[1] B. Davey, T. Halliday, M. Hirst , Human Biology and Health: An Evolutionary Approach, Open University Publishing, Buckingham, UK (2001).
[2] L. Marshall, J. F. Brandt, L. E. Marston, K. Ruder , “Degeneration and regeneration of axons in the lesioned spinal cord,” Physiol. Rev. 76 (2), 319-370 (1996). ISI,
[3] G. Ju, J. Wang, Y. Wang, X. Zhao , “Spinal cord contusio,” Neural. Regen. Res. 9 (8), 789-794 (2014).
[4] X. Zheng, C. Zong, M. Xu, X. Wang, B. Ren , “Raman imaging from microscopy to nanoscopy, and to macroscopy,” Small 11 (28), 3395-3406 (2015).
[5] K. A. Antonio, Z. D. Schultz , “Advances in biomedical Raman microscopy,” Anal. Chem. 86 (1), 30-46 (2014).
[6] K. Klein, A. M. Gigler, T. Aschenbrenner, R. Monetti, W. Bunk, F. Jamitzky, G. Morfill, R. W. Stark, J. Schlegel , “Label-free live-cell imaging with confocal Raman microscopy,” Biophys. J. 102 (2), 360-368 (2012).
[7] T. Saxena, B. Deng, D. Stelzner, J. Hasenwinkel, J. Chaiken , “Raman spectroscopic investigation of spinal cord injury in a rat model,” J. Biomed. Opt. 16 (2), 027003 (2011).
[8] S. Ruberto, “Raman spectroscopic investigation of chondroitinase ABC treatment after spinal cord injury in an organotypic model,” Syracuse University (2013).
[9] R. Galli, O. Uckermann, M. J. Winterhalder, K. H. Sitoci-Ficici, K. D. Geiger, E. Koch, G. Schackert, A. Zumbusch, G. Steiner, M. Kirsch , “Vibrational spectroscopic imaging and multiphoton microscopy of spinal cord injury,” Anal. Chem. 84 (20), 8707-8714 (2012).
[10] R. Galli, S. Tamosaityte, M. Koch, K. H. Sitoci-Ficici, R. Later, O. Uckermann, R. Beiermeister, M. Gelinsky, G. Schackert, M. Kirsch, E. Koch, G. Steiner , “Raman-based imaging uncovers the effects of alginate hydrogel implants in spinal cord injury,” Proc. of SPIE-OSA, Vol. 9536, 95360Y (2015).
[11] Y. Shi, D. Zhang, T. B. Huff, X. Wang, R. Shi, X. M. Xu, J. X. Cheng , “Longitudinal in vivo coherent anti-Stokes Raman scattering imaging of demyelination and remyelination in injured spinal cord,” J. Biomed. Opt. 16 (10), 106012 (2011).
[12] M. Hedegaard, C. Matthaus, S. Hassing, C. Krafft, M. Diem, J. Popp , “Spectral unmixing and clustering algorithms for assessment of single cells by Raman microscopic imaging,” Theoret. Chem. Acc. 130 (4-6), 1249-1260 (2011).
[13] Y. Mor, A. Lev-Tov , “Analysis of rhythmic patterns produced by spinal neural networks,” J. Neurophysiol. 98 (5), 2807-2817 (2007).
[14] C. Krafft, L. Neudert, T. Simat, R. Salzer , “Near infrared Raman spectra of human brain lipids,” Spectrochim. Acta A Mol. Biomol. Spectrosc. 61 (7), 1529-1535 (2005).
[15] J. Shen, L. Fan, J. Yang, A. G. Shen, J. M. Hu , “A longitudinal Raman microspectroscopic study of osteoporosis induced by spinal cord injury,” Osteoporos Int. 21 (1), 81-87 (2010).
[16] S. Wang, Z. Liang, Y. Gong, Y. Yin, K. Wang, Q. He, Z. Wang, J. Bai , “Confocal raman microspectral imaging of ex vivo human spinal cord tissue,” J. Photochem. Photobiol. B Biol. 163, 177-184 (2016).
[17] K. Kochan, K. M. Marzec, K. Chruszcz-Lipska, A. Jasztal, E. Maslak, H. Musiolik, S. Chlopicki, M. Baranska , “Pathological changes in the biochemical profile of the liver in atherosclerosis and diabetes assessed by Raman spectroscopy,” Analyst 138 (14), 3885-3890 (2013).
