Imaging the Intracranial Atherosclerotic Vessel Wall Using 7T MRI: Initial Comparison with Histopathology

A. G. van der Kolk; J. J. M. Zwanenburg; N. P. Denswil; A. Vink; W. G. M. Spliet; M. J. A. P. Daemen; F. Visser; D. W. J. Klomp; P. R. Luijten; J. Hendrikse

doi:10.3174/ajnr.A4178

Imaging the Intracranial Atherosclerotic Vessel Wall Using 7T MRI: Initial Comparison with Histopathology

A. G. van der Kolk^*
, J. J. M. Zwanenburg
, N. P. Denswil
, A. Vink
, W. G. M. Spliet
, M. J. A. P. Daemen
, F. Visser
, D. W. J. Klomp
, P. R. Luijten
, J. Hendrikse

^*Corresponding author for this work

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

Abstract

In this preliminary study, 7T imaging was capable of identifying not only intracranial wall thickening but different plaque components such as foamy macrophages and collagen. Signal heterogeneity was typical of advanced atherosclerotic disease.

BACKGROUND AND PURPOSE: Several studies have attempted to characterize intracranial atherosclerotic plaques by using MR imaging sequences. However, dedicated validation of these sequences with histology has not yet been performed. The current study assessed the ability of ultra-high-resolution 7T MR imaging sequences with different image contrast weightings to image plaque components, by using histology as criterion standard.

MATERIALS AND METHODS: Five specimens of the circle of Wills were imaged at 7T with 0.11 x 0.11 mm in-plane-resolution proton attenuation-, T1-, T2-, and T2*-weighted sequences (through-plane resolution, 0.11-1 mm). Tissue samples from 13 fiducial-marked locations (per specimen) on MR imaging underwent histologic processing and atherosclerotic plaque classification. Reconstructed MR images were matched with histologic sections at corresponding locations.

RESULTS: Forty-four samples were available for subsequent evaluation of agreement or disagreement between plaque components and image contrast differences. Of samples, 52.3% (n = 23) showed no image contrast heterogeneity; this group comprised solely no lesions or early lesions. Of samples, 25.0% (n = 11, mostly advanced lesions) showed good correlation between the spatial organization of MR imaging heterogeneities and plaque components. Areas of foamy macrophages were generally seen as proton attenuation-, T2-, and T2*- hypointense areas, while areas of increased collagen content showed more ambiguous signal intensities. Five samples showed image-contrast heterogeneity without corresponding plaque components on histology; 5 other samples showed contrast heterogeneity based on intima-media artifacts.

CONCLUSIONS: MR imaging at 7T has the image contrast capable of identifying both focal intracranial vessel wall thickening and distinguishing areas of different signal intensities spatially corresponding to plaque components within more advanced atherosclerotic plaques.

Original language	English
Pages (from-to)	694-701
Number of pages	8
Journal	American Journal of Neuroradiology
Volume	36
Issue number	4
DOIs	https://doi.org/10.3174/ajnr.A4178
Publication status	Published - Apr 2015

Keywords

HUMAN CAROTID PLAQUES
HIGH-RESOLUTION MRI
IN-VIVO ACCURACY
INTRAPLAQUE HEMORRHAGE
ARTERY-STENOSIS
ISCHEMIC-STROKE
HIGH-RISK
LESIONS
CLASSIFICATION

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van der Kolk, A. G., Zwanenburg, J. J. M., Denswil, N. P., Vink, A., Spliet, W. G. M., Daemen, M. J. A. P., Visser, F., Klomp, D. W. J., Luijten, P. R., & Hendrikse, J. (2015). Imaging the Intracranial Atherosclerotic Vessel Wall Using 7T MRI: Initial Comparison with Histopathology. American Journal of Neuroradiology, 36(4), 694-701. https://doi.org/10.3174/ajnr.A4178

