Calculations have

been also performed for wolframite-type

Calculations have

been also performed for wolframite-type MnWO(4), which is found to have an antiferromagnetic configuration. In addition, our study reveals details of the local-atomic compression in MgWO(4) and ZnWO(4). In particular, below the transition pressure the ZnO(6) and equivalent polyhedra tend to become more regular, whereas, the WO(6) octahedra remain almost unchanged. Fitting the pressure-volume data we obtained the equation of state for the low-pressure phase of MgWO(4) and ZnWO(4). These and previous results on MnWO(4) and CdWO(4) are compared with the calculations. The compressibility of wolframite-type tungstates is also systematically ATM/ATR inhibitor clinical trial discussed. Finally Raman spectroscopy measurements and lattice dynamics calculations are presented for MgWO(4). (C) 2010 American Institute of Physics. [doi: 10.1063/1.3380848]“
“In patients with autoimmune this website disease-associated hemophagocytic syndrome (AAHS), the clinical features may differ from hemophagocytic syndrome (HPS) of other etiologies, and new criteria for AAHS have been proposed. Since bone marrow (BM) circumstances are changed according to aging, here we reviewed retrospectively

our cases with AAHS in elderly patients, including two systemic lupus erythematosus (SLE), three Evans syndrome, one rheumatoid arthritis (RA), one Hashimoto thyroiditis, and one autoimmune pancreatitis. Although only two SLE patients were diagnosed as HPS by the classical criteria, the remaining patients except one RA met the criteria for AAHS. Seven patients except one SLE patient showed good response to therapy and

demonstrated positive autoantibodies Liproxstatin-1 to blood cells, lower serum ferritin levels, and increased erythroblastic islands in the BM. We consider the diagnosis of AAHS should be carefully made when macrophages phagocytosing blood cells are observed in BM smear without hyperferritinemia in elderly patients with autoimmune diseases.”
“In this study we investigated traps in InSb/SiOx/Metal structure. In particular, emphasis was given to various methods of charging and discharging the interfaces and SiOx layers by thermal-bias-stress. It is shown that the widely used capacitance-voltage profiling is insensitive to trap energies. Thus additional, complementary methods, such as thermally stimulated discharge were adopted and used to deepen the understanding. It is proposed that the traps in the passivation layer are charged by dc leakage current, and that the distribution of trap energies is not uniform. Furthermore, we report here methods that were developed to charge and discharge specific trap levels selectively. (C) 2010 American Institute of Physics. [doi: 10.1063/1.3373627]“
“To determine the frequency of non-infectious lupus pericarditis in patients with systemic lupus erythematosus (SLE) seen in the Yaound, Central and General Hospitals.

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