Glutamine Metabolism and Metabolic Profiling Using 7 T CRT-FID MRSI in Focal Epilepsy

Stefanie Chambers; Philipp Lazen; Matej Hotka; Haniye Shayeste; Matthias Tomschik; Jonathan Wais; Vitalij Zeiser; Lukas Hingerl; Bernhard Strasser; Lukas Haider; Tatjana Traub-Weidinger; Christoph Baumgartner; Johannes Koren; Florian Mayer; Martha Feucht; Christian Dorfer; Ekaterina Pataraia; Wolfgang Bogner; Siegfried Trattnig; Gregor Kasprian; Karl Rössler; Gilbert Hangel

doi:10.1111/ene.70343

Glutamine Metabolism and Metabolic Profiling Using 7 T CRT-FID MRSI in Focal Epilepsy

Stefanie Chambers, Philipp Lazen, Matej Hotka, Haniye Shayeste, Matthias Tomschik, Jonathan Wais, Vitalij Zeiser, Lukas Hingerl, Bernhard Strasser, Lukas Haider, Tatjana Traub-Weidinger, Christoph Baumgartner, Johannes Koren, Florian Mayer, Martha Feucht, Christian Dorfer, Ekaterina Pataraia, Wolfgang Bogner, Siegfried Trattnig, Gregor KasprianKarl Rössler, Gilbert Hangel

Department of Physiology

Research output: Journal article (peer-reviewed) › Journal article

Abstract

BACKGROUND: Approximately one-third of people with epilepsy (PWE) remain drug-resistant. In these cases, surgical resection of the epileptogenic zone may significantly reduce or eliminate seizures. Surgery necessitates precise delineation of the epileptogenic zone (EZ) which proves especially challenging in the 20% of PWE that remain MRI-negative. The purpose of this study was to analyze the feasibility and robustness of ultra-high-field MRSI in identifying and characterizing pathologies in focal epilepsy. In addition, the relationship of glutamate and glutamine was evaluated in the EZ.

METHODS: Fifty-six people with focal epilepsy were prospectively measured using 7 T concentric ring trajectory direct acquisition of free-induction-decay MRSI, which generated whole-brain metabolic maps with an isotropic resolution of 3.4mm3. After exclusion criteria were applied, we assessed metabolite ratios in 15 lesional and 14 MRI-negative PWE.

RESULTS: In the lesional group, metabolic alterations in the suspected EZ were present in 86.7% of maps normalized to N-acetyl-aspartate, whereas this was reduced to 80% in creatine ratios. Metabolites with the highest consistency in the lesional group included myo-inositol and choline, showing increases in 92.3% of PWE. In MRI-negative patients, changes were heterogeneous, with a detection rate of 57.1%. We also observed a tendency toward an inverse relationship of glutamate to glutamine in the EZ, with increases of glutamine in PWE with lower seizure frequencies, contrasting glutamate increases in higher seizure frequencies.

CONCLUSION: Our preliminary analysis suggests that 7 T CRT-FID MRSI shows promise not only in identifying metabolic alterations in focal epilepsy but may also provide insights into disease pathomechanisms.

Original language	English
Article number	e70343
Pages (from-to)	e70343
Journal	European Journal of Neurology
Volume	32
Issue number	9
DOIs	https://doi.org/10.1111/ene.70343
Publication status	Published - Sept 2025

Keywords

Humans
Glutamine/metabolism
Male
Female
Epilepsies, Partial/metabolism
Adult
Middle Aged
Young Adult
Magnetic Resonance Spectroscopy/methods
Glutamic Acid/metabolism
Magnetic Resonance Imaging
Brain/metabolism
Prospective Studies
Adolescent

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10.1111/ene.70343

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Chambers, S., Lazen, P., Hotka, M., Shayeste, H., Tomschik, M., Wais, J., Zeiser, V., Hingerl, L., Strasser, B., Haider, L., Traub-Weidinger, T., Baumgartner, C., Koren, J., Mayer, F., Feucht, M., Dorfer, C., Pataraia, E., Bogner, W., Trattnig, S., ... Hangel, G. (2025). Glutamine Metabolism and Metabolic Profiling Using 7 T CRT-FID MRSI in Focal Epilepsy. European Journal of Neurology, 32(9), e70343. Article e70343. https://doi.org/10.1111/ene.70343

