Literature databases were searched up to 10/2010. The authors of the original publication were contacted, and the original patient data were requested. A meta-analysis was performed using a random effect meta-analytic method for diagnostic tests. In addition, available data comparing ARFI with FibroScan with the DeLong
test were evaluated. Literature SB273005 datasheet search yielded nine full-paper publications evaluating ARFI while using liver biopsy as reference method. Original patient data were available from eight studies including 518 patients. The mean diagnostic accuracy of ARFI expressed as areas under ROC curves (AUROC) was 0.87 for the diagnosis of significant fibrosis (F = 2), 0.91 for the diagnosis of severe fibrosis (F = 3), and 0.93 for the diagnosis of cirrhosis. ARFI can be performed with good diagnostic accuracy for the noninvasive staging of liver fibrosis.”
“An industrial, ethanol-tolerant strain of Saccharomyces cerevisiae, NRRLY-132, PXD101 was genetically engineered to over-express barley alpha-amylase isozyme 1 such that it was either anchored on the cell surface or secreted into the medium. The recombinant yeast strains were compared for their ability to perform fermentation on soluble starch. Both recombinant yeast strains produced clear halos on starch plates, indicating that they possessed amylolytic
activity. In batch fermentation studies, the recombinant yeast strain that secreted barley alpha-amylase showed starch hydrolysis rates of 0.70 gL(-1) h(-1) this website on 20 g L(-1) starch, which was almost double that of the anchored form. The addition of exogenous glucoamylase
did not enhance starch hydrolysis rates but did increase ethanol yields, presumably by enhancing production of reducing sugars from the oligosaccharides produced by barley alpha-amylase. The ethanol yield of the secreting strain in batch fermentations containing 20 g L(-1) starch was 3.46 g L(-1), which was approximately three times higher than the anchored strain. By optimizing the batch fermentation conditions, ethanol yields were obtained that approached 70% of theoretical maximum. The results indicate that barley alpha-amylase, due to its ability to hydrolyze starch under the low pH conditions that occur during fermentation, should be more closely examined as an amylase source for bioethanol production. Furthermore, our results suggest that yeast strains that secrete alpha-amylase into the medium may be more efficacious relative to cell surface-displayed systems. (C) 2010 Elsevier B.V. All rights reserved.”
“We present a detailed study on the magnetic properties, including anisotropy, reversal fields, and magnetization reversal processes, of well characterized half-metallic epitaxial La0.7Sr0.3MnO3 (LSMO) thin films grown onto SrTiO3 (STO) substrates with three different surface orientations, i.e., (001), (110), and (1 (1) over bar8).