Objective To observe whether bone marrow mesenchymal stem cell transplantation can improve vasospastic rats sense and motor function.Methods Rats grouped with randomized number method as Control group,Subarachnoid hemorrhage group.Stem cell culture media group and Stem cell transplantation group.Subarachnoid hemorrhage model were made with tail artery blood twice injection,2 days after 2' nd injection.Bone marrow mesenchymal stem cell were transplanted to lateral cistern.Subarachnoid hemorrhage(SAH) group didn' t transplant stem cell.Stem cell culture media group injected DMEM media as DMEM group.Stem cell transplantation group injected 30μl Bone Marrow mesenchymal stem cell suspension,so called BMSCs group.Neurofunctional score and learning memory expression were detected with morris mazer and Neurofunctional Score Scale in each group.Results After transplantation for 7 d,functional score of Control,SAH,DMEM and Stem cell group were 3.95 ±2.51,7.20 ± 1.03,7.23 ± 1.79 and 5.81 ± 1.11 respectively.Compared with others groups,Stem cell group score was significantly decrease(P=0.017).After transplanting stem cell for 14 d,the mean spanning plate time in Control group,SAH group,DMEM group and Stem cell group were 7.38 ± 1.73,4.52 ± 0.90,5.11 ± 1.93 and 7.32 ± 2.16 respectively,SAH and DMEM group vs other 2 groups,there were clearly statistically differences (P =0.009),while between control group and stem cell group,there were no statistically differences (P =0.14).Conclusion SAH rat transplant stem cell can improve sense,motor and learning expression in certain level.

Objective To study the influence of cochlear implantation on residual hearing in children .Methods Behavioral audiometry were performed pre -implant and 3~21 months post -implant on thirty -four cochlear implant recipients with severe to profound hearing loss .According to follow -up time ,they were divided into 2 groups which were Group A(3~12 months ,21 cases) and Group B(≥13 months ,13 cases) .The thresholds at 250 Hz ,500 Hz ,1 000 Hz and 2 000 Hz were analyzed .Results There were 25 out of 34 patients (73 .53% ) had partial residual hearing after cochlear implantation .Comparing to the hearing loss pre -operation and post -operation , which were most obvious at 500 Hz ,followed by 250 Hz ,1 000 Hz ,2 000 Hz (P<0 .05) ,and there were significant different among different frequencies .There was significant difference at different frequencies at hearing loss thresh-olds only in Group A .But there was no significant difference in Group B .With the prolonged time after the cochlear implantation ,residual hearing at all frequencies showed a trend of recovery .Conclusion The residual hearing could be partial preserved after cochlear implant in pediatric patients with severe to profound hearing impaired ,the residu-al hearing at lower frequencies (250 Hz ,500 Hz) were less affected than those at higher frequencies .With the pro-longed time after the cochlear implantation ,the residual hearing showed a certain degree of recovery .

Objective:To establish HPLC chromatogram for Aspongopus; To determine 8 nucleoside components of uracil, adenine, uridine, uric acid, hypoxanthine, adenosine, xanthine and canine quinolinic acid; To provide reference for quality control and evaluation.Methods:The Agilent ZORBAX SB-Aq chromatographic column (4.6 mm×250 mm, 5 μm) was used for gradient elution with mobile phases consisting of a methanol (A) and 0.05% phosphoric acid (B). The column temperature was 25 ℃, the flow rate was 0.8 ml/min, and the detection wavelength was 254 nm. HPLC chromatograms for Aspongopus were established and the contents of 8 components were determined.Results:The characteristic chromatogram of 15 batches aspongopus herbs was established. A total of 10 common characteristic peaks were identified and 8 were identified. The similarity between the characteristic chromatogram of samples and the control chromatogram was 0.969-0.997. The content determination showed that the linear range of uracil, adenine, urin, uric acid, hypoxanthine, adenosine, xanthine and xanuric acid was among 0.002 0-0.644 0, 0.001 4-0.448 0, 0.001 0-1.257 0, 0.005 4-6.221 0, 0.001 0-0.724 0, 0.001 0-0.644 0, 0.002 0-1.113 0, 0.003 8-2.059 0 μg, respectively, with a good linear relationship ( r≥0.999); the repeatability and stability of RSD were <2.0%, and the average sampling recovery rate was between 99.36% and 103.40%. Conclusion:The characteristic chromatogram and content determination method established in this study are simple, reliable, reproducible and accurate, and can be used for the qualitative and quantitative analysis of Aspongopus and can provide a reference for the quality evaluation method of the Aspongopus.

Background The affinity between placental transporters and perfluoroalkyl substances (PFAS) could affect the placental transport and toxicity of PFAS, while the study on the interaction between PFAS and placental transporters is limited. Objective To explore interactions between PFAS and placental transporters using molecular docking, and to provide a theoretical basis for PFAS toxicity prediction and fetal health risk assessment. Methods Fifteen PFAS compounds, each conformationally sampled and energy-minimized, and 16 placental transporters, represented by their 3D structures, were imported into a molecular docking software (MOE 20140901). For each PFAS, 30 distinct conformations were generated and docked into the active pockets of the transporters using a semi-flexible docking mode. Docking poses were primarily scored and ranked based on their calculated binding free energy (ΔG, kcal·mol⁻¹), with additional consideration given to hydrogen bonding interactions and the ligand's root mean square deviation (RMSD) at the binding site; the top 20 poses for each complex were subsequently output. Optimal binding configurations were identified as those exhibiting a relatively low binding free energy (ΔG ranging from −3 to −10 kcal·mol⁻¹), well-defined hydrogen bonds, and an RMSD ≤ 2.0 Å. The binding capabilities of the PFAS to the placental transporters were then evaluated based on these optimal docking results. Results The PFAS could bind to the placental transporters, with structural specificity. For example, the binding capabilities increased as the carbon chain length of PFAS increased, and it was also higher for PFOS alternatives than for PFOS. Besides, the binding capabilities of sulfonic PFAS with the same carbon chain length was also stronger than that of carboxylic PFAS. For example, the binding capabilities of PFOS (C8) to 15 placental transporters was higher than that of PFOA (C8), except for glucose transporter 1 (PFOS vs. PFOA: −4.14 vs. −4.14). Further, PFAS might be bound to the placental transporter through hydrogen, ionic, and hydrophobic interactions. Conclusion PFAS are able to bind the placental transporters, and its toxicity and exposure risk can’t be ignored.