In contrast, the 4 neutral Au NPs, which had 20 mol % PMMA in the P(MMA-r-S) block, were localized at the interface between the PS and PMMA[A blocks of the PS-b-PMMA. When these Au NPs were incorporated into PS-b-PMMA thin films, these different locations of Au NPs resulted in a remarkable difference in orientation of the block domains. When the selective Au NPs were added and were located in the PMMA domains, the microdomains were oriented parallel to the substrate. In contrast, when the neutral Au NPs that localize at the block copolymer interfaces were added, they induced a transition in the orientation
of microdomains from parallel to perpendicular to the substrate. The lateral Bcl-2 protein and vertical location of the Au NPs in the film was investigated by top-view and cross-sectional transmission electron microscopy (TEM). Also, we employed self-consistent mean field theory (SCFT) simulations to explain our experimental results.”
“Viscoelastic properties of the myocardium are important for normal cardiac function and may be altered by disease. Thus, quantification of these properties may aid with evaluation of the health of the heart. Lamb wave dispersion ultrasound vibrometry (LDUV) is a shear wave-based method that uses wave velocity dispersion to measure the underlying viscoelastic material properties of soft tissue
with plate-like geometries. We tested this method in eight pigs in an open-chest preparation. A mechanical see more actuator was used to create harmonic, propagating mechanical waves in the myocardial Cilengitide cell line wall. The motion was tracked using a high frame rate acquisition sequence, typically 2500 Hz. The velocities of wave propagation were measured over the 50-400 Hz frequency range in 50 Hz increments. Data were acquired over several cardiac cycles. Dispersion curves were fit with a viscoelastic, anti-symmetric Lamb wave model to obtain estimates of the shear
elasticity, mu(1), and viscosity, mu(2) as defined by the Kelvin-Voigt rheological model. The sensitivity of the Lamb wave model was also studied using simulated data. We demonstrated that wave velocity measurements and Lamb wave theory allow one to estimate the variation of viscoelastic moduli of the myocardial walls in vivo throughout the course of the cardiac cycle.”
“The aim of this study was to validate the FibroScan system compared with liver histology and serum markers for the diagnosis of hepatic fibrosis. We also tried to determine the cut-off levels and assess the feasibility of using FibroScan values to predict the fibrosis stage.\n\nIn 44 patients with HCV infection, liver stiffness was evaluated by FibroScan, serum fibrosis markers and a liver biopsy. Associations between these indices were also analyzed.\n\nFibroScan values showed a good correlation with serum levels of type IV collagen, hyaluronic acid and procollagen-III-peptide, and with the platelet count.