@article{4439c931fb1f4bd3ad24bbc9f4bfe633,

title = "Glutamine Metabolism and Metabolic Profiling Using 7 T CRT-FID MRSI in Focal Epilepsy",

abstract = "BACKGROUND: Approximately one-third of people with epilepsy (PWE) remain drug-resistant. In these cases, surgical resection of the epileptogenic zone may significantly reduce or eliminate seizures. Surgery necessitates precise delineation of the epileptogenic zone (EZ) which proves especially challenging in the 20\% of PWE that remain MRI-negative. The purpose of this study was to analyze the feasibility and robustness of ultra-high-field MRSI in identifying and characterizing pathologies in focal epilepsy. In addition, the relationship of glutamate and glutamine was evaluated in the EZ.METHODS: Fifty-six people with focal epilepsy were prospectively measured using 7 T concentric ring trajectory direct acquisition of free-induction-decay MRSI, which generated whole-brain metabolic maps with an isotropic resolution of 3.4mm3. After exclusion criteria were applied, we assessed metabolite ratios in 15 lesional and 14 MRI-negative PWE.RESULTS: In the lesional group, metabolic alterations in the suspected EZ were present in 86.7\% of maps normalized to N-acetyl-aspartate, whereas this was reduced to 80\% in creatine ratios. Metabolites with the highest consistency in the lesional group included myo-inositol and choline, showing increases in 92.3\% of PWE. In MRI-negative patients, changes were heterogeneous, with a detection rate of 57.1\%. We also observed a tendency toward an inverse relationship of glutamate to glutamine in the EZ, with increases of glutamine in PWE with lower seizure frequencies, contrasting glutamate increases in higher seizure frequencies.CONCLUSION: Our preliminary analysis suggests that 7 T CRT-FID MRSI shows promise not only in identifying metabolic alterations in focal epilepsy but may also provide insights into disease pathomechanisms.",

keywords = "Humans, Glutamine/metabolism, Male, Female, Epilepsies, Partial/metabolism, Adult, Middle Aged, Young Adult, Magnetic Resonance Spectroscopy/methods, Glutamic Acid/metabolism, Magnetic Resonance Imaging, Brain/metabolism, Prospective Studies, Adolescent",

author = "Stefanie Chambers and Philipp Lazen and Matej Hotka and Haniye Shayeste and Matthias Tomschik and Jonathan Wais and Vitalij Zeiser and Lukas Hingerl and Bernhard Strasser and Lukas Haider and Tatjana Traub-Weidinger and Christoph Baumgartner and Johannes Koren and Florian Mayer and Martha Feucht and Christian Dorfer and Ekaterina Pataraia and Wolfgang Bogner and Siegfried Trattnig and Gregor Kasprian and Karl R{\"o}ssler and Gilbert Hangel",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s). European Journal of Neurology published by John Wiley \& Sons Ltd on behalf of European Academy of Neurology.",

year = "2025",

month = sep,

doi = "10.1111/ene.70343",

language = "English",

volume = "32",

pages = "e70343",

journal = "European Journal of Neurology",

issn = "1351-5101",

publisher = "Wiley-Blackwell Publishing Ltd",

number = "9",

}

Chambers, S, Lazen, P, Hotka, M, Shayeste, H, Tomschik, M, Wais, J, Zeiser, V, Hingerl, L, Strasser, B, Haider, L, Traub-Weidinger, T, Baumgartner, C, Koren, J, Mayer, F, Feucht, M, Dorfer, C, Pataraia, E, Bogner, W, Trattnig, S, Kasprian, G, Rössler, K & Hangel, G 2025, 'Glutamine Metabolism and Metabolic Profiling Using 7 T CRT-FID MRSI in Focal Epilepsy', European Journal of Neurology, vol. 32, no. 9, e70343, pp. e70343. https://doi.org/10.1111/ene.70343

TY - JOUR

T1 - Glutamine Metabolism and Metabolic Profiling Using 7 T CRT-FID MRSI in Focal Epilepsy

