Quantification of phase separation in high moisture soy protein extrudates by NMR and MRI

Sam A. Kuijpers, Gert Jan Goudappel, Thom Huppertz, John P.M. van Duynhoven*, Camilla Terenzi*

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

Abstract

High-moisture (HM) extrusion is the dominant industrial process to create structured plant-based protein products that can be used for animal-free meat alternatives. Yet, the underlying mechanisms, such as phase separation, that govern structure formation in plant-protein extrudates, are still poorly understood. Current hypotheses require experimental data in order to be verified, but measurement techniques able to quantify phase-separated anisotropic protein extrudates are lacking, or have yet to be validated. In this study, Low-Field Time Domain (LF TD)-NMR and High-Field (HF) MRI techniques have been employed to unravel phase separation in HM extrudates of soy proteins. Results show that swelling with water enhances the 1H NMR/MRI signal-to-noise ratio in the measurements and unveils the presence of lamellar regions, while freeze-thawing enhances phase separation due to freeze concentration. Phase separation could be quantified by the observation of two distinct populations by LF TD-NMR T2 measurements. MRI images of dead-stop ribbon samples from interrupted HM extrusion revealed how the thickness of the aligned lamellar regions increases during passage of the protein melt through the cooling die. We conclude that TD-NMR can quantify phase separation, while spin-echo MRI can spatially resolve the lamellar structure conformation of HM extrudates. Thus, NMR and MRI are powerful techniques for non-invasively characterizing ex situ structure formation during HM extrusion, and for validating hypotheses on shear- and temperature-induced phase separation.

Original languageEnglish
Article number115225
Number of pages10
JournalFood Research International
Volume197
DOIs
Publication statusPublished - Dec 2024

Keywords

  • High moisture extrusion
  • Low field benchtop H NMR
  • Magnetic resonance imaging
  • Phase separation
  • Soy protein extrudate
  • Time domain NMR

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