@article{e0a1d58bc74d4b18b0e87f4b77d2d952,

title = "Imaging the Intracranial Atherosclerotic Vessel Wall Using 7T MRI: Initial Comparison with Histopathology",

abstract = "In this preliminary study, 7T imaging was capable of identifying not only intracranial wall thickening but different plaque components such as foamy macrophages and collagen. Signal heterogeneity was typical of advanced atherosclerotic disease.BACKGROUND AND PURPOSE: Several studies have attempted to characterize intracranial atherosclerotic plaques by using MR imaging sequences. However, dedicated validation of these sequences with histology has not yet been performed. The current study assessed the ability of ultra-high-resolution 7T MR imaging sequences with different image contrast weightings to image plaque components, by using histology as criterion standard.MATERIALS AND METHODS: Five specimens of the circle of Wills were imaged at 7T with 0.11 x 0.11 mm in-plane-resolution proton attenuation-, T1-, T2-, and T2*-weighted sequences (through-plane resolution, 0.11-1 mm). Tissue samples from 13 fiducial-marked locations (per specimen) on MR imaging underwent histologic processing and atherosclerotic plaque classification. Reconstructed MR images were matched with histologic sections at corresponding locations.RESULTS: Forty-four samples were available for subsequent evaluation of agreement or disagreement between plaque components and image contrast differences. Of samples, 52.3\% (n = 23) showed no image contrast heterogeneity; this group comprised solely no lesions or early lesions. Of samples, 25.0\% (n = 11, mostly advanced lesions) showed good correlation between the spatial organization of MR imaging heterogeneities and plaque components. Areas of foamy macrophages were generally seen as proton attenuation-, T2-, and T2*- hypointense areas, while areas of increased collagen content showed more ambiguous signal intensities. Five samples showed image-contrast heterogeneity without corresponding plaque components on histology; 5 other samples showed contrast heterogeneity based on intima-media artifacts.CONCLUSIONS: MR imaging at 7T has the image contrast capable of identifying both focal intracranial vessel wall thickening and distinguishing areas of different signal intensities spatially corresponding to plaque components within more advanced atherosclerotic plaques.",

keywords = "HUMAN CAROTID PLAQUES, HIGH-RESOLUTION MRI, IN-VIVO ACCURACY, INTRAPLAQUE HEMORRHAGE, ARTERY-STENOSIS, ISCHEMIC-STROKE, HIGH-RISK, LESIONS, CLASSIFICATION",

author = "\{van der Kolk\}, \{A. G.\} and Zwanenburg, \{J. J. M.\} and Denswil, \{N. P.\} and A. Vink and Spliet, \{W. G. M.\} and Daemen, \{M. J. A. P.\} and F. Visser and Klomp, \{D. W. J.\} and Luijten, \{P. R.\} and J. Hendrikse",

year = "2015",

month = apr,

doi = "10.3174/ajnr.A4178",

language = "English",

volume = "36",

pages = "694--701",

journal = "American Journal of Neuroradiology",

issn = "0195-6108",

publisher = "American Society of Neuroradiology",

number = "4",

}

TY - JOUR

T1 - Imaging the Intracranial Atherosclerotic Vessel Wall Using 7T MRI

T2 - Initial Comparison with Histopathology

AU - van der Kolk, A. G.

AU - Zwanenburg, J. J. M.

AU - Denswil, N. P.

AU - Vink, A.

AU - Spliet, W. G. M.

AU - Daemen, M. J. A. P.

AU - Visser, F.

AU - Klomp, D. W. J.

AU - Luijten, P. R.

AU - Hendrikse, J.