AU - Chambers, Stefanie

AU - Lazen, Philipp

AU - Hotka, Matej

AU - Shayeste, Haniye

AU - Tomschik, Matthias

AU - Wais, Jonathan

AU - Zeiser, Vitalij

AU - Hingerl, Lukas

AU - Strasser, Bernhard

AU - Haider, Lukas

AU - Traub-Weidinger, Tatjana

AU - Baumgartner, Christoph

AU - Koren, Johannes

AU - Mayer, Florian

AU - Feucht, Martha

AU - Dorfer, Christian

AU - Pataraia, Ekaterina

AU - Bogner, Wolfgang

AU - Trattnig, Siegfried

AU - Kasprian, Gregor

AU - Rössler, Karl

AU - Hangel, Gilbert

PY - 2025/9

Y1 - 2025/9

N2 - BACKGROUND: Approximately one-third of people with epilepsy (PWE) remain drug-resistant. In these cases, surgical resection of the epileptogenic zone may significantly reduce or eliminate seizures. Surgery necessitates precise delineation of the epileptogenic zone (EZ) which proves especially challenging in the 20% of PWE that remain MRI-negative. The purpose of this study was to analyze the feasibility and robustness of ultra-high-field MRSI in identifying and characterizing pathologies in focal epilepsy. In addition, the relationship of glutamate and glutamine was evaluated in the EZ.METHODS: Fifty-six people with focal epilepsy were prospectively measured using 7 T concentric ring trajectory direct acquisition of free-induction-decay MRSI, which generated whole-brain metabolic maps with an isotropic resolution of 3.4mm3. After exclusion criteria were applied, we assessed metabolite ratios in 15 lesional and 14 MRI-negative PWE.RESULTS: In the lesional group, metabolic alterations in the suspected EZ were present in 86.7% of maps normalized to N-acetyl-aspartate, whereas this was reduced to 80% in creatine ratios. Metabolites with the highest consistency in the lesional group included myo-inositol and choline, showing increases in 92.3% of PWE. In MRI-negative patients, changes were heterogeneous, with a detection rate of 57.1%. We also observed a tendency toward an inverse relationship of glutamate to glutamine in the EZ, with increases of glutamine in PWE with lower seizure frequencies, contrasting glutamate increases in higher seizure frequencies.CONCLUSION: Our preliminary analysis suggests that 7 T CRT-FID MRSI shows promise not only in identifying metabolic alterations in focal epilepsy but may also provide insights into disease pathomechanisms.

AB - BACKGROUND: Approximately one-third of people with epilepsy (PWE) remain drug-resistant. In these cases, surgical resection of the epileptogenic zone may significantly reduce or eliminate seizures. Surgery necessitates precise delineation of the epileptogenic zone (EZ) which proves especially challenging in the 20% of PWE that remain MRI-negative. The purpose of this study was to analyze the feasibility and robustness of ultra-high-field MRSI in identifying and characterizing pathologies in focal epilepsy. In addition, the relationship of glutamate and glutamine was evaluated in the EZ.METHODS: Fifty-six people with focal epilepsy were prospectively measured using 7 T concentric ring trajectory direct acquisition of free-induction-decay MRSI, which generated whole-brain metabolic maps with an isotropic resolution of 3.4mm3. After exclusion criteria were applied, we assessed metabolite ratios in 15 lesional and 14 MRI-negative PWE.RESULTS: In the lesional group, metabolic alterations in the suspected EZ were present in 86.7% of maps normalized to N-acetyl-aspartate, whereas this was reduced to 80% in creatine ratios. Metabolites with the highest consistency in the lesional group included myo-inositol and choline, showing increases in 92.3% of PWE. In MRI-negative patients, changes were heterogeneous, with a detection rate of 57.1%. We also observed a tendency toward an inverse relationship of glutamate to glutamine in the EZ, with increases of glutamine in PWE with lower seizure frequencies, contrasting glutamate increases in higher seizure frequencies.CONCLUSION: Our preliminary analysis suggests that 7 T CRT-FID MRSI shows promise not only in identifying metabolic alterations in focal epilepsy but may also provide insights into disease pathomechanisms.

KW - Humans

KW - Glutamine/metabolism

KW - Male

KW - Female

KW - Epilepsies, Partial/metabolism

KW - Adult

KW - Middle Aged

KW - Young Adult

KW - Magnetic Resonance Spectroscopy/methods

KW - Glutamic Acid/metabolism

KW - Magnetic Resonance Imaging

KW - Brain/metabolism

KW - Prospective Studies

KW - Adolescent

UR - https://www.scopus.com/pages/publications/105015778934

U2 - 10.1111/ene.70343

DO - 10.1111/ene.70343

M3 - Journal article

C2 - 40944337

SN - 1351-5101

VL - 32

SP - e70343

JO - European Journal of Neurology

JF - European Journal of Neurology

IS - 9

M1 - e70343

ER -

Glutamine Metabolism and Metabolic Profiling Using 7 T CRT-FID MRSI in Focal Epilepsy

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