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Extraction of artefactual MRS patterns from a large database using non-negative matrix factorization
Authors:Yanisleydis Hernández-Villegas  Sandra Ortega-Martorell  Carles Arús  Alfredo Vellido  Margarida Julià-Sapé
Affiliation:1. Departamento de Bioquímica y Biología Molecular, Universidad Autónoma de Barcelona (UAB), Spain;2. Department of Applied Mathematics, Liverpool John Moores University, United Kingdom;3. SOCO research group at Intelligent Data Science and Artificial Intelligence Research Center (IDEAI-UPC), Universitat Politècnica de Catalunya-BarcelonaTech, Spain;4. Centro de Investigación Biomédica en Red (CIBER), Spain
Abstract:Despite the success of automated pattern recognition methods in problems of human brain tumor diagnostic classification, limited attention has been paid to the issue of automated data quality assessment in the field of MRS for neuro-oncology. Beyond some early attempts to address this issue, the current standard in practice is MRS quality control through human (expert-based) assessment. One aspect of automatic quality control is the problem of detecting artefacts in MRS data. Artefacts, whose variety has already been reviewed in some detail and some of which may even escape human quality control, have a negative influence in pattern recognition methods attempting to assist tumor characterization. The automatic detection of MRS artefacts should be beneficial for radiology as it guarantees more reliable tumor characterizations, as well as the development of more robust pattern recognition-based tumor classifiers and more trustable MRS data processing and analysis pipelines. Feature extraction methods have previously been used to help distinguishing between good and bad quality spectra to apply subsequent supervised pattern recognition techniques. In this study, we apply feature extraction differently and use a variant of a method for blind source separation, namely Convex Non-Negative Matrix Factorization, to unveil MRS signal sources in a completely unsupervised way. We hypothesize that, while most sources will correspond to the different tumor patterns, some of them will reflect signal artefacts. The experimental work reported in this paper, analyzing a combined short and long echo time 1H-MRS database of more than 2000 spectra acquired at 1.5T and corresponding to different tumor types and other anomalous masses, provides a first proof of concept that points to the possible validity of this approach.
Keywords:Acquisition Methods  Artifacts and corrections  Methods and Engineering  MR Spectrosocpy (MRS) and Spectroscopic Imaging (MRSI) Methods  Post-acquisition Processing
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