The first part of this GNS-1480 review will be devoted to describe the basic aspects of multicolour FC, the different strategies used for cell detection, and the cellular target sites and fluorescent probes which are currently used in cell assays. Next, a deep revision concerning the most recent FC applications related to cell analysis and quantification
(especially both bacteria and yeast) in food, drink and pharmaceutical industries and in natural environment and water systems is presented. This review seeks to highlight the advantages of this technique in microbial fermentations monitoring and control, as well as in the development of more accurate kinetic models directed to bioprocesses optimization. Finally, click here an overview of some commercial FC devices is presented along with a discussion of the progress and advantages of the method for bioprocesses on-line monitoring. (C) 2009 Elsevier B.V. All rights reserved.”
“Meticulous preparation of the allograft on the back bench is one of the cornerstones of technically successful whole-organ pancreas transplantation. With evolving surgical approaches for organ retrieval and implantation, it has become routine to
procure the pancreas in conjunction with other abdominal organs without sacrificing vasculature or graft quality and without compromising excellent Nepicastat concentration outcomes. This review article summarizes the major steps required for proper back table preparation of the pancreas allograft with suggestions and tips whenever alternative approaches are presented.”
“Shock wave propagation in a multiphase suspension is studied experimentally. Particle suspensions are used as a means of obtaining a system
in which there is limited initial interparticle contacts with a large degree of parametric variability. Suspensions were created in ethylene glycol at several volume fractions (41%, 48%, and 54%) of silicon carbide particles. Plate impact experiments are conducted to obtain the shock Hugoniots of the various suspensions at particle velocities in the range of 200-900 m/s. Transitions are shown to exist in the Us-up Hugoniots of the suspensions. In situ longitudinal and lateral stress measurements are made in the 48% suspension at two different impact velocities demonstrating a deviatoric stress component to the stress state in the suspension. The results are discussed in terms of the development of extensive interparticle contacts in a mechanism analogous to classical shear thickening in dense suspensions. (C) 2010 American Institute of Physics. [doi:10.1063/1.3504858]“
“Adsorption on solid surface is of fundamental importance in the research and development of chromatographic science and technology.