We prospectively evaluated intraoperative hemodynamics of 103 whole and partial LT. Liver graft hemodynamics were measured using the ultrasound transit time method to obtain portal (PVF) and arterial (HAF) hepatic flow. Measurements were recorded on the native liver, the portocaval shunt, following selleck kinase inhibitor reperfusion and after biliary anastomosis. After LT HAF and PVF do not immediately return to normal values. Increased PVF was observed after graft implantation. Living donor LT showed the highest compliance to
portal hyperperfusion. The amount of liver perfusion seemed to be related to the quality of the graft. A positive correlation for HAF, PVF and total hepatic blood flow with cardiac output was found (p = 0.001). Portal hypertension, macrosteatosis > 30%, warm ischemia time and cardiac output, independently influence the hepatic flows. These results highlight the role of systemic hemodynamic management in LT to optimize hepatic perfusion, particularly in LDLT and split LT, where the highest flows were registered.”
“The present article describes the magnetic anisotropy and magnetization reversal of (Ga,Mn) As dot-arrays with 1 mu m and 200 nm in diameter
fabricated by electron-beam lithography Prexasertib order and Ar ion etching. The magnetization reversal mode is due to the magnetization rotation in the dot-arrays fabricated in the present study; they probably have a single-domain structure. The microfabrication of the (Ga,Mn) As dot-arrays modifies magnetic anisotropy through the relaxation of
strain in the dots as previously reported; the 200-nm-dot-array exhibits magnetically isotropic features. The cubic anisotropy constant of the 200-nm-dot-array is estimated to be reduced by approximately a tenth of that of the (Ga,Mn) As epitaxial film by the calculation from the measured M-H loops based on a phenomenological model related to magnetic energy. (C) 2011 American Institute of Physics. [doi:10.1063/1.3561763]“
“We prepared biocomposite gel dispersions involving sodium alginate (Na-Alg) and calcium bentonite (Ca-B) with various Luminespib solid concentrations and characterized their rheological, electrokinetic, and morphological properties. The flow properties, such as the apparent and plastic viscosities, shear stress, and yield value point, changed with increasing clay dosage. The viscosities of the homogeneous dispersions were represented by the Herschel-Bulkley model. The zeta-potential results were examined in the light of different characterization methods (X-ray diffraction, Fourier transform infrared spectroscopy, and atomic force microscopy) to understand the interactions between the Na and Ca ions of the alginate biopolymer and bentonite clay. A plausible structural model for the alginate-bentonite composite gel, known as the egg-box model, is proposed.