Influence of Thin Slice Reconstruction on CT Brain Perfusion Analysis

Edwin Bennink; Jaap Oosterbroek; Alexander D. Horsch; Jan Willem Dankbaar; BK Velthuis; Max A. Viergever; Hugo W. A. M. de Jong

doi:10.1371/journal.pone.0137766

Influence of Thin Slice Reconstruction on CT Brain Perfusion Analysis

Edwin Bennink^*, Jaap Oosterbroek, Alexander D. Horsch, Jan Willem Dankbaar, BK Velthuis, Max A. Viergever, Hugo W. A. M. de Jong

^*Corresponding author for this work

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

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Abstract

Objectives

Although CT scanners generally allow dynamic acquisition of thin slices (1 mm), thick slice (>= 5 mm) reconstruction is commonly used for stroke imaging to reduce data, processing time, and noise level. Thin slice CT perfusion (CTP) reconstruction may suffer less from partial volume effects, and thus yield more accurate quantitative results with increased resolution. Before thin slice protocols are to be introduced clinically, it needs to be ensured that this does not affect overall CTP constancy. We studied the influence of thin slice reconstruction on average perfusion values by comparing it with standard thick slice reconstruction.

Materials and Methods

From 50 patient studies, absolute and relative hemisphere averaged estimates of cerebral blood volume (CBV), cerebral blood flow (CBF), mean transit time (MTT), and permeability-surface area product (PS) were analyzed using 0.8, 2.4, 4.8, and 9.6 mm slice reconstructions. Specifically, the influence of Gaussian and bilateral filtering, the arterial input function (AIF), and motion correction on the perfusion values was investigated.

Results

Bilateral filtering gave noise levels comparable to isotropic Gaussian filtering, with less partial volume effects. Absolute CBF, CBV and PS were 22%, 14% and 46% lower with 0.8 mm than with 4.8 mm slices. If the AIF and motion correction were based on thin slices prior to reconstruction of thicker slices, these differences reduced to 3%, 4% and 3%. The effect of slice thickness on relative values was very small.

Conclusions

This study shows that thin slice reconstruction for CTP with unaltered acquisition protocol gives relative perfusion values without clinically relevant bias. It does however affect absolute perfusion values, of which CBF and CBV are most sensitive. Partial volume effects in large arteries and veins lead to overestimation of these values. The effects of reconstruction slice thickness should be taken into account when absolute perfusion values are used for clinical decision making.

Original language	English
Article number	0137766
Number of pages	14
Journal	PLoS ONE [E]
Volume	10
Issue number	9
DOIs	https://doi.org/10.1371/journal.pone.0137766
Publication status	Published - 11 Sept 2015

Keywords

ACUTE ISCHEMIC-STROKE
CEREBRAL-BLOOD-FLOW
ACUTE HEMISPHERIC STROKE
COMPUTED-TOMOGRAPHY
INFARCT CORE
THROMBOLYTIC THERAPY
THRESHOLDS VARY
VENOUS OUTPUT
PENUMBRA
VOLUME

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@article{9c4d54abf4bb416f904b179c96729c5d,

title = "Influence of Thin Slice Reconstruction on CT Brain Perfusion Analysis",

abstract = "ObjectivesAlthough CT scanners generally allow dynamic acquisition of thin slices (1 mm), thick slice (>= 5 mm) reconstruction is commonly used for stroke imaging to reduce data, processing time, and noise level. Thin slice CT perfusion (CTP) reconstruction may suffer less from partial volume effects, and thus yield more accurate quantitative results with increased resolution. Before thin slice protocols are to be introduced clinically, it needs to be ensured that this does not affect overall CTP constancy. We studied the influence of thin slice reconstruction on average perfusion values by comparing it with standard thick slice reconstruction.Materials and MethodsFrom 50 patient studies, absolute and relative hemisphere averaged estimates of cerebral blood volume (CBV), cerebral blood flow (CBF), mean transit time (MTT), and permeability-surface area product (PS) were analyzed using 0.8, 2.4, 4.8, and 9.6 mm slice reconstructions. Specifically, the influence of Gaussian and bilateral filtering, the arterial input function (AIF), and motion correction on the perfusion values was investigated.ResultsBilateral filtering gave noise levels comparable to isotropic Gaussian filtering, with less partial volume effects. Absolute CBF, CBV and PS were 22%, 14% and 46% lower with 0.8 mm than with 4.8 mm slices. If the AIF and motion correction were based on thin slices prior to reconstruction of thicker slices, these differences reduced to 3%, 4% and 3%. The effect of slice thickness on relative values was very small.ConclusionsThis study shows that thin slice reconstruction for CTP with unaltered acquisition protocol gives relative perfusion values without clinically relevant bias. It does however affect absolute perfusion values, of which CBF and CBV are most sensitive. Partial volume effects in large arteries and veins lead to overestimation of these values. The effects of reconstruction slice thickness should be taken into account when absolute perfusion values are used for clinical decision making.",

keywords = "ACUTE ISCHEMIC-STROKE, CEREBRAL-BLOOD-FLOW, ACUTE HEMISPHERIC STROKE, COMPUTED-TOMOGRAPHY, INFARCT CORE, THROMBOLYTIC THERAPY, THRESHOLDS VARY, VENOUS OUTPUT, PENUMBRA, VOLUME",

author = "Edwin Bennink and Jaap Oosterbroek and Horsch, {Alexander D.} and Dankbaar, {Jan Willem} and BK Velthuis and Viergever, {Max A.} and {de Jong}, {Hugo W. A. M.}",

year = "2015",

month = sep,

day = "11",

doi = "10.1371/journal.pone.0137766",

language = "English",

volume = "10",

journal = "PLoS ONE [E]",

issn = "1932-6203",

publisher = "Public Library of Science",

number = "9",

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TY - JOUR

T1 - Influence of Thin Slice Reconstruction on CT Brain Perfusion Analysis

AU - Bennink, Edwin

AU - Oosterbroek, Jaap

AU - Horsch, Alexander D.

