Computational Assessment of Spectral Heterogeneity within Fresh Glioblastoma Tissue Using Raman Spectroscopy and Machine Learning Algorithms

Karoline Klein; Gilbert Georg Klamminger; Laurent Mombaerts; Finn Jelke; Isabel Fernandes Arroteia; Rédouane Slimani; Giulia Mirizzi; Andreas Husch; Katrin B. M. Frauenknecht; Michel Mittelbronn; Frank Hertel; Felix B. Kleine Borgmann

doi:10.3390/molecules29050979

Molecules (Feb 2024)

Computational Assessment of Spectral Heterogeneity within Fresh Glioblastoma Tissue Using Raman Spectroscopy and Machine Learning Algorithms

Karoline Klein,
Gilbert Georg Klamminger,
Laurent Mombaerts,
Finn Jelke,
Isabel Fernandes Arroteia,
Rédouane Slimani,
Giulia Mirizzi,
Andreas Husch,
Katrin B. M. Frauenknecht,
Michel Mittelbronn,
Frank Hertel,
Felix B. Kleine Borgmann

Affiliations

Karoline Klein: Faculty of Medicine, Saarland University (USAAR), 66424 Homburg, Germany
Gilbert Georg Klamminger: Department of General and Special Pathology, Saarland University (USAAR), 66424 Homburg, Germany
Laurent Mombaerts: Luxembourg Centre for Systems Biomedicine (LCSB), University of Luxembourg (UL), 4362 Esch-sur-Alzette, Luxembourg
Finn Jelke: National Center of Neurosurgery, Centre Hospitalier de Luxembourg (CHL), 1210 Luxembourg, Luxembourg
Isabel Fernandes Arroteia: National Center of Neurosurgery, Centre Hospitalier de Luxembourg (CHL), 1210 Luxembourg, Luxembourg
Rédouane Slimani: Doctoral School in Science and Engineering (DSSE), University of Luxembourg (UL), 4362 Esch-sur-Alzette, Luxembourg
Giulia Mirizzi: Faculty of Medicine, Saarland University (USAAR), 66424 Homburg, Germany
Andreas Husch: National Center of Neurosurgery, Centre Hospitalier de Luxembourg (CHL), 1210 Luxembourg, Luxembourg
Katrin B. M. Frauenknecht: National Center of Pathology (NCP), Laboratoire National de Santé (LNS), 3555 Dudelange, Luxembourg
Michel Mittelbronn: National Center of Pathology (NCP), Laboratoire National de Santé (LNS), 3555 Dudelange, Luxembourg
Frank Hertel: Faculty of Medicine, Saarland University (USAAR), 66424 Homburg, Germany
Felix B. Kleine Borgmann: Faculty of Medicine, Saarland University (USAAR), 66424 Homburg, Germany

DOI: https://doi.org/10.3390/molecules29050979
Journal volume & issue: Vol. 29, no. 5
p. 979

Abstract

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Understanding and classifying inherent tumor heterogeneity is a multimodal approach, which can be undertaken at the genetic, biochemical, or morphological level, among others. Optical spectral methods such as Raman spectroscopy aim at rapid and non-destructive tissue analysis, where each spectrum generated reflects the individual molecular composition of an examined spot within a (heterogenous) tissue sample. Using a combination of supervised and unsupervised machine learning methods as well as a solid database of Raman spectra of native glioblastoma samples, we succeed not only in distinguishing explicit tumor areas—vital tumor tissue and necrotic tumor tissue can correctly be predicted with an accuracy of 76%—but also in determining and classifying different spectral entities within the histomorphologically distinct class of vital tumor tissue. Measurements of non-pathological, autoptic brain tissue hereby serve as a healthy control since their respective spectroscopic properties form an individual and reproducible cluster within the spectral heterogeneity of a vital tumor sample. The demonstrated decipherment of a spectral glioblastoma heterogeneity will be valuable, especially in the field of spectroscopically guided surgery to delineate tumor margins and to assist resection control.

Published in Molecules

ISSN: 1420-3049 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Science: Chemistry: Organic chemistry
Website: http://www.mdpi.com/journal/molecules

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