EFFECT OF OXIDATION STRESS ON THE MECHANICAL PROPERTY OF HUMAN HAIR

Yoko Akiyama, Yusuke Doi, Yukako Matsue, Fumihito Mishima, and Shigehiro Nishijima

View Full Paper

References

1. [1] E. Hoting, M. Zimmermann, and S. Hilterhaus-Bong, Photo-chemical alterations on human hair. Part I. Artificial irradia-tion and investigations of hair proteins, Journal of the Societyof Cosmetic Chemists, 46(2), 1995, 85–99.
2. [2] A.C. Santos Nogueira and I. Joekes, Hair color changes andprotein damage caused by ultraviolet radiation, Journal ofPhotochemistry and Photobiology B, 74(2–3), 2004, 109–117.
3. [3] V. Signori and D.M. Lewis, FTIR analysis of cysteic acidand cysteine-S-thiosulphate on untreated and bleached humanhair, Macromolecular Symposia, 119, 1997, 235–240.
4. [4] T. Habe, N. Tanji, S. Inoue, M. Okamoto, S. Tokunaga, andH. Tanamachi, ToF-SIMS characterization of the lipid layer onthe hair surface. I: The damage caused by chemical treatmentsand UV radiation, Surface and Interface Analysis, 43, 2011,410–412.
5. [5] Y. Akiyama, Y. Doi, Y. Matsue, F. Mishima, and S. Nishijima,Effect of Oxidation Stress on the Mechanical Property ofHuman Hair, The Eighth IASTED International Conferenceon Biomedical Engineering, Biomed 2011, 151–155.
6. [6] C.R. Robbins and M.K. Bahl, Analysis of hair by electronspectroscopy for chemical analysis, Journal of the Society ofCosmetic Chemists, 35, 1984, 379–380.
7. [7] C.R. Robbins, Chemical and physical behavior of human hair,4th edition (New York: Springer, 2002).
8. [8] S.P. Timoshenko and D.H. Young, Elements of strength ofmaterials, 5th edition (Tokyo: Maruzen,1968).
9. [9] G. Wei, B. Bhushan, and P.M. Torgerson, Nanomechanicalcharacterization of human hair using nanoindentation andSEM, Ultramicroscopy, 105, 2005, 248–266.
10. [10] A.N. Parbhu, W.G. Bryson, and R. Lal, Disulfide bonds in theouter layer of keratin fibres confer higher mechanical rigidity:Correlative nano-indentation and elasticity measurement withan AFM, Biochemistry, 38, 1999, 11755–11761.
11. [11] T. Matsuzaki, K. Arai, K. Joko, M. Hosokawa, and K. Naka-mura, Modern hair science, (Tokyo, Japan: Fragrance JournalLtd, 2003) (in Japanese).
12. [12] M. Feughelman and A.R. Haly, The mechanical propertiesof wool keratin and its molecular configuration, Kolloid-Zeitschrift, 168, 1960, 107–115.
13. [13] M. Feughelman and P.J. Reis, The longitudinal mechanicalproperties of wool fibres and their relationship to the low sulfurkeratin fraction, Textile Research Journal, 37, 1967, 334–336.
14. [14] F.-J. Wortmann and H. Zahn, The stress/strain curve of α-keratin fibres and the structure of the intermediate filament,Textile Research Journal, 64(12), 1994, 737–743.
15. [15] F.J. Wortmann and N. Kure, Bending relaxation properties ofhuman hair and permanent waving performance, Journal ofthe Society of Cosmetic Chemists, 41(2), 1990, 123–139.
16. [16] M. Fukuda and A. Emoto, Measurement of the heat of moisturesorption for the chemically modified wools, The ResearchBulletin of Hyogo University of Education, 3(10), 1990, 245–262(in Japanese).
17. [17] M. Yasuda, Water: An essential component of hair – Effectsof environmental factor on the nature of water, FragranceJournal, 30(8), 2002, 42–48 (in Japanese).

Important Links:

• Abstract
• DOI: 10.2316/J.2011.210-1031
• From Journal (210) International Journal of Computational Bioscience - 2011

Go Back