INVESTIGATION OF THE INTERNAL STRUCTURE OF HUMAN HAIR 131 (45) M. Ka d ir, X. Wang, B. Zhu, J. Liu, D. Harland, and C. Popescu, The structure of the “amorphous” matrix of keratins, J. Struct. Biol., 198(2), 116–123 (2017). (4 6) P. Pre m, K. Dube, S. Madison, and J. Bartalone, New insights into the physicochemical effects of ammonia/peroxide bleaching of hair and sepia melanins, J. Cosmet. Sci., 54(4), 395–409 (2003). (47) D. Ha r land, R. Walls, J. Vernon, J. Dyer, J. Woods, and F. Bell, Three-dimensional architecture of macrofi brils in the human scalp hair cortex, J. Struct. Biol., 185(3), 397–404 (2014). (48) M. Fe u ghelman, Morphology and properties of hair, in Hair and Hair Care. Cosmetic Science and Technol- ogy, D. Johnson. Ed. (Marcel Dekker, New York, 1997), Vol. 17, pp. 1–12. (49) J. Swift, The structure and chemistry of human hair, in Practical Modern Hair Science, T. Evans and R. Wickett, Eds. (Allured, Carol Stream, IL, 2012), pp. 1–37. (50) W. Bryson, D. Harland, J. Caldwell, J. Vernon, R. Walls, J. Woods, S. Nagase, T. Itou, and K. Koike, Cortical cell types and intermediate fi lament arrangements correlate with fi ber curvature in Japanese human hair, J. Struct. Biol., 166(1), 46–58 (2009). (51) R. De Cássia Comis Wagner, P. Kunihiko Kiyohara, M. Silveira, and I. Joekes, Electron microscopic observations of human hair medulla, J. Microsc., 226(1), 54–63 (2007). (52) R. McMullen, D. Laura, S. Chen, D. Koelmel, G. Zhang, and T. Gillece, Determination of physico- chemical properties of delipidized hair, J. Cosmet. Sci., 64(5), 355–370 (2013). (53) A. Yamauchi and K. Yamauchi, New aspects of the structure of human scalp hair-II: tubular structure and material fl ow property of the medulla, J. Cosmet. Sci., 69(1), 19–33 (2018). (54) C. Kunchi, K. Venkateshan, N. Reddy, and R. Adusumalli, Correlation between mechanical and ther- mal properties of human hair, Int. J. Trichol., 10(5), 204–210 (2018). (55) A. Vaynberg, M. Stuart, and X. Wu, Differential wetting characterization of hair fi bers, J. Cosmet. Sci., 61(1), 33–41 (2012). (56) K. Suzuta, K. Watanabe, T. Maeda, and L. Ito, Evaluation of cysteic acid in bleached hair using infrared spectroscopy, J. Fiber Sci Technol., 72(1), 1–8 (2016). (57) A. Grosvenor, S. Deb-Choudhury, P. Middlewood, A. Thomas, E. Lee, J. Vernon, J. Woods, C. Taylor, F. Bell, and S. Clerens, The physical and chemical disruption of human hair after bleaching studies by transmission electron microscopy and redox proteomics, Int. J. Cosmet. Sci., 40(6), 536–548 (2018). (58) K. Joo, A. Kim, S. Kim, B. Kim, H. Lee, S. Bae, J. Lee, and K. Lim, Metabolomic analysis of amino acids and lipids in human hair altered by dyeing, perming and bleaching, Exp. Dermatol., 25(9), 729– 731 (2016). (59) T. Imai, The infl uence of hair bleach on the ultrastructure of human hair with special reference to hair damage, Okajimas Folia Anat. Jpn., 88(1), 1–9 (2011). (60) M. Martí, C. Barba, A. Manich, L. Rubio, C. Alonso, and L. Coderch, The infl uence of hair lipids in ethnic hair properties, Int. J. Cosmet. Sci., 38(1), 77–84 ( 2015). ( 61) C. Robbins, The cell membrane complex: three related but different cellular cohesion components of mammalian hair fi bers, J. Cosmet. Sci., 60(4), 437–465 ( 2009). ( 62) T. Takizawa, T. Takizawa, S. Arai, M. Osumi, and T. Saito, Ultrastructure of human scalp hair shafts as revealed by freeze-substitution fi xation, Anat. Rec., 251(3), 406–413 (19 98).
Previous Page Next Page