Correlation of biomechanics and cancer cell phenotype by combined Brillouin and Raman spectroscopy of U87-MG glioblastoma cells

Abstract: The elucidation of biomechanics furthers understanding of brain tumor biology. Brillouin spectroscopy is a new optical method that addresses viscoelastic properties down to subcellular resolution in contact-free manner. Moreover, it can be combined with Raman spectroscopy to obtain co-localized biochemical information. Here, we applied co-registered Brillouin and Raman spectroscopy to U87-MG human glioblastoma cells in vitro. Using 2D and 3D cultures, we related biomechanical properties with local biochemical … Show more

“…Combination of Brillouin spectrometry, in which monochromatic laser light is inelastically scattered from acoustic waves "phonons", combined with confocal microscopy to measure the longitudinal modulus and the live viscoelastic properties [126,127].…”

Balance between the cell viability and death in 3D

“…Combination of Brillouin spectrometry, in which monochromatic laser light is inelastically scattered from acoustic waves "phonons", combined with confocal microscopy to measure the longitudinal modulus and the live viscoelastic properties [126,127].…”

Balance between the cell viability and death in 3D