Despite the very common use of High Field Nuclear Magnetic Resonance (7 – 37 T), Low Field Nuclear Magnetic Resonance (LF-NMR; 0.37 – 2.4 T), typically applied in food science for the characterisation of edible fluids and solids, is much less common. However, the works of Brownstein and Tarr [1], Mitra et al. [2], Chui et al. [3] and Scherer [4] clearly demonstrated that the use of LF-NMR can be profitably extended to the study the microand nano structure of polymeric systems such as gels [5] and scaffolds [6]. In addition, also biological tissues such as bones [7] and sputum of patients affectd by cronic pulmonary diseases such as cystic fibrosis paptients (CF) [8], can be characterized by LF-NMR. Whatever the system considered, the leading principle allowing the LF-NMR characterization relies on the effect of solid surfaces (polymeric chains, bones and so on) on the relaxation process of water hydrogens subjected to a sudden variation of an external magnetic field. The higher the ratio between system solid surface and system volume, the faster the hydrogens relaxation process. Based on this information, it is possible to obtain interesting information on the three-dimensional architecture of gels network (mesh size distribution) and pores size distribution of porous materials. The focus of this presentation will be on the characterization of polymeric gels network, on the determination of scaffold pores size distribution and on the use of LF-NMR to monitor CF patients.

Use of Low field NMR for the characterisation of gels and biological tissues

ABRAMI, MICHELA;CHIARAPPA, GIANLUCA;FARRA, ROSSELLA;GRASSI, GABRIELE;GRASSI, Mario
2017-01-01

Abstract

Despite the very common use of High Field Nuclear Magnetic Resonance (7 – 37 T), Low Field Nuclear Magnetic Resonance (LF-NMR; 0.37 – 2.4 T), typically applied in food science for the characterisation of edible fluids and solids, is much less common. However, the works of Brownstein and Tarr [1], Mitra et al. [2], Chui et al. [3] and Scherer [4] clearly demonstrated that the use of LF-NMR can be profitably extended to the study the microand nano structure of polymeric systems such as gels [5] and scaffolds [6]. In addition, also biological tissues such as bones [7] and sputum of patients affectd by cronic pulmonary diseases such as cystic fibrosis paptients (CF) [8], can be characterized by LF-NMR. Whatever the system considered, the leading principle allowing the LF-NMR characterization relies on the effect of solid surfaces (polymeric chains, bones and so on) on the relaxation process of water hydrogens subjected to a sudden variation of an external magnetic field. The higher the ratio between system solid surface and system volume, the faster the hydrogens relaxation process. Based on this information, it is possible to obtain interesting information on the three-dimensional architecture of gels network (mesh size distribution) and pores size distribution of porous materials. The focus of this presentation will be on the characterization of polymeric gels network, on the determination of scaffold pores size distribution and on the use of LF-NMR to monitor CF patients.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11368/2910490
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