2.Combination of PTCRA and PTCA in complicated coronary artery disease
Ping HOU ; Yi ZHENG ; Zhanquan LI
Chinese Journal of Interventional Cardiology 1996;0(04):-
Objective To evaluate the efficacy of PTCRA+ PTCA in patients with complicated coronary disease Methods PTCRA+PTCA were performed on 16 lesions in 14 patients in our hospital Results In 14 lesions, PTCA was performed after direct PTCRA in order to achieve opital angigraphic result; PTCRA was performed in 5 coronary artery lesions after failed PTCA 14 patients (100%) had successful result Conclusion The combined use of PTCRA+PTCA can improve the success rate during revasculrization for patients with complicated coronary artery disease
3.Study on bacteriostatic effect of water-soluble chitosan
Yanru LIU ; Ping YU ; Yi ZHENG
Chinese Journal of Marine Drugs 1994;0(02):-
This paper observed the influence of water-soluble Chitosan on the growth of bacteria cultured in vitro with solid medium. The results showed that Escherichia coli、staphylo- coccus aureus、Bacillus subtillus、Sarcina and Actinomyces5406 could be inhibited to different degrees by Chitosan with certain concertrations. The corresponding MIC Were 0. 5%、0. 3%、 0. 5%、0. 3% and 0. 5%. The results also showed that Chitosan had stable antibacterial action after being treated with heat and it could keep instant flavouring kelp fresh and antiseptic.
6.Sarcomatoid carcinoma of the urinary tract: clinical analysis of 16 cases.
Cheng ZHOU ; Li-Ping XIE ; Xiang-Yi ZHENG
Chinese Journal of Oncology 2011;33(8):634-635
Carcinoma, Renal Cell
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metabolism
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pathology
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surgery
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Carcinoma, Transitional Cell
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metabolism
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pathology
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surgery
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Carcinosarcoma
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metabolism
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pathology
;
surgery
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Female
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Follow-Up Studies
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Humans
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Keratins
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metabolism
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Kidney Neoplasms
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pathology
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surgery
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Lymphatic Metastasis
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Male
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Prostatic Neoplasms
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metabolism
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pathology
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surgery
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Retrospective Studies
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Survival Rate
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Ureteral Neoplasms
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metabolism
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pathology
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surgery
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Urinary Bladder Neoplasms
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metabolism
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pathology
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surgery
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Urologic Neoplasms
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metabolism
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pathology
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surgery
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Vimentin
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metabolism
8.The concept of fast track surgery applied in perioperative period of gastric cancer
Ping CHEN ; Guoping DING ; Qi ZHENG ; Zhanbo YI ; Feng WU
Chinese Journal of General Surgery 1997;0(06):-
Objective To explore a method to improve the nutritional state and immune function of patients after radical gastrectomy,and to decrease postoperative complication rate and accelerate recovery from operation.Methods In line with the concept of fast tract surgery (FTS),a new perioperative nutritional schedule was made for patients prior to radical gastrectomy,ehich included preoperative nutritional risk screen and prophylactic enteral nutrition,early postoperative light enteral nutrition,early ambulation and perioperative nursing care.Patients with gastric cancer were randomly assigned into fast track group or a simple control group.New perioperative schedule was executed in the patients of fast track group and traditional nutrition support in control group.After operation,serum albumen was measured to evaluate the patient's nutritional state and serum IgA to evaluate gastrointestinal immune function.In addition,the time to passage of flatus,postoperative recovery time and complication rate after operation were compared.Results Patiens in FTS group (n=35) showed higher serum albumin and serum IgA on d1 and d3 after operation than those in the control group (n=25) (P
9.Advances in the Research on Microbial Phytases
Ping-Ping YANG ; Zheng-Hong XU ; Yan WANG ; Wen-Yi TAO ;
Microbiology 1992;0(03):-
Phytases are studied widely in plants and microorganisms. Interest in these enzymes has been stimulated by the fact that phytase has the advantage in forage, food process and medicine. This paper reviews recent trends on the production, purification, properties and gene of microbial phytases.
10.Pharmacokinetics and biodistribution of 11C-HupA in the normal animal
Jin, YAN ; Yi-hui, GUAN ; Fang-ping, XUE ; Zheng-wei, ZHANG ; Ping, LIU ; Xiang-tong, LIN
Chinese Journal of Nuclear Medicine 2009;29(2):109-112
Objective HupA is one of the potential drugs which can be used to treat Alzheimer's disease(AD).The aim of this study was to explore the pharmacokinetics and biodistribution of HupA in vivo by using 11C-HupA.Methods A total of 25 SD rats were studied.They were divided into 5 groups (5 rats in each group).All had intravenous injection of 22 MBq(in0.2 ml)11C-HupA through tail vein.Dynamic im-aging Was acquired from 5 to 90 minutes after injection.Venous blood and organ activities were collected at 5,15,30,60.and 90 minutes after injection.Percentage activity of injected dose per gram of tissue(%ID/g)was calculated to characterize the biodistribution of tracer in different brain regions: frontal,apical, temporal,occipital,cerebellum,hippocampus,striatum,thalamencephalon, and brain stem, Variance analysis using SPSS 11.5 software was performed and compared among the study groups.Results 11C-HupA was character-istic for its quick clearance from blood,with half time T1/2 of (14.61±1.77) min,and clearance rate (CL)macokinetics of 11C-HupA in rats corresponded to a one-compartment model.with an activity curve(area 11C-HupA distribution in different brain regions,being greater in cerebral cortex,hippocampus,hypothala-mus and brain stem. Conclusions Pharmacokinetic study of 11C-HupA in brain was fast.convenient and showed high specificity and sensitivity.Its ability to quantitatively evaluate brain function and its character-istic distribution in mice provided some evidence for monitoring therapy in AD patients.