PY - 2015/4

Y1 - 2015/4

N2 - In this preliminary study, 7T imaging was capable of identifying not only intracranial wall thickening but different plaque components such as foamy macrophages and collagen. Signal heterogeneity was typical of advanced atherosclerotic disease.BACKGROUND AND PURPOSE: Several studies have attempted to characterize intracranial atherosclerotic plaques by using MR imaging sequences. However, dedicated validation of these sequences with histology has not yet been performed. The current study assessed the ability of ultra-high-resolution 7T MR imaging sequences with different image contrast weightings to image plaque components, by using histology as criterion standard.MATERIALS AND METHODS: Five specimens of the circle of Wills were imaged at 7T with 0.11 x 0.11 mm in-plane-resolution proton attenuation-, T1-, T2-, and T2*-weighted sequences (through-plane resolution, 0.11-1 mm). Tissue samples from 13 fiducial-marked locations (per specimen) on MR imaging underwent histologic processing and atherosclerotic plaque classification. Reconstructed MR images were matched with histologic sections at corresponding locations.RESULTS: Forty-four samples were available for subsequent evaluation of agreement or disagreement between plaque components and image contrast differences. Of samples, 52.3% (n = 23) showed no image contrast heterogeneity; this group comprised solely no lesions or early lesions. Of samples, 25.0% (n = 11, mostly advanced lesions) showed good correlation between the spatial organization of MR imaging heterogeneities and plaque components. Areas of foamy macrophages were generally seen as proton attenuation-, T2-, and T2*- hypointense areas, while areas of increased collagen content showed more ambiguous signal intensities. Five samples showed image-contrast heterogeneity without corresponding plaque components on histology; 5 other samples showed contrast heterogeneity based on intima-media artifacts.CONCLUSIONS: MR imaging at 7T has the image contrast capable of identifying both focal intracranial vessel wall thickening and distinguishing areas of different signal intensities spatially corresponding to plaque components within more advanced atherosclerotic plaques.

AB - In this preliminary study, 7T imaging was capable of identifying not only intracranial wall thickening but different plaque components such as foamy macrophages and collagen. Signal heterogeneity was typical of advanced atherosclerotic disease.BACKGROUND AND PURPOSE: Several studies have attempted to characterize intracranial atherosclerotic plaques by using MR imaging sequences. However, dedicated validation of these sequences with histology has not yet been performed. The current study assessed the ability of ultra-high-resolution 7T MR imaging sequences with different image contrast weightings to image plaque components, by using histology as criterion standard.MATERIALS AND METHODS: Five specimens of the circle of Wills were imaged at 7T with 0.11 x 0.11 mm in-plane-resolution proton attenuation-, T1-, T2-, and T2*-weighted sequences (through-plane resolution, 0.11-1 mm). Tissue samples from 13 fiducial-marked locations (per specimen) on MR imaging underwent histologic processing and atherosclerotic plaque classification. Reconstructed MR images were matched with histologic sections at corresponding locations.RESULTS: Forty-four samples were available for subsequent evaluation of agreement or disagreement between plaque components and image contrast differences. Of samples, 52.3% (n = 23) showed no image contrast heterogeneity; this group comprised solely no lesions or early lesions. Of samples, 25.0% (n = 11, mostly advanced lesions) showed good correlation between the spatial organization of MR imaging heterogeneities and plaque components. Areas of foamy macrophages were generally seen as proton attenuation-, T2-, and T2*- hypointense areas, while areas of increased collagen content showed more ambiguous signal intensities. Five samples showed image-contrast heterogeneity without corresponding plaque components on histology; 5 other samples showed contrast heterogeneity based on intima-media artifacts.CONCLUSIONS: MR imaging at 7T has the image contrast capable of identifying both focal intracranial vessel wall thickening and distinguishing areas of different signal intensities spatially corresponding to plaque components within more advanced atherosclerotic plaques.

KW - HUMAN CAROTID PLAQUES

KW - HIGH-RESOLUTION MRI

KW - IN-VIVO ACCURACY

KW - INTRAPLAQUE HEMORRHAGE

KW - ARTERY-STENOSIS

KW - ISCHEMIC-STROKE

KW - HIGH-RISK

KW - LESIONS

KW - CLASSIFICATION

U2 - 10.3174/ajnr.A4178

DO - 10.3174/ajnr.A4178

M3 - Article

C2 - 25477359

SN - 0195-6108

VL - 36

SP - 694

EP - 701

JO - American Journal of Neuroradiology

JF - American Journal of Neuroradiology

IS - 4

ER -

Imaging the Intracranial Atherosclerotic Vessel Wall Using 7T MRI: Initial Comparison with Histopathology

Abstract

Keywords

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