pathology detection. The IF is usually approximated by the midsagittal plane (MSP) separating the brain into two hemispheres. We present a fast accurate, automatic, and robust algorithm for finding the MSP for CT scans acquired in emergency room (ER) with a large slice thickness, high partial volume effect, and substantial head tilt.An earlier algorithm for MSP identification from MRI using the Kullback-Leibler's measure was extended for CT by estimating patient's head orientation using model fitting, image processing, and atlas-based techniques. The new algorithm was validated on 208 clinical scans acquired mainly in the ER with slice thickness ranging from 1.5 to 6 mm and severe head tilt.MATERIALS AND METHODSAn earlier algorithm for MSP identification from MRI using the Kullback-Leibler's measure was extended for CT by estimating patient's head orientation using model fitting, image processing, and atlas-based techniques. The new algorithm was validated on 208 clinical scans acquired mainly in the ER with slice thickness ranging from 1.5 to 6 mm and severe head tilt.The algorithm worked robustly for all 208 cases. An angular discrepancy (degrees) and maximum distance (mm) between the calculated MSP and ground truth have the mean value (SD) 0.0258 degrees (0.9541 degrees) and 0.1472 (0.7373) mm, respectively. In average, the algorithm takes 10 s to process of a typical CT case.RESULTSThe algorithm worked robustly for all 208 cases. An angular discrepancy (degrees) and maximum distance (mm) between the calculated MSP and ground truth have the mean value (SD) 0.0258 degrees (0.9541 degrees) and 0.1472 (0.7373) mm, respectively. In average, the algorithm takes 10 s to process of a typical CT case.The proposed algorithm is robust to head rotation, and correctly identifies the MSP for a standard clinical CT scan with a large slice thickness. It has been applied in our several CT stroke CAD systems.CONCLUSIONThe proposed algorithm is robust to head rotation, and correctly identifies the MSP for a standard clinical CT scan with a large slice thickness. It has been applied in our several CT stroke CAD systems.
Author Puspitasari, Fiftarina
Volkau, Ihar
Ambrosius, Wojciech
Nowinski, Wieslaw L.
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Keywords CT
Stroke
Midsagittal plane
Symmetry
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Snippet Objective The identification of the interhemispheric fissure (IF) is important in clinical applications for brain landmark identification, registration,...
The identification of the interhemispheric fissure (IF) is important in clinical applications for brain landmark identification, registration, symmetry...
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SubjectTerms Algorithms
Brain - anatomy & histology
Brain - diagnostic imaging
Computer Imaging
Computer Science
Health Informatics
Humans
Imaging
Medicine
Medicine & Public Health
Pattern Recognition and Graphics
Radiology
Review Article
Surgery
Tomography, X-Ray Computed - methods
Vision
Title Robust calculation of the midsagittal plane in CT scans using the Kullback–Leibler’s measure
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https://www.ncbi.nlm.nih.gov/pubmed/20033330
https://www.proquest.com/docview/733610248
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