\n\nNo statistical significance could be detected between the CT and the GT-HCP method (p = 0.853). Eleven patients
had very good results (a parts per thousand currency sign5A degrees), three had good results (6-10A degrees) and one had poor results (> 10A degrees). The mean difference between see more CT and GT-HCP method was 3.7 +/- A 3.3A degrees, which is acceptable. The radiation dose needed for the method was not large (0.2 +/- A 0.1 min), and could be lowered with the gaining experience of the examiners. Similarly, the overall time needed (12.1 +/- A 4.9 min) for the GT-HCP method could be reduced with the experience of the team.\n\nOur study showed that the GT-HCP method is a precise and not particularly time consuming method for controlling anteversion during closed femoral nailing. Further clinical trials including a larger number of patients are required to establish this method in clinical practice.”
“Quaternary carbon stereocenters are found in a broad range of organic compounds, including important bioactive natural products and medicinal agents. Given their ubiquity and the
significant synthetic challenges they present, quaternary carbon stereocenters have long attracted great interest from synthetic organic chemists. Numerous efforts Sotrastaurin have been devoted to their construction, leading to a spectrum of strategies for creating stereogenic quaternary carbon centers. In this context, the semipinacol rearrangement has proven successful. In this extension of the BMS 345541 pinacol rearrangement, the 1,2-carbon-to-carbon migration in a 1, 2-diol has been expanded to include leaving groups other than the hydroxyl group.\n\nOver the past decade, our laboratory has explored the semipinacol rearrangement
strategy for the stereoselective construction of quaternary carbon stereocenters. We have investigated various substrates, including 2,3-epoxy alcohols (also termed a-hydroxy epoxides), 2,3-aziridino alcohols, and allylic alcohols. Several promoters that effect the semipinacol rearrangement have been identified, including Lewis acids based on Al, Sm, B, Zn, and Ti for the rearrangement of a-hydroxy epoxides and 2,3-aziridino alcohols; cationic halogen species for the rearrangement of allylic alcohols; and cinchona alkaloids and chiral phosphoric acid for the asymmetric semipinacol rearrangement.