Introduction to the special issue on optics in elastography and cell mechanics

David D. Sampson; Giuliano Scarcelli

doi:10.1142/s1793545817020035

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[5] V. Y. Zaitsev et al., “Practical obstacles and their mitigation strategies in compressional optical coherence elastography of biological tissues,” J. Innov. Opt. Health Sci. 10, 1742006 (2017).

[6] D. P. Jones, W. Hanna, G. M. Cramer, J. P. Celli , “In situ mapping of ECM rheology and microheterogeneity in embedded and overlaid 3D pancreatic tumor stroma co-cultures via passive particle tracking,” J. Innov. Opt. Health Sci. 10, 1742003 (2017).

[7] K. Clayson, E. Pavlatos, Y. Ma, J. Liu , “3D characterization of corneal deformation using ultrasound speckle tracking,” J. Innov. Opt. Health Sci. 10, 1742005 (2017).

[8] F. Zvietcovich, J. P. Rolland, K. J. Parker , “An approach to viscoelastic characterization of dispersive media by inversion of a general wave propagation model,” J. Innov. Opt. Health Sci. 10, 1742008 (2017).

[9] M. A. Reilly, A. Cleaver , “Inverse elastographic method for analyzing the ocular lens compression test,” J. Innov. Opt. Health Sci. 10, 1742009 (2017).