BMC Chemistry (Feb 2021)

Relaxometric learning: a pattern recognition method for T 2 relaxation curves based on machine learning supported by an analytical framework

  • Yasuhiro Date,
  • Feifei Wei,
  • Yuuri Tsuboi,
  • Kengo Ito,
  • Kenji Sakata,
  • Jun Kikuchi

DOI
https://doi.org/10.1186/s13065-020-00731-0
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 8

Abstract

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Abstract Nuclear magnetic resonance (NMR)-based relaxometry is widely used in various fields of research because of its advantages such as simple sample preparation, easy handling, and relatively low cost compared with metabolomics approaches. However, there have been no reports on the application of the T 2 relaxation curves in metabolomics studies involving the evaluation of metabolic mixtures, such as geographical origin determination and feature extraction by pattern recognition and data mining. In this study, we describe a data mining method for relaxometric data (i.e., relaxometric learning). This method is based on a machine learning algorithm supported by the analytical framework optimized for the relaxation curve analyses. In the analytical framework, we incorporated a variable optimization approach and bootstrap resampling-based matrixing to enhance the classification performance and balance the sample size between groups, respectively. The relaxometric learning enabled the extraction of features related to the physical properties of fish muscle and the determination of the geographical origin of the fish by improving the classification performance. Our results suggest that relaxometric learning is a powerful and versatile alternative to conventional metabolomics approaches for evaluating fleshiness of chemical mixtures in food and for other biological and chemical research requiring a nondestructive, cost-effective, and time-saving method.

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