Objective: To develop an HPLC method for the determination of rutin, hyperin and quercetin in Vicia sepium L. . Methods:The samples were separated on an Agilent ZORBAX Eclipse XDB-C18 column(250 mm × 4. 6 mm, 5 μm) with the mobile phase consisting of acetonitrile-1‰ phosphoric acid solution with gradient elution at the flow rate of 0. 8 ml·min-1 . The column tem-perature was 30℃, and the detection wavelength was set at 370 nm. Results: The linear range of the three components was 4. 090-130.940 μg ·ml-1(r=0.999 9), 4.600-147.200 μg ·ml-1(r=0.999 9) and 0.810-25.780 μg·ml-1(r=0.999 8), and the average recovery was 103. 45% (RSD=1. 25%), 98. 96% (RSD=1. 77%) and 102. 88% (RSD=0. 84%)(n=6), respectively. Conclusion:The method is stable, reproducible and simple, which can be used in the quality control of Vicia sepium L. .

Objective To explore the change characteristics of early renal blood infusion in patients with diabetes and its relation-ship with fasting blood sugar by using multi-slice spiral CT (MSCT)perfusion scan.Methods Thirty cases of T2DM patients within five years of disease course that meet clinical diagnostic criteria (poor DN glycemic control group and good DN glycemic control group with 1 5 cases in each group)and 1 5 cases in the control group underwent bilateral renal perfusion scan using 64-detector spiral CT,thus obtaning their cortical perfusion parameters of bilateral kidneys,including blood flow (BF),blood volume (BV),mean transit time (MTT)and capillary permeability surface (PS).At the same time,for each case,fasting glucose,blood urea nitrogen, serum creatinine and blood uric acid value on the third days after and before perfusion were also measured;the glomemlar filtration rate (C-GFR)was estimated.Statistical analysis was performed on all of these obtained values.Results (1).For the poor DN gly-cemic control group,the average BF value,average BV value and average PS value were reduced,average MTT was prolonged sig-nificantly,and compared with normal group,average BF value and average MTT were statistically significant (P <0.05);for good DN glycemic control group,average BF value and average BV value were increased,the average MTT was prolonged,and compared with the normal group,the difference was statistically significant (P <0.01);compared with the good DN glycemic control group, the average BF value and average BV value of the poor DN glycemic control group were significantly reduced,and the average MTT was significantly prolonged.(2).Fasting blood glucose had the highest correlation with average BF and average MTT and was linear-ly dependent with renal perfusion parameters.(3).The glomemlar filtration rate was not statistically significant (P >0.05)for both normal control group and DN groups in the third day before and after renal CT perfusion imaging examination.Conclusion BF,BV and MTT of MSCT perfusion scan can reflect the characteris-ticsof early renal blood infusion in patients with diabetes.And changes of fasting blood sugar in patients with diabetes may influence mean BF and mean MTT of kidney.

Objective To investigate the separation efficiency of three physical separation methods for gaseous ¹⁴C, namely membrane separation, adsorption separation, and low-temperature separation, to screen for the optimal separation method, and to provide a reference for the separation and enrichment of ¹⁴CO₂ in online monitoring of ¹⁴C. Methods The experimental plan was designed, and three devices were constructed for separation and purification experiments. The purity, recovery rate, and separation time of CO₂ separated by the three methods were analyzed. Results All the three methods achieved the separation of CO₂. Under certain conditions, 20 mL of sample gas was obtained. The separation time of membrane separation method was 0.5 hour, CO₂ gas with a sample purity of 0.0486%-0.0488%VOL was obtained, and the recovery rate was only 2.5%−12.7%. The separation time of MOF material adsorption separation method was 24−30 hours, CO₂ gas with a sample purity of 20.2%−47.5%VOL was obtained, and the recovery rate was 57.3%−63.2%. The separation time of low-temperature separation method was 3 hours, CO₂ gas with a sample purity of 96.0%−99.8%VOL was obtained, and the recovery rate was 81.5%−92.5%. Conclusion The purity and recovery rate of CO₂ with low-temperature separation method were higher compared to membrane separation method and MOF material adsorption separation method. The separation time of low-temperature separation method was moderate. The low-temperature separation method can provide a reference for the enrichment technology of ¹⁴C in the rapid measurement of gaseous ¹⁴C effluent.

Objective Nowadays, radioactive xenon isotopes, including ^131mXe, ^133mXe, ¹³³Xe, and ¹³⁵Xe, are primarily released into the atmosphere through various reactor operation and major accidents of reactors. To improve the online monitoring capability of xenon in nuclear facilities and their gaseous effluents, a highly sensitive online xenon monitoring system was developed to monitor, warn, and alarm the activity concentration of radioactive xenon. Methods The online monitoring system for radioactive xenon gas in nuclear facilities was established using xenon membrane separation and concentration, xenon high-efficiency selective adsorption, and low-background gamma-ray spectrometry analysis methods. Results Under the operation mode of one-hour sampling and one-hour measuring, the minimum detectable activity concentration of the radioactive xenon online monitoring system for ¹³³Xe was approximately (1.43 ± 0.03) Bq/m³. Conclusion This system can be effectively used for online monitoring of xenon activity concentration in nuclear facilities such as nuclear power plants and isotope production reactors, as well as in gaseous effluents. It helps improve the safety level of personnel, the environment, and nuclear facilities.