Objective:To study whether autoimmune regulator (Aire) affects macrophage polarization. Methods: The mouse mononuclear macrophage cell line RAW264. 7 cells, stable expressing GFP-Aire protein RAW264. 7 cells ( A33-3 ) and stable expressing GFP protein RAW264. 7 cells (C1-6) were stimulated with LPS,IL-4 and LPS combined with immune complex respectively to make the macrophage polarize to M1 (LPS),M2a (IL-4) and M2b (LPS with immune complex). To investigate the effects of Aire on the various types of macrophages polarization,the M1 related molecules (IL-1α,iNOS and IL-6),M2a related molecules (Arg-1) and M2b related molecule (IL-10) were detected by Real-time PCR. Results:The expression of IL-1α,IL-6 and inducible nitric oxide synthase ( iNOS) ,the products of M1 macrophages, were significantly upregulated in RAW264. 7 cells treated with LPS at 0. 5 μg/ml. The expression of Arg-1 and IL-10 mRNA in RAW264. 7 cells increased in a dose-dependent manner after stimulation with IL-4 or LPS combined with immune complexes, respectively. M1 macrophage-related marker iNOS and IL-1 increased, whereas IL-6 levels decreased in A33-3 cells compared with C1-6 cells after treatment with LPS. The expression of Arg1 and IL-10 were downregulated in A33-3 cells compared with C1-6 cells after IL-4 and LPS combined with immune complexes stimulation,respectively. Conclusion:Aire may promote M1 macrophage polarization while inhibit M2a and M2b macrophage polarization.

Objective To develop an accurate 2D dose reconstruction model using electronic portal imaging device (EPID).2D dosimetric verifications of volumetric intensity-modulated arc therapy (VIMAT)were done using the model.And the results were compared to other dosimeters.Methods The EPID-based dose reconstruction model was using convolve,deconvolve and correction function.The dose profiles which were obtained by the ion chamber were used to determine the model parameters.A total of 12 VIMAT plans for the treatment of anatomical sites of various complexities were chosen.The results obtained from EPID were compared to other dosimeters and treatment planning system (TPS).The ion chamber was used to measure the central point absolute doses.Other dosimeters were used to measure the plane dose distributions.All dosimeters measured the dose at 10 cm depth.The results were analyzed using γevaluation method.Results Regarding absolute central point doses,the ion chamber results were within 1.5％ of the EPID results.For the comparison to Seven29 and Matrixx,the average γ pass rates with 2％and 2 mm criteria were 98.9％ and 99.8％ respectively.For the dose distributions measured by EPID and calculated by TPS,the γ pass rates with 3％ and 3 mm criteria were 99.9％.Conclusions The presented results which were obtained from the comparison of measured and calculated doses show the reliability of our EPID-based dose reconstruction model.With the model,EPID can be a reliable and fast tool for IMRT plan dosimetric verification.The model expanded to the 3D dosimetric verification in the uniform phantom will be considered as the next work.