50 was associated with increased mortality and morbidity in ambul

50 was associated with increased mortality and morbidity in ambulatory patients with chronic HF. (c) 2008 Elsevier Inc. All rights reserved.”
“Bone mineral density and microarchitecture was found to predict 70-95% of bone strength. Microdamage, as factor of bone quality, might help to explain the remaining uncertainties. The goal of this study was to investigate whether microindentation can discriminate between intact and severely damaged human vertebral bone tissue in vitro.

One portion from each human vertebral slice (N = 35) tested in compression in a previous study was embedded, polished and tested in wet conditions by means of microindentation. MLN8237 The indentation moduli and hardness (HV) of trabecular, osteonal and interstitial bone structural units were computed along the cranio-caudal direction. Each indented region was defined as damaged or intact as seen under a light microscope. A total of 1190 indentations were performed. While both hardness and indentation modulus were independent from gender, both mechanical properties were affected by damage and microstructure. The damaged regions showed 50% lower stiffness and hardness compared to undamaged ones. Interstitial bone was stiffer and harder (13.2 +/- 4.4 GPa RepSox purchase and 44.7 +/- 20.3 HV) than osteonal bone (10.9 +/- 3.8 GPa and

37.8 +/- 17.3 HV), which was stiffer and harder than trabecular bone (8.1 +/- 3.0 GPa and 28.8 +/- 11.2 HV) indented in the transverse direction. Moreover, along the axial direction intact trabecular bone (11.4 +/- 4.3 GPa) was 16% less stiff than the intact interstitial bone and as stiff as intact osteonal bone. In conclusion microindentation was found to discriminate between highly damaged and intact tissue in both trabecular and cortical bone tested in vitro. It remains to be investigated whether this technique would be able to detect also the damage, which find more is induced by physiological load in vivo. (C) 2012 Elsevier Inc. All rights reserved.”
“Matrix-type patches containing

Metoprolol tartrate were prepared from two types of Metolose and acrylate polymers. Metolose SM 4000 and Metolose 90SH 100.000SR were applied in different proportions in the patches where the total polymer content was kept constant in each sample. The purpose of the study was to investigate the effect of Metolose structure on the free volume of the patches and the consequent drug release profile. The drug release profiles were characterized by zero-order and first-order models. The results indicate that Metolose, containing hydroxypropyl ether groups and methyl ether groups, enables the formation of H-bonds, thus increasing the free volume holes and the consequent extent and rate of drug release of patches. (C) 2008 Elsevier B.V. All rights reserved.

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