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Brillouin microspectroscopy data of tissue-mimicking gelatin hydrogels.


ABSTRACT: Brillouin spectroscopy, based on the inelastic scattering of light from thermally driven acoustic waves or phonons [1], holds great promise in the field of life sciences as it provides functionally relevant micromechanical information in a contactless all-optical manner [2]. Due to the complexity of biological systems such as cells and tissues, which present spatio-temporal heterogeneities, interpretation of Brillouin spectra can be difficult. The data presented here were collected from gelatin hydrogels, used as tissue-mimicking model systems for Brillouin microspectroscopy measurements conducted using a lab-built Brillouin microscope with a dual-stage VIPA spectrometer. By varying the solute concentration in the range 4-18% (w/w), the macroscopic mechanical properties of the hydrogels can be tuned and the corresponding evolution in the Brillouin-derived longitudinal elastic modulus measured. An increase in Brillouin frequency shift with increasing solute concentration was observed, which was found to correlate with an increase in acoustic wave velocity and longitudinal modulus. The gels used here provide a viable model system for benchmarking and standardisation, and the data will be useful for spectrometer development and validation.

SUBMITTER: Bailey M 

PROVIDER: S-EPMC7033512 | biostudies-literature | 2020 Apr

REPOSITORIES: biostudies-literature

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Brillouin microspectroscopy data of tissue-mimicking gelatin hydrogels.

Bailey Michelle M   Correa Noemi N   Harding Simon S   Stone Nick N   Brasselet Sophie S   Palombo Francesca F  

Data in brief 20200208


Brillouin spectroscopy, based on the inelastic scattering of light from thermally driven acoustic waves or <i>phonons</i> [1], holds great promise in the field of life sciences as it provides functionally relevant micromechanical information in a contactless all-optical manner [2]. Due to the complexity of biological systems such as cells and tissues, which present spatio-temporal heterogeneities, interpretation of Brillouin spectra can be difficult. The data presented here were collected from g  ...[more]

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