Objective To investigate the clinical effect of orthokeratology (ortho-k)during night and wearing frameglass during daytime for treating high myopic in teenagers.Methods 53 teenager cases (aged 10 - 14 years old)of high myopia with spherical equivalent degree -6.00--8.00 diopters (D)in our hospital were performed the retrospective analysis,among them,23 cases were the combined wearing of ortho-k and frameglass and 30 cases were simple wearing of frameglass.The changes of eye axi-al length at 6,12,18 24 months before and after wearing frameglass were measured and compared between the two groups.The spherical equivalent degrees were compared between before wearing frameglass and at 2 years after wearing frameglass.Results The spherical equivalent degree after stopping wearing for 1 month after 2-year wearing in the ortho-k and frameglass group was(-7.28±0.57)D,which after 2 years in the frameglass group was (-7.80±0.68)D,the 2-year spherical equivalent degrees in the or-tho-k and frameglass group and the frameglass group were increased by (-0.29 ±0.22)D and(-1.07 ±0.41)D respectively,the difference between the two groups was statistically significant(P <0.01);the eye axial growths were(0.12±0.04)mm and(0.37± 0.13)mms respectively,the difference between the two groups was statistically significant (P <0.01).Conclusion The combina-tion of ortho-k during night and frameglass during daytime can effectively relieve the myopia increase and eye axis elongation in the patients with high myopia and control the myopia development to some extent.

Bone marrow mesenchymal stem cells (BMSCs) are a group of pluripotential non-hematopoietic somatic stem cells niched in bone marrow.With the characteristics of stable genetic traits,pluripotential in differentiation,easy to isolate from source tissue,and fast to proliferate when cultured in vitro,BMSCs are currently attracting extensive research interests,and considered to be one of the most promising candidates in corneal tissue engineering.At present,many research groups,domestic and abroad,have reported that BMSCs can not only differentiate into corneal limbal stem cells,corneal epithelial cells,and corneal endothelial cells,but also play an important role in ocular surface repair.However,the successful application of BMSCs in cornea usually depends on the correct selection of supporting materials or scaffold,such as xenogeneic corneal stroma and amniotic membrane.Other unsolved problems in BMSCs-related corneal tissue engineering include the molecular biologic mechanism underlying the directional differentiation from BMSCs to corneal cells,the standards to identify BMSCs from differentiated corneal cells,the optimal scaffold materials and the potential tumorigenicity with grafting of transformed or undifferentiated BMSCs.This paper reviewed the progresses and issues of corneal tissue engineering with BMSCs.

Objective: To investigate the nootropic components of Hovenia dulcis. Methods: Six saponins were isolated from Hovenia dulcis and Step-down test was used to examine the memory ability of mice. The escape latency and the times of wrong performance within 3 min were used to evaluate the memory ability of mice. To study the effects of saponins on learning and memory in mice, we divided the mice into 6 groups: youth group, aged group, aged plus piracetam(0.3 g/kg) group, aged plus saponins (0.6 g/kg) group, aged plus saponins (0.3 g/kg) group, and aged plus saponins(0.15 g/kg) group. To study the influence of saponins on impairment of memory acquirement, consolidation, and reoccurrence (induced by scopolamine, sodium nitrite and 40% ethanol, respectively), mice were also divided into the following 7 groups: control group, untreated group, Piracetam group (0.3 g/kg), compound 3 group(0.3 g/kg), compound 4 group(0.3 g/kg), compound 5 group(0.3 g/kg), and compound 6 group (0.3 g/kg). Results: The chemical structures of six saponins were elucidated as 3-O-stigmasterol-(6-O- palmitoyl)-β-D-glucopyranoside (1), β-daucosterin (2), hovenidulcioside A1 (3), hoduloside I (4), hoduloside IV (5), and saponins C2 (6). Among them, compounds 1 and 2 were isolated from this plant for the first time. Compounds 5 and 6 had enhancing effect on the learning and memory ability of natural senile mice, and they could improve the impairment of memory acquirement, consolidation and recurrence in mice induced by scopolamine, sodium nitrite and 40% ethanol, respectively. Conclusion: The aglycone of jujubogenin might be the main saponins contributing to the nootropic effect of total saponins from Hovenia dulcis.

Chromatography ; methods ; DNA Fingerprinting ; Drugs, Chinese Herbal ; analysis ; Magnetic Resonance Spectroscopy ; Mass Spectrometry

Humans ; Male ; Prostate-Specific Antigen ; blood ; Prostatectomy ; Prostatic Neoplasms ; blood ; metabolism ; radiotherapy ; surgery

Objective To investigate the effects of epigenetic drugs on 2D- and 3D-cultured cholangiocarcinoma cells in vitro.Methods In this study,we have built compact and round TFK-1 spheroid in poly-HEMA coated 96-well plate and determined the effects of epigenetical drugs on 2D and 3D cultured cholangiocarcinoma cells:TFK-1.Viability of 2D and 3D cells model was examined by WST assay and FDA/PI staining. Using methylation-specific PCR analysis,we demonstrated the changes of methylation status of promoters regarding three tumor suppressor genes APC,E-Cadherin,and p16 INK4A.Results The average diameters of compact and round TFK-1 spheroids were in the range of 350-400 μm.The TFK-1 spheroid cells were more resistant to the epigenetic drugs and demonstrated a 11.2155-fold higher IC50 values for hydralazine and valproic acid than the same cells grown as monolayer. Higher doses of epigenetic drugs were needed to reverse the hypermethylation status in 3D cultured cells than 2D cells; however,the parallel dosage - dependent characteristic did not show in the 3D spheroid group.Conclusions Taken together,we established a 3D culture model of human cholangiocarcinoma epithelial spheroid.The 3D spheroid cells are more complex than the 2D monolayer cells and their unique characteristics are able to affect the consequences of epigenetic therapy.The 3D spheroid is a promising model for the research of epigenetic therapy.

