AIM: To study the preventive and cure effects of the guizhi fuling pellet (GFP) on rat hysteromyoma modes. METHODS: Estradiol (0.2) mg per rat was administrated by subcutaneous injection once a day to establish rat hysteromyoma model. (0.8) (mg?kg~(-1)) adrenalin was administrated by subcutaneous injection to establish rat blood stasis model. RESULTS: GFP((1.08)-(4.32) (g?kg~(-1)))remarkably decreased uterus weight, restrained the excess proliferation of the smooth muscle of uterus, decreased the estradiol and progesterone in blood serum, restrained the platelet aggregation, and it significantly decreased the blood viscosity, prolonged blood coagulation time, kaolin partly theroboplastin time and prothrombin time of rats. CONCLUSION: GFP can restrain the formation of hysteromyoma, and the mechanism of GFP is related to decreasing the estrogen and progesterone, activating blood circulation to dissipate blood stasis.

Objective To knock down angiopoietin-1 expression in human gastric cancer cell line BGC-823 and to observe its effect of reversing tumor invasion. Methods siRNA sequence fragments was designed to target angiopoietin-1 and transferred into human gastric cancer cell line BGC-823. RT-PCR was used to assess the transcription level of angio-poietin-1 mRNA, then western blot and immunofluorescence were used to examine the expression level of three invasion-as-sociated proteins include integrinβ1, CD44V6 and Ang-1. Cell adhesion ability was evaluated by cell adhesion assay and cell invation was determined by matrigel and transwell plastic dual-chamber culture system. Results Ang-1 mRNA was knocked down by siRNA showed by RT-PCR. The expression of integrinβ1, CD44V6 and Ang-1 were significantly lower than control group(P<0.05), so did the cellular adhesion and invasion abilities(P<0.05). Conclusion Knocking down angiopoietin-1 by siRNA can reverse invasion of human gastric cancer cell line BGC-823 and may provide new ideas and reference for gene therapy of gastric cancer in the future.

Objective:To explore the safety and efficiency of a novel bipolar electric knife for endoscopic submucosal dissection.Methods:The thermal damage on tissue caused by the new bipolar knife and traditional monopolar knife were compared by finite element analysis. The vertical thermal damage to the porcine gastric wall caused by the two types of electric knife were analyzed in vitro animal experiments. In vivo animal experiments were used to compare operation related indexes of two types of electric knife, including en bloc resection rate and cutting efficiency in porcine digestive tract submucosal dissection. Results:Through overcoming deviation of experimental individuals and operator experience, the finite element model showed that the length, width and depth of thermal damage on tissue caused by the monopolar knife was 1.08 times, 1.12 times, and 1.23 times of that of the bipolar knife, respectively. Additionally, the bipolar knife caused less vertical thermal damage to the porcine gastric wall than the monopolar knife (433.25±42.58 μm VS 898.03±111.59 μm, t=6.740, P=0.003) in vitro animal experiments when charged for 1 s at the same power. Finally, in vivo animal experiments showed that the en bloc resection rates of the two kinds of electric knife systems were both 100.0%. In addition, the cutting area and cutting time of the bipolar knife was 229.58±185.29 mm 2 and 164.37±96.27 s, respectively. The corresponding indicators of the monopolar knife was 209.70±167.35 mm 2 and 162.65±69.97 s, respectively, and there was no significant difference (all P>0.05). Conclusion:The novel bipolar knife not only ensures the cutting efficiency but also reduces the thermal damage during endoscopic submucosal dissection in simulating experiment and animal experiment, which needs further verification in clinical trial.