Metabolite Levels in Paediatric Brain Tumours Correlate with Histological Features

Eleni Orphanidou-Vlachou; Sarah E Kohe; Marie-Anne Brundler; Lesley MacPherson; Yu Sun; Nigel Davies; Martin Wilson; Xiaoyan Pan; Theodoros N Arvanitis; Richard G Grundy; Andrew C Peet

doi:10.1159/000458423

Metabolite Levels in Paediatric Brain Tumours Correlate with Histological Features

Eleni Orphanidou-Vlachou, Sarah E Kohe, Marie-Anne Brundler, Lesley MacPherson, Yu Sun, Nigel Davies, Martin Wilson, Xiaoyan Pan, Theodoros N Arvanitis, Richard G Grundy, Andrew C Peet

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Abstract

AIMS: Metabolite levels can be measured non-invasively using in vivo 1H magnetic resonance spectroscopy (MRS). These tumour metabolite profiles are highly characteristic for tumour type in childhood brain tumours; however, the relationship between metabolite values and conventional histopathological characteristics has not yet been fully established. This study systematically tests the relationship between metabolite levels detected by MRS and specific histological features in a range of paediatric brain tumours.

METHODS: Single-voxel MRS was performed routinely in children with brain tumours along with the clinical imaging prior to treatment. Metabolites were quantified using LCModel. Histological features were assessed semi-quantitatively for 27 children on H&E and immunostained slides, blind to the metabolite values. Statistical analysis included 2-tailed independent-samples t tests and 2-tailed Spearman rank correlation tests.

RESULTS: Ki67, cellular atypia, and mitosis correlated positively with choline metabolites, and phosphocholine in particular. Apoptosis and necrosis were both associated with lipid levels, with the relationship dependent on the use of long or short echo time MRS acquisitions. Neuronal components correlated negatively and glial components positively with N-acetyl-aspartate. Glial components correlated positively with myoinositol.

CONCLUSION: Metabolite levels in children's brain tumours measured by MRS are closely associated with key histological features routinely assessed by histopathologists in the diagnostic process. This further elucidates our understanding of this important non-invasive diagnostic tool and strengthens our understanding of the relationship between metabolites and histological features.

Original language	English
Pages (from-to)	157–168
Journal	Pathobiology
Volume	85
Issue number	3
Early online date	10 Feb 2018
DOIs	https://doi.org/10.1159/000458423
Publication status	Published - May 2018

Keywords

Apoptosis
Histology
Ki67
Lipids
Magnetic resonance spectroscopy
Metabolites
Necrosis
Paediatric brain neoplasms

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10.1159/000458423

Orphanidou-Vlachou_et_al_Metabolite_levels_in_paediatric_Pathobiology_2018
Checked for eligibility: 18/04/2018 Copyright: All rights reserved. This is the peer-reviewed but unedited manuscript version of the following article: Orphanidou-Vlachou, Eleni, et al. "Metabolite Levels in Paediatric Brain Tumours Correlate with Histological Features." Pathobiology (2018). The final, published version is available athttps://www.karger.com/Article/Abstract/458423
Accepted author manuscript, 408 KB

Development and Evaluation of MR based Functional Imaging for the Enhanced Management of Childhood Cancer - A Childrens Cancer and Leukaemia Group Initiative
Peet, A. & Arvanitis, T.
Cancer Research UK
1/12/08 → 31/03/15
Project: Research

Cite this

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title = "Metabolite Levels in Paediatric Brain Tumours Correlate with Histological Features",

abstract = "AIMS: Metabolite levels can be measured non-invasively using in vivo 1H magnetic resonance spectroscopy (MRS). These tumour metabolite profiles are highly characteristic for tumour type in childhood brain tumours; however, the relationship between metabolite values and conventional histopathological characteristics has not yet been fully established. This study systematically tests the relationship between metabolite levels detected by MRS and specific histological features in a range of paediatric brain tumours.METHODS: Single-voxel MRS was performed routinely in children with brain tumours along with the clinical imaging prior to treatment. Metabolites were quantified using LCModel. Histological features were assessed semi-quantitatively for 27 children on H&E and immunostained slides, blind to the metabolite values. Statistical analysis included 2-tailed independent-samples t tests and 2-tailed Spearman rank correlation tests.RESULTS: Ki67, cellular atypia, and mitosis correlated positively with choline metabolites, and phosphocholine in particular. Apoptosis and necrosis were both associated with lipid levels, with the relationship dependent on the use of long or short echo time MRS acquisitions. Neuronal components correlated negatively and glial components positively with N-acetyl-aspartate. Glial components correlated positively with myoinositol.CONCLUSION: Metabolite levels in children's brain tumours measured by MRS are closely associated with key histological features routinely assessed by histopathologists in the diagnostic process. This further elucidates our understanding of this important non-invasive diagnostic tool and strengthens our understanding of the relationship between metabolites and histological features.",

keywords = "Apoptosis, Histology, Ki67, Lipids, Magnetic resonance spectroscopy, Metabolites, Necrosis, Paediatric brain neoplasms",

author = "Eleni Orphanidou-Vlachou and Kohe, {Sarah E} and Marie-Anne Brundler and Lesley MacPherson and Yu Sun and Nigel Davies and Martin Wilson and Xiaoyan Pan and Arvanitis, {Theodoros N} and Grundy, {Richard G} and Peet, {Andrew C}",

