7%) and the khat-chewing (100%) groups was highly significant. The mean gingival index and the depth of periodontal pockets of the khat-chewing subjects were significantly reduced at the chewing side compared with the nonchewing side. Increased gingival recession was recorded on the khat-chewing side. Discoloration of the teeth adjacent to the site of chewing was recorded. Oral dryness occurring 30 minutes after initiating the khat-chewing
session was reported by khat users.
Conclusion. Khat chewing may result in YH25448 a number of changes in the oral mucosa and the dentition. The mechanical and chemical irritation may result in the development of mucosal white lesions and dark pigmentation. Khat chewing may reduce aspects related to risk of gingival and periodontal inflammation, but it appears to be associated with attachment
loss at the site of chewing. (Oral Surg Oral Med Oral Pathol Oral Radiol Endod 2010; 109: e60-e66)”
“The propagation characteristics of surface acoustic waves (SAWs) on the Y-cut X-propagating Pb(In1/2Nb1/2)O-3-Pb(Mg1/3Nb2/3)O-3-PbTiO3 FK228 in vivo (PIN-PMN-PT) substrate are theoretically analyzed. The results indicate the existence of a shear horizontal (SH)-type SAW with an ultrahigh electromechanical coupling factor K-2. Different metal layers (Au, Al, and Cu) were examined as the electrode material. With gold, the maximum K-2 for the SH SAW reaches 72.6%, while it is smaller (69.7%) for Al or Cu. There also exists a Rayleigh SAW causing the spurious response. It is shown that the response can be suppressed sufficiently by properly adjusting the thickness of the metal layer. This feature is very attractive for the realization
of ultrawideband SAW filters. Variation of SAW properties with the substrate rotating angle theta was also investigated. The result indicates that h theta = 0 degrees is the best due to the relatively larger K-2 for SH SAW and lower value for Rayleigh spurious response. (C) 2011 American Institute of Physics. [doi:10.1063/1.3549804]“
“In Napabucasin molecular weight this study, the influence of phase separation on impact toughness of isotactic polypropylene (iPP)/poly(ethylene-co-octene) (PEOc) blends was investigated. For the typical toughened polymeric system, three iPP/PEOc compositions (80/20, 70/30, and 60/40) were selected. When the polymeric blends were annealed at 200 degrees C, the coarsening of phase domains was more prominent for the blend containing higher content of PEOc, and the scale of its morphological evolution was increased as well. The impact test showed that the impact strength variation trend as a function of annealing time was closely related to morphological evolution. It was believed that the sharpening of phase boundary and coarsening of phase domains were responsible for the depression of impact toughness, and the probable fracture mode alteration from shear banding to crazing and voiding.