1.Inhibitory effect of liposomes survivin antisense oligonucleotide on human hepatic carcinoma transplanted subcutaneously in nude mice
Peng GAO ; Chihua FANG ; Gangqing ZHANG
Chinese Journal of Pathophysiology 1986;0(01):-
AIM:To explore the effects of liposomes survivin antisense oligonucleotides(ASODN)on growth of human hepatic carcinoma transplanted subcutaneously in nude mice.METHODS:Nude mouse model of human hepatic cancer was established by transplantation of hepatic cancer cell line SMMC-7721/ADM subcutaneously.Models were divided randomly into six groups:control group,liposome group,sense oligonucleotide(SODN)group,200 ?g/L,400 ?g/L and 600 ?g/L ASODN groups.Different treatments were given respectively.Weight and volume of subcutaneous tumors were measured,and tumor growth inhibitory rate was calculated.Morphological changes of transplanted tumor cells were observed under light microscope.The expression of Survivin was detected by immunohistochemistry.RESULTS:The growth of tumors was significantly inhibits in all ASODN groups compared with control,liposome and SODN groups(P
2.Insights on further reforming the business model of the hospital
Junzhang TIAN ; Yiqiao ZHAO ; Gangqing ZHANG ; Yajie HUANG
Chinese Journal of Hospital Administration 2012;28(2):87-90
This paper analyzed the economic background,contents and effects of the existing business model of the hospital.On this basis,further study and reform are made on optimal business model of the hospital.The authors recommended that appropriate regional health scale,appropriate technical service,appropriate pricing for charges,appropriate operating cost and appropriate incentive constraints be adopted.These measures will safeguard state assets,public benefit nature of the hospital,enhanced hospital power in general,and compliance in operations,making the people satisfied and healthy.
3.Effect of special rectification of perioperative antimicrobial prophylaxis in inguinal hernia repair
Guanwen LIN ; Ying LIU ; Guitao LI ; Gangqing ZHANG
Chinese Journal of Infection Control 2014;(7):402-404
Objective To evaluate the effect of special rectification of clinical antimicrobial use in a hospital. Methods Medical records of patients receiving inguinal hernia repair before (in 2011)and after (in 2012)the per-formance of special rectification were reviewed,and the rationality of perioperative antimicrobial prophylaxis was compared.Results Prophylactic antimicrobial usage rate in patients receiving inguinal hernia repair decreased from 53.90%(76/114)in 2011 to 5.59%(10/179)in 2012,the difference was significant (χ2 =93.68,P <0.05);aver-age expense of antimicrobial use per patient decreased by 86.95% (from ¥ 624.73 in 2011 to ¥ 81 .52 in 2012);Combination use and single use was 93.42% and 80.00% respectively.Surgical site infection did not occur in both groups.Conclusion Through the special rectification activities of the clinical antimicrobial use,perioperative anti-microbial prophylaxis and expense of antimicrobial agents in patients receiving inguinal hernia repair is effectively re-duced.
4.Capacity of colonizing to the liver after allografting of mesenchymal stem cells in rats
Gangqing ZHANG ; Peng GAO ; Guoan XIANG ; Chihua FANG ; Kaiyun CHEN ; Guihua CHEN
Chinese Journal of Tissue Engineering Research 2006;10(41):-
BACKGROUND: Meseuchymal stem cells (MSCs) have extremely strong self-duplication ability and multidirectional ifferentiation potential. When bone marrow stromal cells (BMSC) are isolated and cultured in vitro, implanted in vivo, the distribution and colonization are still unclear, which is concerned with whether BMSC can be usedas target cells in clinic.OBJECTIVE: To explore the capacity of colonizing to the liver after allografting of green fluorescent protein (GFP) labeled MSCs of rats by different approaches.DESIGN: Factorial design.SETTING: Department of General Surgery, Second People's Hospital of Guangdong Province, Postdoctoral Workstation of Sun Yat-Sen University;Department of General Surgery, Zhujiang Hospital, Southern Medical University; Department of Organ Transplantation, Third Hospital Affiliated to Sun Yat-Sen University.MATERIALS: The experiment was performed at the Staff Room of Pharmacology, Basic Department, First Military Medical University of Chinese PLA from January 2003 to December 2004. A total of 36 clean adult SD rats were selected and randomly assigned into 5 groups: CCL4 plus portal vein transplantation group (n=6), portal vein transplantation control group (n=6), CCL4 plus caudal vein transplantation group (n=6), caudal vein transplantation control group (n=6) and mixed group (n=12).METHODS: ① MSCs were obtained from rat marrow and labeled with GFP. After amplifying in vitro, MSCs suspension was implanted with thin needle, with the volume of 0.5 mL/100 g. ②CCL4 plus portal vein transplantation group: In 3 days before MSCs transplantation, the rats were administrated with 20 g/L CCL4 2.5 mL/kg by gastric perfusion every day. The dose was double at the first time. Labeled MSCs were implanted from portal vein. Portal vein transplantation control group: Before transplantation the MSCs were bred commonly, and the labeled MSCs were implanted from portal vein. CCL4 plus caudal vein transplantation group: In 3 days before MSCs transplantation, the rats were administrated with 20 g/L CCL42.5 mL/kg by gastric perfusion every day. The dose was double at the first time. Labeled MSCs were implanted from caudal vein. Caudal vein transplantation control group: Before transplantation the MSCs were bred commonly, and the labeled MSCs were implanted from caudal vein. Mixed group: On the basis of the former 4 groups, 2 rats were implanted with non-labeled MSCs; Another 2 rats fed with CCL4 for 3 days and normal feed were established, without MSCs transplantation. ③At days 3 and 7 after transplantation expression of transplanted MSCs in liver of rats of each group were examined with fluorescent quantitative PCR.MAIN OUTCOME MEASURES: ①Results of MSCs isolation, purification, in vitro amplification and phenotype identification, ②result of GFP-labeled MSCs, ③observation of growth of rats following allografting of MSCs, and ④result of quantitative identification of GFP positive DNA amount in hepatic tissues of each group.RESULTS: Totally 36 experimental SD rats were involved in the result analysis. ①Percoll gradient separating medium was applied to isolate bone marrow of rats. The obtained cells were transferred and amplified,and then mostly showed coincident shuttle shape. Cells did not express CD34 and CD45, but CD29, CD44 and CD90 of MSCs, which were noncommitted stem cells in non-differentiating status that were different from hemopoietic stem cells in bone marrow. ②The green fluorescent cells appeared 24 hours after MSCs transfection. From hour 48 to 72 the number of positive cells significantly increased, with strong intensity.The transfection efficiency was 20%-30% under high-power field, and most of the cells were with green fluorescence. But green fluorescent cells did not appear in the MSCs cells as control. ③After allografting of labeled or non-labeled MSCs of rats with different approaches, at day 1 the rats were listless with bad food appetite, less mobilization; At day 2mostly of them had normal diet and mood, but there was no significant difference in rats of each group. ④The rats in each group with the exception of mixed group had green fluorescent protein positive cells in liver at days 3 and 7. The number of green fluorescent protein positive DNA was higher in liver tissues in the CCL4 plus portal vein transplantation group and CCL4 plus caudal vein transplantation group than in the portal vein transplantation control group and caudal vein transplantation control group (P<0.05).CONCLUSION: Duration and amount of stem cells colonizing in liver may be associated with liver injury, while not related to the implantation approach. In normal animals with uninjured liver the stem cells can colonize in liver, and the amount is associated with transplantation approach and post-transplantation duration.