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year = "2018",

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doi = "10.1159/000458423",

language = "English",

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T1 - Metabolite Levels in Paediatric Brain Tumours Correlate with Histological Features

AU - Orphanidou-Vlachou, Eleni

AU - Kohe, Sarah E

AU - Brundler, Marie-Anne

AU - MacPherson, Lesley

AU - Sun, Yu

AU - Davies, Nigel

AU - Wilson, Martin

AU - Pan, Xiaoyan

AU - Arvanitis, Theodoros N

AU - Grundy, Richard G

AU - Peet, Andrew C

PY - 2018/5

Y1 - 2018/5

N2 - AIMS: Metabolite levels can be measured non-invasively using in vivo 1H magnetic resonance spectroscopy (MRS). These tumour metabolite profiles are highly characteristic for tumour type in childhood brain tumours; however, the relationship between metabolite values and conventional histopathological characteristics has not yet been fully established. This study systematically tests the relationship between metabolite levels detected by MRS and specific histological features in a range of paediatric brain tumours.METHODS: Single-voxel MRS was performed routinely in children with brain tumours along with the clinical imaging prior to treatment. Metabolites were quantified using LCModel. Histological features were assessed semi-quantitatively for 27 children on H&E and immunostained slides, blind to the metabolite values. Statistical analysis included 2-tailed independent-samples t tests and 2-tailed Spearman rank correlation tests.RESULTS: Ki67, cellular atypia, and mitosis correlated positively with choline metabolites, and phosphocholine in particular. Apoptosis and necrosis were both associated with lipid levels, with the relationship dependent on the use of long or short echo time MRS acquisitions. Neuronal components correlated negatively and glial components positively with N-acetyl-aspartate. Glial components correlated positively with myoinositol.CONCLUSION: Metabolite levels in children's brain tumours measured by MRS are closely associated with key histological features routinely assessed by histopathologists in the diagnostic process. This further elucidates our understanding of this important non-invasive diagnostic tool and strengthens our understanding of the relationship between metabolites and histological features.

AB - AIMS: Metabolite levels can be measured non-invasively using in vivo 1H magnetic resonance spectroscopy (MRS). These tumour metabolite profiles are highly characteristic for tumour type in childhood brain tumours; however, the relationship between metabolite values and conventional histopathological characteristics has not yet been fully established. This study systematically tests the relationship between metabolite levels detected by MRS and specific histological features in a range of paediatric brain tumours.METHODS: Single-voxel MRS was performed routinely in children with brain tumours along with the clinical imaging prior to treatment. Metabolites were quantified using LCModel. Histological features were assessed semi-quantitatively for 27 children on H&E and immunostained slides, blind to the metabolite values. Statistical analysis included 2-tailed independent-samples t tests and 2-tailed Spearman rank correlation tests.RESULTS: Ki67, cellular atypia, and mitosis correlated positively with choline metabolites, and phosphocholine in particular. Apoptosis and necrosis were both associated with lipid levels, with the relationship dependent on the use of long or short echo time MRS acquisitions. Neuronal components correlated negatively and glial components positively with N-acetyl-aspartate. Glial components correlated positively with myoinositol.CONCLUSION: Metabolite levels in children's brain tumours measured by MRS are closely associated with key histological features routinely assessed by histopathologists in the diagnostic process. This further elucidates our understanding of this important non-invasive diagnostic tool and strengthens our understanding of the relationship between metabolites and histological features.

KW - Apoptosis

KW - Histology

KW - Ki67

KW - Lipids

KW - Magnetic resonance spectroscopy

KW - Metabolites

KW - Necrosis

KW - Paediatric brain neoplasms

U2 - 10.1159/000458423

DO - 10.1159/000458423

M3 - Article

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SN - 1015-2008

VL - 85

SP - 157

EP - 168

JO - Pathobiology

JF - Pathobiology

IS - 3

ER -

Metabolite Levels in Paediatric Brain Tumours Correlate with Histological Features

Abstract

Keywords

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Development and Evaluation of MR based Functional Imaging for the Enhanced Management of Childhood Cancer - A Childrens Cancer and Leukaemia Group Initiative

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