Breaking of B-N bonds for both argon and nitrogen bombardment and formation of nitrogen vacancies, V(N), has been identified from the B K-edge of both h-BN and c-BN, followed by the formation of molecular nitrogen, N(2), at interstitial positions. The presence of N(2) produces an additional peak in photoemission spectra around N 1s core level and a sharp resonance in the low-resolution NEXAFS spectra around N K-edge, showing the characteristic vibrational fine structure in high-resolution measurements. In addition, several new peaks within the energy gap of BN, identified by this website NEXAFS around B and N K-edges, have been assigned to boron or nitrogen interstitials,
in good agreement with theoretical predictions. Ion bombardment destroys the cubic phase of c-BN and produces a phase similar to a damaged hexagonal phase. (C) 2009 American Institute of Physics. [doi:10.1063/1.3253576]“
“Many synthetic scaffolds have been used as vascular substitutes for clinical use. However, many of these scaffolds may not show suitable properties when they are exposed to physiologic vascular environments,
and they may fail eventually because of some unexpected conditions. Electrospinning technology offers the potential for controlling the composition, structure, and mechanical properties of scaffolds. In this study, a tubular scaffold (inner diameter = 4.5 mm) composed SNS-032 of a polylactide (PLA) fiber outside layer and a silk fibroin (SF)-gelatin fiber inner layer (PLA/SF-gelatin) was fabricated by electrospinning.
The morphological, biomechanical, and biological properties of the composite scaffold were examined. The PLA/SF-gelatin composite tubular scaffold possessed a porous Structure; the porosity of the scaffold reached 82 +/- 2%, The composite scaffold achieved the appropriate breaking strength (1.28 +/- 0.21 MPa) and adequate pliability (elasticity LIP to 41.11 +/- 2.17% strain) and possessed a fine suture retention strength (1.07 +/- 0.07 N). The burst pressure of the composite scaffold was 111.4 +/- 2.6 kPa, which was much higher than the native vessels. A mitochondrial metabolic assay and scanning electron microscopy observations indicated that both 3T3 mouse fibroblasts and Selleck BI 2536 human umbilical vein endothelial cells grew and proliferated well on the composite scaffold in vitro after they Were Cultured for some days. The PLA/SF-gelatin composite tubular scaffolds presented appropriate characteristics to be considered as candidate scaffolds for blood vessel tissue engineering. (C) 2009 Wiley Periodicals, Inc. J Appl Polym Sci 113: 2675-2682, 2009″
“Extramedullary acute megakaryoblastic leukemia (AMKL) is a rare neoplasm with a varied clinical presentation. AMKL with initial mastoid presentation has never been reported.