[1] J. E. Dowling. The Retina: An Approachable Part of the Brain(1987).

[2] N. Cuenca, L. Fernández-Sánchez, L. Campello et al. Cellular responses following retinal injuries and therapeutic approaches for neurodegenerative diseases. Prog. Retin Eye Res., 43, 17(2014).

[3] J. E. Lee, K. J. Liang, R. N. Fariss et al. Ex vivo dynamic imaging of retinal microglia using time-lapse confocal microscopy. Invest. Ophthalmol. Vis. Sci., 49, 4169(2008).

[4] A. S. Bar-Noam, N. Farah, S. Shoham. Correction-free remotely scanned two-photon in vivo mouse retinal imaging. Light Sci. Appl., 5, e16007(2016).

[5] A. Kiepas, E. Voorand, F. Mubaid et al. Optimizing live-cell fluorescence imaging conditions to minimize phototoxicity. J. Cell Sci., 133, jcs242834(2020).

[6] I. Lains, J. C. Wang, Y. Cui et al. Retinal applications of swept source optical coherence tomography (OCT) and optical coherence tomography angiography (OCTA). Prog. Retin. Eye Res., 84, 100951(2021).

[7] J. M. Schmitt, A. R. Knuettel, A. H. Gandjbakhche et al. Optical characterization of dense tissues using low-coherence interferometry. Holography, Interferometry, and Optical Pattern Recognition in Biomedicine III, 197(1993).

[8] A. Dubois, L. Vabre, A.-C. Boccara et al. High-resolution full-field optical coherence tomography with a Linnik microscope. Appl. Opt., 41, 805(2002).

[9] P. Xiao, M. Fink, A. C. Boccara. Full-field spatially incoherent illumination interferometry: a spatial resolution almost insensitive to aberrations. Opt. Lett., 41, 3920(2016).

[10] K. Grieve, M. Paques, A. Dubois et al. Ocular tissue imaging using ultrahigh-resolution, full-field optical coherence tomography. Invest. Ophthalmol. Vis. Sci., 45, 4126(2004).

[11] P. Xiao, V. Mazlin, K. Grieve et al. In vivo high-resolution human retinal imaging with wavefront-correctionless full-field OCT. Optica, 5, 409(2018).

[12] C. Apelian, F. Harms, O. Thouvenin et al. Dynamic full field optical coherence tomography: subcellular metabolic contrast revealed in tissues by interferometric signals temporal analysis. Biomed. Opt. Express, 7, 1511(2016).

[13] S. Park, T. Nguyen, E. Benoit et al. Quantitative evaluation of the dynamic activity of HeLa cells in different viability states using dynamic full-field optical coherence microscopy. Biomed. Opt. Express, 12, 6431(2021).

[14] K. Fei, Z. Luo, Y. Chen et al. Cellular structural and functional imaging of donor and pathological corneas with label-free dual-mode full-field optical coherence tomography. Biomed. Opt. Express, 15, 3869(2024).

[15] O. Thouvenin, C. Boccara, M. Fink et al. Cell motility as contrast agent in retinal explant imaging with full-field optical coherence tomography. Invest. Ophthalmol. Vis. Sci., 58, 4605(2017).

[16] J. Scholler, K. Groux, O. Goureau et al. Dynamic full-field optical coherence tomography: 3D live-imaging of retinal organoids. Light Sci. Appl., 9, 140(2020).

[17] G. Tezel. Multifactorial pathogenic processes of retinal ganglion cell degeneration in glaucoma towards multi-target strategies for broader treatment effects. Cells, 10, 1372(2021).

[18] O. Thouvenin, M. Fink, C. Boccara. Dynamic multimodal full-field optical coherence tomography and fluorescence structured illumination microscopy. J. Biomed. Opt., 22, 026004(2017).

[19] S. Labiau, G. David, S. Gigan et al. Defocus test and defocus correction in full-field optical coherence tomography. Opt. Lett., 34, 1576(2009).

[20] B. Lin, Y. Li, N. Jiang et al. Interleukin-35 suppresses pyroptosis and protects against neuronal death in retinal ischaemia/reperfusion injury. Exp. Eye Res., 220, 109109(2022).

[21] C. A. Curcio, K. A. Allen. Topography of ganglion cells in human retina. J. Comp. Neurol., 300, 5(1990).

[22] C.-J. Jeon, E. Strettoi, R. H. Masland. The major cell populations of the mouse retina. J. Neurosci., 18, 8936(1998).

[23] N. Kamasawa, C. S. Furman, K. G. Davidson et al. Abundance and ultrastructural diversity of neuronal gap junctions in the OFF and ON sublaminae of the inner plexiform layer of rat and mouse retina. Neuroscience, 142, 1093(2006).

[24] P. W. Keeley, S. S. Patel, B. E. Reese. Cell numbers, cell ratios, and developmental plasticity in the rod pathway of the mouse retina. J. Anat., 243, 204(2023).