” Inclusion criteria were randomized design, intention-to-treat a

” Inclusion criteria were randomized design, intention-to-treat analysis, and a minimum of 6-month follow-up. Exclusion criteria were vessels treated other than infrapopliteal arteries; devices used other than DESs, plain balloons, or BMSs;

and duplicated data. The primary endpoint was target lesion revascularization; secondary endpoints were restenosis, amputation, death, and improvement in Rutherford class. Results A total of 611 patients from 5 trials were randomly assigned to DESs (n = 294) versus control therapy (plain balloon angioplasty/BMS implantation, n 307). Overall, the median lesion length was 26.8 mm (interquartile range [IQR]: 18.2 to Nutlin-3 molecular weight 30.0 mm) with a reference vessel diameter of 2.86 mm (IQR: 2.68 to 3.00 mm). At a median follow-up of 12 months (IQR: 12 to 36 months), DESs reduced the risk of target lesion revascularization (odds ratio [OR]: 0.31; 95% confidence interval [CI]: 0.18 to 0.54; p smaller than 0.001), restenosis

(OR: 0.25; 95% CI: 0.15 to 0.43; p smaller than 0.001), and amputation (OR: 0.50; 95% CI: 0.26 to 0.97); p = 0.04) without a significant difference in terms of death (OR: 0.81; 95% CI: 0.45 to 1.49; p = 0.50) and Rutherford class improvement (OR: 1.36; 95% CI: 0.91 to 2.04; p = 0.13) versus control therapy. Conclusions In focal disease of infrapopliteal YM155 arteries, DES therapy reduces the risk of reintervention and amputation compared with plain balloon angioplasty or BMS implantation without any impact on mortality

and Rutherford class at 1-year follow-up. (C) 2013 by the American College of Cardiology Foundation”
“Activation of the Sonic hedgehog (Shh) pathway and increased expression of Gli1 play an important role in proliferation and transformation of granule cell progenitors (GCP) in the developing cerebellum. Medulloblastomas arising from cerebellar GCPs are frequently driven by Shh pathway-activating mutations; however, molecular mechanisms of Shh pathway dysregulation and transformation of neural progenitors remain poorly defined. We report that the transcription factor and oncogene Snail1 (Sna1) is directly induced by Shh pathway activity in GCPs, murine medulloblastomas, and human medulloblastoma cells. Enforced expression of Sna1 was sufficient CBL0137 price to induce GCPs and medulloblastoma cell proliferation in the absence of Shh/Gli1 exposure. In addition, enforced expression of Sna1 increased transformation of medulloblastoma cells in vitro and in vivo. Analysis of potential Sna1 targets in neural cells revealed a novel Sna1 target, N-Myc, a transcription factor known to play a role in Shh-mediated GCP proliferation and medulloblastoma formation. We found that Sna1 directly induced transcription of N-Myc in human medulloblastoma cells and that depletion of N-Myc ablated the Sna1-induced proliferation and transformation.

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