CATIONIC CONDITIONING COMPOUNDS 79 a'$o•o ? •.0 k bseiaeto! •. kV xlO.." :" 'i.•Y.J•.S: .. Figure 13. (a,b) Scale lifting in the cationic-treated cuticula occurs in the intact surface cuticle cell. charges to the anionic sites of keratin. Microfluorometric analysis and SEM observations of scale lifting during extension of hair fibers suggest the possibility of limited diffusion of even the larger polymer molecules into the CMC and the endocuticular domains of at least the outer layer of the cuticula or in some cases into the entire cuticular sheath. Interaction between the polymers and the nonkeratinous domains is expected to occur by coulombic attraction between the charges, and hydrogen and hydrophobic bonding, leading to non-covalent cross-linking. These studies clearly indicate a cationic-induced, improved scale-lifting resistance. This manifests itself in several ways: Cationic-treated hair fibers fail at higher levels of extension than untreated hair. The frequency of scale lifting has decreased, especially the higher (common and extreme) levels of scale lifting. Also, lifting of the intact surface cuticle cells without failure in the endocuticle is observed. These features are indicative of increased cohesion within the surface cuticle cell (specifically of the endocuticular domains), as well as of improved adhesion between cuticle cells. Such reinforcement of the cuticula, especially at the scale edge, is of considerable importance in maintaining a healthy and healthy-looking hair. To demonstrate this reinforcement of the cuticula by alternate techniques, we investi- gated whether cationic treatments would also affect hair fiber creep. Preliminary as well

80 JOURNAL OF COSMETIC SCIENCE , -: o a Fiber identification " :: C) 22 I ..... • .... :'[ 22 •"'1 • • • •beTidenti,•atiø b Figure ]•. (a) C•eep obse•ed in unt•eatcd/unake•ed hai• •be•s as a •unction o• ex•su•e ti•e to constant tension unde• 40 g o• •ei•ht. (b) C•eep obse•ed the •oJy•e•ic PQ-]O as a •unction o• ex•su•e ti•e to constant tension unde• 40 • o• •eight. (c) C•eep obse•cd in unaltered haJ• fibers exposed exposure ti•e to constant tension unde•