Objective:To evaluate the effect of epigallocatechin-3-gallate (EGCG) and epigallocatechin-3-O-(3-O-methyl)-gallate (EGCG-3Me) on the anti-bacterial effect and the stability of intraradicular dentin-adhesive interface.Methods:EGCG and EGCG3Me with the concentration of 400 μg/ml were incorporated into Single Bond 2 (SB2) respectively to obtain 2 modified adhesives E-SB2 and E3-SB2.Confocal laser scanning microscopy(CLSM) and ultraviolet spectrophotometry were used to evaluate the anti-bacterial effect of the modified adhesives.Micro-Raman spectrum was used to test the degree of conversion (DC) of the adhesives.Push-out bond strength test was conducted to examine the immediate bond strength and the bond strength after themocycling.Results:E-SB2 and E3-SB2 both showed inhibiting effect on the proliferation of E.faecalis,while E3-SB2 performed stronger inhibiting effect.DC and the immediate push-out bond strength of SB2 were not decreased with the incorporation of EGCG or EGCG-3Me(P ＞ 0.05).E-SB2 and E3-SB2 showed significantly higher push-out bond strengths than that of SB2 (P ＜ 0.05) after themocycling.Conclusion:EGCG and EGCG-3Me modified adhesives have anti-bacterial effect and can enhance the stability of bonding between intraradicular dentin and adhesive,EGCG-3Me may have stronger anti-bacterial effect.

Objective To investigate the correlation between the proportion of peripheral blood follicular T helper cells(Tfh cells)and intracellular interleukin-21(IL-21)content with blue light retinal injury.Methods Brown Norway(BN)rats were randomly divided into 4 groups and were exposed to blue light for 3 hours a day to establish retinal light damage model.According to the duration of illumination,the rats was divided into 0 days(control group),3 days(3 d group),7 days(7 d group)and 14 days(14 d group).The proportion of Tfh cells and content of IL-21 in Tfh cells in peripheral blood of each group was detected by flow cytometry and ELISA sepa-rately after illumination.Electroretinogram(ERG)was used to evaluate retinal function.The changes of fundus in rats were observed by fundus photography.The thickness of outer nuclear layer of retina was analyzed by HE staining.Results After retinal blue light injury,with the extension of illumination time,the proportion of Tfh cells in peripheral blood and intracellular IL-21 content both increased(P<0.05).ERG showed that retinal function decreased after light damage and aggravated with the extension of illumination time,the latency and ampli-tudes of A-wave and B-wave increased and decreased respectively(P<0.05).The retinal fundus of rats showed depigmentation in 3 d,and the retinal vessels became thinner and exudate with the extension of illumination time.HE staining showed that the outer nuclear layer of retina(ONL)became thinner(P<0.05).Correlation analy-sis indicated that the proportion of Tfh cells in peripheral blood and the intracellular IL-21 content could jointly reflect the degree of injury(P<0.000 1),and the proportion of Tfh cells in peripheral blood was negatively corre-lated with ONL thickness and the amplitude of a and b waves,positively correlated with the peak time of a and b waves,(P<0.0001).Conclusion The proportion of Tfh cells in peripheral blood and the intracellular IL-21 content were increased after blue light damage to retina,and were significantly increased with the extension of light time with a certain correlation.

Bone marrow mesenchymal stem cells （BMSCs） are derived from stem cells isolated from bone marrow and have the potential for multidirectional differentiation and self-renewal. Under certain conditions， BMSCs can be induced to differentiate into osteoblast （OB）， chondrocyte， adipocyte， fibroblast， etc. BMSCs play an important role in maintaining the stability of bone structure and balancing bone metabolism. Promoting the proliferation of BMSCs and inducing their differentiation into OB of great significance for the clinical prevention and treatment of osteoporosis， bone defects， fracture healing， and other diseases. Because the proliferation and osteogenic differentiation of BMSCs are complex processes controlled by multiple genes and regulated by multiple signal transduction pathways， traditional Chinese medicine （TCM） happens to have the advantages of multi-bioactive component， multi-target， and multi-pathway synergism， which can affect the proliferation and differentiation of BMSCs through multiple channels and induce the proliferation of BMSCs. The transcription and expression of genes related to osteogenesis can be enhanced to promote the differentiation of BMSCs into OB， so as to achieve the purpose of preventing and treating osteoporosis， bone defects， and other bone diseases. Based on the literature on the intervention of TCM monomers and compounds in the proliferation and osteogenic differentiation of BMSCs， this study reviewed TCM monomers and compounds in promoting the proliferation and osteogenic differentiation of BMSCs by regulating secreted glycoprotein （Wnt）， neurogenic locus notch homolog protein （Notch）， mitogen-activated protein kinase （MAPK）， phosphatidylinositol-3 kinase （PI3K） /protein kinase B （Akt）， bone morphogenetic protein （BMP）/Smad， Janus kinase （JAK）/signal transducer and activator of transcription protein （STAT）， osteoprotegerin （OPG）/receptor activator of nuclear factor-kappa B （RANK）/RANK ligand （RANKL）， and other signaling pathways to provide new ideas for the research and clinical application of Chinese medicine in the prevention and treatment of orthopedic diseases.