1.Protective effect of atorvastatin on radiation-induced endothelial cell injury
Xinze RAN ; Huaien ZHENG ; Fengchao WANG ; Xi RAN ; Aiping WANG ; Jing HAN ; Yanqi ZHANG ; Jun CHEN
Chinese Journal of Radiological Medicine and Protection 2009;29(2):129-132
Objective To explore the protective effect of atorvastatin on irradiated endothelium and the thrombomodulin(TM)expression.Methods Cultured human coronary artery endothelial cells(HCAEC)and human umbilical vein endothelial cells(HUVEC)were treated by atorvastatin at the final concentration of 10 μmol/ml for 10 min,and then irradiated with 2 and 25 Gy.Cell cycles status and TM expression were quantitatively measured by flow cytometry 24 hours after irradiation.Protein C activation in endothelial cells was also assessod.Results After administration with atorvastatin for 24 h,the TM expression increased by 77%,59% and 61% in normal control group,2 Gy group and 25 Gy group,respectively(t=27.395,26.420,58.065;P=0.000).The protein C levels decreased by 23% and 34% compared with the normal group post-irradiation to 2 and 25 Gy,but increased by 79% and 76% compared with the irradiated control group after administration with atorvastatin.The rates of cell apoptosis decreased by 6% and 16% in 2 Gy and 25 Gy groups,respectively after administration with atorvastatin for 24 h(t=4.178,17.863;P=0.000).Conclusions Atorva statin can protect endothelia cell from irradiation-induced apeptosis by increasing TM expression and protein C activation.
2.Efficacy of Percutaneous Kyphoplasty Versus Percutaneous Vertebroplasty for Kummell's Disease:A Systematic Review and Meta-Analysis
Xinze ZHENG ; Xiaoxiao LIN ; Wenqing LIAO
Journal of Medical Research 2024;53(1):63-69,146
Objective To evaluate the clinical efficacy and safety of percutaneous vertebroplasty and percutaneous kyphoplasty in the treatment of Kummell'disease.Methods Databases of Cochrane Library,PubMed,Medline,Embase,Web of Science,CNKI,VIP,Wanfang Data and CBM were used to search clinical studies on percutaneous kyphoplasty virus percutaneous vertebroplasty in the treatment of Kummell's disease from database inception until June 1st,2022.Literature screening was performed according to the speci-fied inclusion and exclusion criteria.In strict compliance with Cochrane's systematic evaluation principle,authors reasonably screened,e-valuated and analyzed the quality of the retrieved papers and then the evaluating indicator of postoperative ODI,JOA,VAS,operation time and intraoperative complications in each included study was evaluated in Review Manager 5.4software.Results Nine papers were included,involving 243 patients in the percutaneous vertebroplasty group and 222 patients in the percutaneous kyphoplasty group.Percu-taneous kyphoplasty had advantages in postoperative ODI score,cement leakage,and postoperative Cobb's angle,which was statistically significant(P<0.05),but the operation time was longer and the postoperative VAS score improved poorly.There was no significant difference in intraoperative bleeding and height of the postoperative vertebral margin(P>0.05).Conclusion In the surgical treatment of Kummell's disease,percutaneous vertebral kyphoplasty can more effectively improve the postoperative ODI score,and reduce the post-operative Cobb's angle and the risk of cement leakage compared to the traditional percutaneous vertebroplasty.It has more advantages in improving the clinical efficacy and reducing the postoperative risk.However,the conclusions of this study require more high-quality,multi-angle and large-sample studies in the future.
