\n\nObjectives The aim of the present study was to evaluate the impact of ISAR and SHERPA scores in the prediction of patient outcome after TAVI.\n\nMethods P005091 datasheet and results A prospective cohort of 30 consecutive octogenarian patients (16 males, 86 +/- 3 y, EuroSCORE 34 +/-
12%) underwent a transfemoral TAVI and a complete geriatric assessment in our institution. Survival at one year was 73%. The ISAR score was similar between both groups (3.1 +/- 1 vs. 3.6 +/- 1; P = 0.10) but the SHERPA score was significantly higher in non-survivors (7.8 +/- 1.6) than among survivors (4.9 +/- 2.4; P = 0.001). With multivariate analysis, SHERPA score and BMI were independent predictors of 1-year mortality. Kaplan-Meier analysis showed that 1-year survival was significantly lower in patients with than in those without a SHERPA score >
7 (40 vs. 89%; P = 0.004).\n\nConclusions The result of this study showed that SHERPA score predicts 1-year survival after transfemoral TAVI and could be considered as a useful frailty score in patient selection.”
“The aim of this study is to review the features, benefits and limitations of the new scientific evaluation products derived from Google Scholar, such as Google Scholar Metrics and Google Scholar Citations, as well as the h-index, which is the standard bibliometric indicator AS1842856 datasheet adopted by these services. The study also outlines the potential of this new database as a source for studies in Biomedicine, and compares the h-index obtained by the most relevant journals and researchers in the field of intensive care medicine, based on data extracted from the Web of Science, Scopus and Google Scholar. Results show that although the average h-index values in Google Scholar
are almost 30% higher than those obtained in Web of Science, see more and about 15% higher than those collected by Scopus, there are no substantial changes in the rankings generated from one data source or the other. Despite some technical problems, it is concluded that Google Scholar is a valid tool for researchers in Health Sciences, both for purposes of information retrieval and for the computation of bibliometric indicators. (C) 2012 Elsevier Espana, S.L. and SEMICYUC. All rights reserved.”
“Cardiovascular biomaterials (CB) dominate the category of biomaterials based on the demand and investments in this field. This review article classifies the CB into three major classes, namely, metals, polymers, and biological materials and collates the information about the CB. Blood compatibility is one of the major criteria which limit the use of biomaterials for cardiovascular application. Several key players are associated with blood compatibility and they are discussed in this paper.