Effect of Tourmaline-Doped on the Far Infrared Emission of Iron Ore Tailings Ceramics.

Iron ore tailings as secondary resources have been of great importance to many countries in the world. Their compositions are similar to that of infrared emission ceramics, but there are few reports about it. In addition, tourmaline has high infrared emission properties due to its unique structure. With the purpose of expanding functional utilization of iron ore tailings, as well as reducing the production cost of far infrared ceramics, a new kind of far infrared emission ceramics was prepared by using iron ore tailings, calcium carbonate, silica, and natural tourmaline. The ceramics powders were characterized by Fourier transform infrared spectroscope, X-ray diffraction and scanning electron microscopy, respectively. The results show that after being sintered at 1065 °C, the percentage of pseudobrookite and lattice strain of samples increased with increasing the elbaite content. Furthermore, the added tourmaline was conducive to the densification sintering of ceramics. The appearance of Li-O vibration at 734.73 cm-1, as well as the strengthened Fe-O vibration at 987.68 cm-1 were attributed to the formation of Li0.375Fe1.23Ti1.4O5 solid solution, which led the average far infrared emissivity of ceramics increase from 0.861 to 0.906 within 8-14 µm.

Simulation of 3D tumor cell growth using nonlinear finite element method.

We propose a novel parallel computing framework for a nonlinear finite element method (FEM)-based cell model and apply it to simulate avascular tumor growth. We derive computation formulas to simplify the simulation and design the basic algorithms. With the increment of the proliferation generations of tumor cells, the FEM elements may become larger and more distorted. Then, we describe a remesh and refinement processing of the distorted or over large finite elements and the parallel implementation based on Message Passing Interface to improve the accuracy and efficiency of the simulation. We demonstrate the feasibility and effectiveness of the FEM model and the parallelization methods in simulations of early tumor growth.

Inhibition of water activated by far infrared functional ceramics on proliferation of hepatoma cells.

Rare earth (RE)/tourmaline composite materials prepared by the precipitation method are added to the ceramic raw materials at a certain percentage and sintered into RE functional ceramics with high far infrared emission features. Then the far infrared functional ceramics are used to interact with water. The influence of the ceramics on the physical parameters of water is investigated, and the effect of the activated water on the growth of Bel-7402 hepatoma cells cultured in vitro is further studied. The results indicate that, compared with the raw water, the water activated by the ceramics can inhibit the proliferation of hepatoma cells, with statistical probability P < 0.01, which means that the effect is significant. It can be explained that the water activated by the ceramics has a higher concentration of H+, which decreases the potential difference across the cell membrane to release the apoptosis inducing factor (AIF). After entering the cells, the activated water stimulates the mitochondria to produce immune substances that lead tumor cells to apoptosis.

Protective effect of a polysaccharide from stem of Codonopsis pilosula against renal ischemia/reperfusion injury in rats.

In this study, we purified a homogeneous polysaccharide (S-CPPA1) with a molecular weight (Mw) of 133.2 kDa from the stem of Codonopsis pilosula for the first time. Gas chromatography (GC) analysis identified that S-CPPA1 contained glucose, galactose, and arabinose with a molar ratio of 10.5:3.4:1.7, along with a trace of mannose. Methylation analysis suggested S-CPPA1 was a branched polysaccharide, with five glucosidic linkage forms, namely (1→4)-linked Glcp (residue A), (1→6)-linked Galp (residue B), (1→2,6)-linked Glcp (residue C), (1→5)-linked Araf (residue D), and non-reducing terminal (1→)-linked Glcp (residue E). The protective effect of S-CPPA1 on kidney ischemia/reperfusion (I/R) injury was also evaluated. Blood urea nitrogen (BUN), creatinine and TNF-α levels, as well as lactate dehydrogenase (LDH) and alanine transaminase (AST) activities were elevated in the I/R group as compared to the sham group. On the other hand, S-CPPA1 treatment reversed all these biochemical indices, as well as histopathological alterations, which were induced by I/R. The findings imply that S-CPPA1 plays a causal role in the protection against I/R-induced renal injury and its renoprotective effect is probably mediated by inhibiting the proinflammatory cytokine TNF-α release.