AU - Dankbaar, Jan Willem

AU - Velthuis, BK

AU - Viergever, Max A.

AU - de Jong, Hugo W. A. M.

PY - 2015/9/11

Y1 - 2015/9/11

N2 - ObjectivesAlthough CT scanners generally allow dynamic acquisition of thin slices (1 mm), thick slice (>= 5 mm) reconstruction is commonly used for stroke imaging to reduce data, processing time, and noise level. Thin slice CT perfusion (CTP) reconstruction may suffer less from partial volume effects, and thus yield more accurate quantitative results with increased resolution. Before thin slice protocols are to be introduced clinically, it needs to be ensured that this does not affect overall CTP constancy. We studied the influence of thin slice reconstruction on average perfusion values by comparing it with standard thick slice reconstruction.Materials and MethodsFrom 50 patient studies, absolute and relative hemisphere averaged estimates of cerebral blood volume (CBV), cerebral blood flow (CBF), mean transit time (MTT), and permeability-surface area product (PS) were analyzed using 0.8, 2.4, 4.8, and 9.6 mm slice reconstructions. Specifically, the influence of Gaussian and bilateral filtering, the arterial input function (AIF), and motion correction on the perfusion values was investigated.ResultsBilateral filtering gave noise levels comparable to isotropic Gaussian filtering, with less partial volume effects. Absolute CBF, CBV and PS were 22%, 14% and 46% lower with 0.8 mm than with 4.8 mm slices. If the AIF and motion correction were based on thin slices prior to reconstruction of thicker slices, these differences reduced to 3%, 4% and 3%. The effect of slice thickness on relative values was very small.ConclusionsThis study shows that thin slice reconstruction for CTP with unaltered acquisition protocol gives relative perfusion values without clinically relevant bias. It does however affect absolute perfusion values, of which CBF and CBV are most sensitive. Partial volume effects in large arteries and veins lead to overestimation of these values. The effects of reconstruction slice thickness should be taken into account when absolute perfusion values are used for clinical decision making.

AB - ObjectivesAlthough CT scanners generally allow dynamic acquisition of thin slices (1 mm), thick slice (>= 5 mm) reconstruction is commonly used for stroke imaging to reduce data, processing time, and noise level. Thin slice CT perfusion (CTP) reconstruction may suffer less from partial volume effects, and thus yield more accurate quantitative results with increased resolution. Before thin slice protocols are to be introduced clinically, it needs to be ensured that this does not affect overall CTP constancy. We studied the influence of thin slice reconstruction on average perfusion values by comparing it with standard thick slice reconstruction.Materials and MethodsFrom 50 patient studies, absolute and relative hemisphere averaged estimates of cerebral blood volume (CBV), cerebral blood flow (CBF), mean transit time (MTT), and permeability-surface area product (PS) were analyzed using 0.8, 2.4, 4.8, and 9.6 mm slice reconstructions. Specifically, the influence of Gaussian and bilateral filtering, the arterial input function (AIF), and motion correction on the perfusion values was investigated.ResultsBilateral filtering gave noise levels comparable to isotropic Gaussian filtering, with less partial volume effects. Absolute CBF, CBV and PS were 22%, 14% and 46% lower with 0.8 mm than with 4.8 mm slices. If the AIF and motion correction were based on thin slices prior to reconstruction of thicker slices, these differences reduced to 3%, 4% and 3%. The effect of slice thickness on relative values was very small.ConclusionsThis study shows that thin slice reconstruction for CTP with unaltered acquisition protocol gives relative perfusion values without clinically relevant bias. It does however affect absolute perfusion values, of which CBF and CBV are most sensitive. Partial volume effects in large arteries and veins lead to overestimation of these values. The effects of reconstruction slice thickness should be taken into account when absolute perfusion values are used for clinical decision making.

KW - ACUTE ISCHEMIC-STROKE

KW - CEREBRAL-BLOOD-FLOW

KW - ACUTE HEMISPHERIC STROKE

KW - COMPUTED-TOMOGRAPHY

KW - INFARCT CORE

KW - THROMBOLYTIC THERAPY

KW - THRESHOLDS VARY

KW - VENOUS OUTPUT

KW - PENUMBRA

KW - VOLUME

U2 - 10.1371/journal.pone.0137766

DO - 10.1371/journal.pone.0137766

M3 - Article

C2 - 26361391

SN - 1932-6203

VL - 10

JO - PLoS ONE [E]

JF - PLoS ONE [E]

IS - 9

M1 - 0137766

ER -

Influence of Thin Slice Reconstruction on CT Brain Perfusion Analysis

Abstract

Keywords

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