Spinal cord injuries (SCI) affect between 2.5 and 4 million patients worldwide (40 000 in France). Handicaps induced by SCI range from minimal sensory motor deficits to complete tetraplegia. Currently, there is no curative treatment on any symptoms associated with SCI. A scar, called glial and composed mainly of astrocytes and microglia, appears at the the injury site and inhibits axonal regeneration. This mechanism is poorly understood. Better monitoring of animal models of SCI in particular through the development of bioimaging translational tools are therefore mandatory. Our main objectives are to pursue and extend a multimodal imaging approach combining multiphoton spectroscopy (MPM), Atomic Force Microscopy (AFM) and Broadband coherent anti-Stokes Raman Spectroscopy (BCARS), a novel technique [1] based on Raman spectroscopy with faster image acquisitions [2], to better understand mechanisms that underlie the glial scar formation and the subsequent absence of spontaneous axonal regeneration following SCI, as well as to evaluate outcomes of therapeutic strategies that favor axonal regeneration in mice and non-human primates. MPM, conceived to specifically reveal non centro-symmetric structures with second harmonic generation (SHG) [3], provided a first evidence of the presence of collagen fibers as a biomarker of the injury site. AFM showed significant differences in Young Modulus between healthy and injured areas. These results must be supplemented with a deeper collagen characterization and axons imaging using MPM, as well as a treatment monitoring by co-localizing drugs within healthy/diseased tissues using BCARS [4]. [1]. C. H. Camp Jr, Y. J. Lee, J. M. Heddleston, C. M. Hartshorn, A. R. Hight Walker, J. N. Rich, J. D. Lathia, M. T. Cicerone, Nat. Photonics 2014, 8, 627. [2]. C. M. Hartshorn, Y. J. Lee, C. H. Camp Jr, Z. Liu, J. M. Heddleston, N. Canfield, T. A. Rhodes, A. R. Hight Walker, P. J. Marsac, M. T. Cicerone, Anal. Chem. 2013, 85, 8102 [3]. L. Mostaço-Guidolin, N.L. Rosin, T.L. Hackett, Int. J. Mol. 2017, 18(8), 1772. [4]. C. Zhang, D. Zhang, J.-X. Cheng, Annu. Rev. Biomed. Eng. 2015, 17, 415. [4]. C. Zhang, D. Zhang, J.-X. Cheng, Annu. Rev. Biomed. Eng. 2015, 17, 415.