\n\nMethods: A cross-sectional researcher developed survey, interviews and secondary data analysis were utilized for data collection. Quantitative data were analyzed using SPSS version 16. Descriptive statistics were generated. Fisher’s exact test determined statistically significant differences between groups. Qualitative data
were analyzed using a framework analysis.\n\nResults: All students attending the MMEP 2007-2010 (n=67) and faculty (n=11) were invited to participate; 48% students and 91% faculty responded. Quantitative and qualitative results demonstrated positive perspectives regarding all three aspects of our enquiry. Nevertheless, needed improvements were identified in the areas of availability of human and physical resources, Z-IETD-FMK feedback and aspects of the research experience.\n\nConclusions: Impact on quality of health professions education in the Kingdom and participant educational leadership development are particularly selleckchem important social responsiveness features
of the program. Refinement of the evaluation instrument and WFME standards to ensure clarity and relevance to local contexts as well as a future expected imperative to move beyond social responsiveness to social accountability in health professions education, are future challenges discussed.”
“By employing Lyapunov functional theory as well as linear matrix inequalities, ultimate boundedness of stochastic Hopfield neural networks (HNN) with time-varying delays is investigated. Sufficient criteria on ultimate boundedness of stochastic HNN are firstly obtained, which fills up a gap and includes deterministic systems as our special case. Finally, numerical
simulations are presented to illustrate the correctness and effectiveness of our theoretical results. (C) 2011 Elsevier B.V. All rights reserved.”
“A Ulixertinib major concern with regard to glioma treatment arises from the fact that high-grade gliomas are insensitive to the majority of anticancer therapies. The aim of the present study was to investigate anti-proliferation potential of the BH3-mimetic gossypol in four glioma cells with different BRAF mutation status. Gossypol induced similar levels of growth inhibition in all glioma cell lines regardless of the BRAF mutation status. Glioma cells were found to be resistant to gossypol-mediated apoptosis; gossypol caused only a weak increase in the number of G(2)/M cells. However, gossypol treatment of glioma cells resulted in the progressive emergence of autophagic cells.