OBJECTIVE: To investigate the effect of Salvia Miltiorrhiza injection (SMI) on peritoneal dialysis solution (PDS) induced injuries of peritoneal structure and function in a rat model, and to observe the relationship between the failure of peritoneal dialysis and expressions of aquaporin-1 (AQP-1) and zonula occluden-1 (ZO-1) in peritoneal tissues. METHODS: Fifty-six SD rats were randomly divided into normal control group, 1.5% PDS group, 4.25% PDS group, 1.5%PDS+1% SMI group, 1.5%PDS+2% SMI group, 4.25% PDS+1% SMI group and 4.25% PDS+2% SMI group. Two-hour peritoneal dialysis test was performed in rats in different groups by intraperitoneal injection for 8-week. Then rats were killed on the 8th week, and the bloods and peritoneal tissues were gathered. The rate of ultrafiltration, clearance rates of urea nitrogen, creatinine and glucose of peritoneum and content of total protein in PDS were detected. Peritoneal membrane histology was evaluated by light microscopy and transmission electron microscopy. Expressions of ZO-1 and AQP-1 proteins in peritoneal tissues were detected by immunohistochemical method, and AQP-1 protein expression was also detected by Western blotting technique. RESULTS: Compared with normal control group, using of 1.5% PDS and 4.25% PDS caused the changes of structure and function in peritoneum, such as pathological change of peritoneum, decreasing of the rate of ultrafiltration (P<0.05), clearance rates of creatinine and glucose (P<0.01) and the expression of ZO-1 protein (P<0.05), and increasing of the expression of AQP-1 protein (P<0.05). Compared with the simple PDS groups, the pathological damage of peritoneum was lessened and the rate of ultrafiltration and clearance rates of creatinine and glucose were increased in the 1.5% PDS+2% SMI group and 1.5% PDS+2% SMI group. Expression of AQP-1 protein was decreased by 1.5% PDS+2% SMI as compared with 1.5% PDS (P<0.05).[JP] CONCLUSION: SMI can relieve the injuries of function and structure of peritoneum by down-regulating the expression of AQP-1 protein.

BACKGROUND:Bone marrow mesenchymal stem cells have beneficial effects on the treatment of various diseases. Mitochondria transfer is newly proposed and its specific mechanisms of action and control factors remain unclear.
OBJECTIVE:To review the studies about stem cells and mitochondrial transfer, then to discuss its value on clinical.
METHODS:The PubMed, VIP and Wanfang databases were searched for related articles concerning stem cells and mitochondrial transfer. Key words were“stem cell, embryonic stem cell, progenitor cell, mitochondria”in Chinese and“Stem cell[s], Mother cell[s], Progenitor cell[s], Colony-Forming Unit[s], Colony Forming Unit[s], Mitochondria[l] transfer”in English. Thirteen articles were found initial y, and using the citation tracking method, final y 42 articles were determined. RESULTS AND CONCLUSION:Studies have shown that mitochondrial transfer from bone marrow mesenchymal stem cells is associated with rescue of aerobic respiration and restoration of mitochondrial function in the injured somatic cells. Bone marrow mesenchymal stem cells and recipient cells form tunneling nanotubes for mitochondrial transfer. Movement of mitochondria between cells is regulated and directed by Miro1. The successful transfer of mitochondria may be accompanied with the clearance of damaged mitochondria. The rescue of mitochondrial function in early stages may provide a valuable therapeutic strategy for various diseases include acute lung injury.

This study based on an ethical review of the kidney donation from a young man to his elder relative.We discuss the problems existing in present field of intra-vital organ transplantations,as well as its risk and the ethics review mode.It is recommended that ethics review is performed as a complete procedure,which should not only present in certain format,but also emphasize weighing the advantages and disadvantages of both patients and donors;intra-vital organ transplantations between relatives should also follow the principle of "no compensation and non-commercialization";hospitals should give out the judgment under sufficient considerations of both patients' and donors' benefits within the scope of laws,as well as taking into account of other factors such as prospective outcome of the operations,rather than barely basing on the risk probabilities.

Objective To explore the effects of octylphenol, an environmental contaminant with estrogenic activity, on the expression of apoptosis regulator gene bcl-2 mRNA in human breast cancer cell line MCF-7 and to compare its effects with 17?-estradiol (E 2). Methods MCF-7 cells were cultured in vitro and exposed to various concentrations of octylphenol and E 2 from 12 h to 120 h respectively. Total RNA was abstracted and the expression of bcl-2 mRNA was measured using reverse transcription polymerase chain reaction (RT-PCR) approach. Results The expression of bcl-2 mRNA in MCF-7 cells increased significantly after exposure to octylphenol and E 2 24 h and the effects continued to 120 h. The stimulation effect on the expression of bcl-2 mRNA was induced by octylphenol with a wide range of concentrations, and the strongest effect was found at the concentration of 10-6 mol/L of octylphenol. Conclusion The results suggested that octylphenol had similar estrogenic activities as E 2 on regulating the expression of bcl-2 mRNA in MCF-7 cells, but the effect was weaker than that of E 2.