Accuracy and reproducibility in volumetric analysis of multiple sclerosis lesions

Edward F. Jackson; Ponnada A. Narayana; Jerry S. Wolinsky; Timothy J. Doyle

doi:10.1097/00004728-199303000-00007

Accuracy and reproducibility in volumetric analysis of multiple sclerosis lesions

Edward F. Jackson, Ponnada A. Narayana, Jerry S. Wolinsky, Timothy J. Doyle

Imaging Physics

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

61 Scopus citations

Abstract

The accuracy and reproducibility of dual-contrast segmentation based on nonparametric feature map analysis have been investigated in a multicomponent gelatin phantom. The root mean square errors in volume ranged from 0.02 cm3 for small volumes to 3.8 cm3 for larger volumes, with a mean error of 0.97 cm3. Average inter-and intraobserver coefficients of variation were found to be <7% for all compartments. To evaluate the reproducibility of segmentation of clinical image data, volumes of total brain, CSF, and multiple sclerosis (MS) lesions were obtained from five image sets of MS patients. Inter-and intraobserver coefficients of variations were computed for the patient data and were found to be <5% for brain, 17% for CSF, and 20% for MS lesions. Such variations were found to be reduced by appropriate preprocessing of the images.

Original language	English (US)
Pages (from-to)	200-205
Number of pages	6
Journal	Journal of computer assisted tomography
Volume	17
Issue number	2
DOIs	https://doi.org/10.1097/00004728-199303000-00007
State	Published - 1993

Keywords

Brain anatomy
Magnetic resonance imaging
Multiple sclerosis
Volumetric analysis

ASJC Scopus subject areas

Radiology Nuclear Medicine and imaging

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10.1097/00004728-199303000-00007

Cite this

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title = "Accuracy and reproducibility in volumetric analysis of multiple sclerosis lesions",

abstract = "The accuracy and reproducibility of dual-contrast segmentation based on nonparametric feature map analysis have been investigated in a multicomponent gelatin phantom. The root mean square errors in volume ranged from 0.02 cm3 for small volumes to 3.8 cm3 for larger volumes, with a mean error of 0.97 cm3. Average inter-and intraobserver coefficients of variation were found to be <7% for all compartments. To evaluate the reproducibility of segmentation of clinical image data, volumes of total brain, CSF, and multiple sclerosis (MS) lesions were obtained from five image sets of MS patients. Inter-and intraobserver coefficients of variations were computed for the patient data and were found to be <5% for brain, 17% for CSF, and 20% for MS lesions. Such variations were found to be reduced by appropriate preprocessing of the images.",

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AU - Jackson, Edward F.

AU - Narayana, Ponnada A.

AU - Wolinsky, Jerry S.

AU - Doyle, Timothy J.

PY - 1993

Y1 - 1993

N2 - The accuracy and reproducibility of dual-contrast segmentation based on nonparametric feature map analysis have been investigated in a multicomponent gelatin phantom. The root mean square errors in volume ranged from 0.02 cm3 for small volumes to 3.8 cm3 for larger volumes, with a mean error of 0.97 cm3. Average inter-and intraobserver coefficients of variation were found to be <7% for all compartments. To evaluate the reproducibility of segmentation of clinical image data, volumes of total brain, CSF, and multiple sclerosis (MS) lesions were obtained from five image sets of MS patients. Inter-and intraobserver coefficients of variations were computed for the patient data and were found to be <5% for brain, 17% for CSF, and 20% for MS lesions. Such variations were found to be reduced by appropriate preprocessing of the images.

AB - The accuracy and reproducibility of dual-contrast segmentation based on nonparametric feature map analysis have been investigated in a multicomponent gelatin phantom. The root mean square errors in volume ranged from 0.02 cm3 for small volumes to 3.8 cm3 for larger volumes, with a mean error of 0.97 cm3. Average inter-and intraobserver coefficients of variation were found to be <7% for all compartments. To evaluate the reproducibility of segmentation of clinical image data, volumes of total brain, CSF, and multiple sclerosis (MS) lesions were obtained from five image sets of MS patients. Inter-and intraobserver coefficients of variations were computed for the patient data and were found to be <5% for brain, 17% for CSF, and 20% for MS lesions. Such variations were found to be reduced by appropriate preprocessing of the images.

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KW - Magnetic resonance imaging

KW - Multiple sclerosis

KW - Volumetric analysis

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Accuracy and reproducibility in volumetric analysis of multiple sclerosis lesions

Abstract

Keywords

ASJC Scopus subject areas

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