Analysis of internal structure changes in black human hair keratin fibers with aging using Raman spectroscopy

Abstract

To investigate the internal structure changes in virgin black human hair keratin fibers due to aging, the structure of cross‐sections at various depths of virgin black human hair (sections of new growth hair: 2 mm from the scalp) from a group of eight Japanese females in their twenties and another group of eight Japanese females in their fifties were analyzed using Raman spectroscopy. For the first time, we have succeeded in recording the Raman spectra of virgin black human hair, which had been impossible due to high melanin granule content. The key points of this method are to cross‐section hair samples to a thickness of 1.50‐μm, to select points at various depths of the cortex with the fewest possible melanin granules, and to optimize laser power, cross slit width as well as total acquisition time. The reproducibility of the Raman bands, namely the α‐helix (α) content, the β‐sheet and/or random coil (β/R) content, the disulfide (SS) content, and random coil content of two adjoining cross‐sections of a single hair keratin fiber was clearly good. The SS content of virgin black human hair from the Japanese females in their fifties for the cortex region decreased compared with that of the Japanese females in their twenties. On the other hand, the β/R and α contents of the cortex region did not change. © 2007 Wiley Periodicals, Inc. Biopolymers 87: 134–140, 2007.

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