[18] L. Vitellaro-Zuccarello, P. Bosisio, S. Mazzetti, C. Monti, S. De Biasi , “Differential expression of several molecules of the extracellular matrix in functionally and developmentally distinct regions of rat spinal cord,” Cell Tissue Res. 327 (3), 433-447 (2007).
[19] A. Rygula, K. Majzner, K. M. Marzec, A. Kaczor, M. Pilarczyk, M. Baranska , “Raman spectroscopy of proteins: A review,” J. Raman Spectrosc. 44 (8), 1061-1076 (2013).
[20] T. Masamichi, E. Yoshiko, A. Misako, S. Mika, Y. Abliz, U. Koichi, U. Tototoshi , “Raman scattering tensors of tyrosine,” Biospectroscopy 4, 61-71 (1998).
[21] A. D. Meade, C. Clarke, F. Draux, G. D. Sockalingum, M. Manfait, F. M. Lyng, H. J. Byrne , “Studies of chemical fixation effects in human cell lines using Raman microspectroscopy,” Anal. Bioanal. Chem. 396 (5), 1781-1791 (2010).
[22] N. L. Martirosyan, J. S. Feuerstein, N. Theodore, D. D. Cacalcanti, R. F. Spetzler, M. C. Preul , “Blood supply and vascular reactivity of the spinal cord under normal and pathological conditions,” J. Neurosurg. Spine 15 (3), 238-251 (2011).
[23] P. Biglioli, M. Roberto, A. Cannata, A. Parolari, A. Fumero, F. Grillo, M. Maggioni, G. Coggi, R. Spirito , “Upper and lower spinal cord blood supply: The continuity of the anterior spinal artery and the relevance of the lumbar arteries,” J. Thorac. Cardiovasc. Surg. 127 (4), 1188-1192 (2004).
[24] K. E. Shafer-Peltier, A. S. Haka, J. T. Motz, M. Fitzmaurice, R. R. Dasari, M. S. Feld , “Model-based biological Raman spectral imaging,” J. Cell Biochem. Suppl. 39, 125-137 (2002).
[25] N. Amharref, A. Beljebbar, S. Dukic, L. Venteo, L. Schneider, M. Pluot, M. Manfait , “Discriminating healthy from tumor and necrosis tissue in rat brain tissue samples by Raman spectral imaging,” Biochim. Biophys. Acta 1768 (10), 2605-2615 (2007).
[26] P. Morell, R. H. Quarles , “Myelin formation, structure and biochemistry,” Chap. 4, G. J. SiegelB. W. AgranoffR. W. Alberset al., Eds., Basic Neurochemistry: Molecular, Cellular and Medical Aspects, 6th edition, Philadelphia (1999).
[27] G. J. Siegel, R. W. Albers, S. T. Brrady, D. L. Price , Basic Neurochemistry: Molecular, Cellular, and Medical Aspects (Elsevier Academic Publishing, America, 2006).
[28] H. Wang, Y. Fu, P. Zickmund, R. Shi, J. X. Cheng , “Coherent anti-stokes Raman scattering imaging of axonal myelin in live spinal tissues,” Biophys. J. 89 (1), 581-591 (2005).
[29] J. W. Chan, D. S. Taylor, T. Zwerdling, S. M. Lane, K. Ihara, T. Huser , “Micro-Raman spectroscopy detects individual neoplastic and normal hematopoietic cells,” Biophys. J. 90 (2), 648-656 (2006).
[30] N. Stone, M. C. Hart Prito, P. Crow, J. Uff, A. W. Ritchie , “The use of Raman spectroscopy to provide an estimation of the gross biochemistry associated with urological pathologies,” Anal. Bioanal. Chem. 387 (5), 1657-1668 (2007).
[31] K. L. Moore , “Protein tyrosine sulfation: A critical posttranslation modification in plants and animals,” Proc. Natl Acad. Sci. USA 106 (35), 14741-14742 (2009).
[32] I. Spitzbarth, P. Bock, V. Haist, V. M. Stein, A. Tipold, K. Wewetzer, W. Baumgartner, A. Beineke , “Prominent microglial activation in the early proinflammatory immune response in naturally occurring canine spinal cord injury,” J. Neuropathol. Exp. Neurol. 70 (8), 703-714 (2011).
[33] S. A. Fox, A. A. Shanblatt, H. Beckman, J. Strasswimmer, A. C. Terentis , “Raman spectroscopy differentiates squamous cell carcinoma (SCC) from normal skin following treatment with a high-powered CO2 laser,” Lasers Surg. Med. 46 (10), 757-772 (2014).