3.Human amniotic membrane loaded with porcine keratinocytes for constructing epidermal substitute of skin
Guohe YAN ; Yongping SU ; Feng WANG ; Guoping AI ; Tianmin CHENG ; Huaien ZHENG ; Xinze RAN ; Hong XIAO ; Chongfu TAN
Chinese Journal of Tissue Engineering Research 2005;9(22):245-247
BACKGROUND: As a kind of semitransparent membrane, human amniotic membrance contains many kinds of nutrients, which is a good biological material loaded with keratinocytes.OBJECTIVE: To construct epidermal substitute of the skin from human amniotic membrane loaded with porcine keratinocytes and examine the morphological characteristics of the growth and proliferation of keratinocytes seeded on human amniotic membrane.DESIGN: Single sample study and repetitive measured observation based on the cells.SETTING: Institute of Combined Injuries of Chinese PLA, Academy of Preventive Medicine, Third Military Medical University of Chinese PLA.MATERIALS: The experiment was completed in the State Key Laboratory of Trauma, Burn and Combined Injury and Institute of Combined Injuries of Chinese PLA, Academy of Preventive Medicine, Third Military Medical University of Chinese PLA from January to November 2001. Porcine keratinocytes was collected from Guizhou minipigs aged 3 weeks.METHODS: The primarily cultured keratinocytes of Guizhou minipigs were subcuhured, expanded and bred on the stroma surface of human amniotic membrance at the density of 1.63 × 105/cm2. The growth and proliferation of keratinocytes were observed under inverted microscope every day. From the 3rd day and the 15th day after being cultured, the growth of keratinocytes on human amniotic membrane was examined under light microscope and electron microscope.MAIN OUTCOME MEASURES: The growth of keratinocytes on human amniotic membrane was examined RESULTS: Keratinocytes evidently adhered to the stroma surface of human amniotic membrane about 30 minutes after being cultured, which was observed under inverted microscope. Most keratinocytes grew and adhered to the stroma surface of human amniotic membrane within 24 hours. Monolayer of keratinocytes formed and completely covered human amniotic membrane within 3 days. It was observed under the light microscope that the monolayer of keratinocytes adhered to human amniotic membrane and arrayed tightly. The keratinocytes presented in the shape of polygon, and plasmalemmas of keratinocytes formed many pseudopods under the observation with scanning electron microscope. Keratinocytes adhered to human amniotic membrane well and with many keratinofilaments in them under the observation with transmission electron microscope. Keratinocytes arrayed on human amniotic membrane densely with many cellular debris and some keratinocytes formed cavitations in them due to aging after growth for 15 days under the observation with inverted microscope.CONCLUSION: Human amitotic membrane is a good carrier of keratinocytes cultured on it in vitro, and is able to promote the proliferation of keratinocytes significantly. However, when keratinocytes were loaded on the human amniotic membrane for 15 days, some keratinocytes formed cavitations in them due to aging.
4.CXCR4 gene transfection enhancing the distribution of dMSCs to the wounded skin of rats with combined wound and irradiation injury
Zhaowen ZONG ; Tianmin CHENG ; Xinze RAN ; Yongping SU ; Shiwu DONG ; Nan LI ; Junping WANG ; Guoping AI ; Zheng LI
Chinese Journal of Radiological Medicine and Protection 2009;29(4):351-354
Objective To observe whether the transplanted dermal multipotent stem cells(dMSCs)transfected by adenovirus vector of CXCR4(Adv-CXCR4)can distribute more frequently to the wound of rats with combined wound and irradiation injury.Methods dMSCs transfected by Adv-CXCR4(group A),or transfected by adenovirus vector of green fluorescent protein(group B),and non-transfected dMSCs were labeled with 3H-TdR and then transplanted into combine-injured rats.The amount of dMSCs in wound were determined by liquid scintillation,and wounds healing process was observed by measuring the remaining wound area.Results From the 5th day after transplantation,the amount of dMSCs in the wound of group A accounted for 1.95%-3.85% of the total transplanted dMSCs,significantly greater than those in group B and group C,which accounted for 1.07%-1.86% of the total transplanted dMSCs.The remaining wound area in group A was smaller than those in group B and group C from day 12 after injury,and the healing time of group A was 1.5 day ahead than group B and group C.Conclusions dMSCs transfected by Adv-CXCR4 distributes more frequently to the wound of combine-injured rats and could accelerate wound healing.