Objective To detect the tissue factor (TF) mRNA expression in hepatocellular carcinoma and to elucidate its significance. Methods TF mRNA was detected by reverse transcription-polymerase chain reaction (RT-PCR) in 27 cases of human hepatocellular carcinoma tissue specimen with their adjacent tissues and in 27 non-tumorous process tissues. Then the relationship between mRNA expression and pathological data were analyzed. Results The expression and the relative expression intensity of TF in hepatocellular carcinoma tissues were 62.96%(17/27) and 0.567±0.268 respectively, which were significantly higher than those in their adjacent tissues 〔33.33%(9/27), 0.469±0.184〕 and in 27 non-tumorous process tissue 〔29.63%(8/27), 0.353±0.121〕, Plt;0.05. The relative expression intensity of TF were associated with tumor size, intrahepatic and extrahepatic metastasis and portal vein invasion, but unrelated to gender, AFP level, differentiation, HBsAg, cirrhosis, number of tumor lesions, and lymph node metastasis (Pgt;0.05). Conclusion Expression of TF mRNA were significantly higher in hepatocellular carcinoma and in the invasive and metastatic tissue, which indicated that TF may play an important role in carcinogenesis, invasion and metastasis of hepatocellular carcinoma.
Objective To study the distribution and concentration of meropenem in rabbit bile. Methods The rabbits were cannulated with a silicone tube in the common bile duct and the blank bile was collected. The rabbits were then administered intravenously with meropenem. Multiple bile samples (1.5 ml) were collected at different phases after the administrations. According to requirement of the high performance liquid chromatography (HPLC), the specificity test was undertook. The blank bile was then mixed with meropenem and mobile phase, respectively, in order to obtain a series of bile samples at different concentrations ranging from 0.5 to 500 μg/ml. The samples were analyzed with HPLC and the chromatographic peak area of meropenem contents were quantitated through external reference method. The linear regression equation was used to analyzed the relationship between the drug concentrations and the chromatographic peak areas. The bile samples that were collected after drug administrations were pretreated and the chromatographic peak areas were assayed by the liquid chromatograph. The bile concentrations were then calculated according to the regression equation, and the concentration-time distribution of meropenem in the bile was obtained ultimately. Results The specificity test indicated the bile dopant peak and the meropenem chromatographic peak were well-separated under chromatographic condition of the mobile phase. The standard curve regression equation was S=2 209.10C-1 251.34, r=0.999 9, and minimum quantitation limit of meropenem was 0.5 μg/ml. After a single i.v. administration of 75 mg/kg of meropenem in each rabbit, drug concentrations reached (38.36±14.17) μg/ml immediately in bile, which significantly exceeded the minimum inhibitory concentrations (MIC90) for most gram negatives, which range from 0.031 to 2 μg/ml. The bile concentration of meropenem decreased quickly over time, and meropenem was eliminated completely in rabbit bile 3 hours after intravenous injection. Conclusion Meropenem could achieve adequate bile concentration for the treatment of biliary tract infection due to susceptible bacteria. However, because of its rapid biliary elimination, meropenem should be used in shorter interval time.
Objective To study the effect and feasibility of gradual oral diethylnitrosamine (DENA) induced liver cirrhotic model in rats under avoirdupois monitoring. Methods Fifty Wistar rats (6 weeks old) were divided into 3 groups: normal control group (n=10), traditional DENA induction group (receiving traditional oral DENA treatment, n=20), gradual DENA induction group (receiving gradual oral DENA treatment under avoirdupois monitoring, n=20). The weight, mortality and liver cirrhosis formation were observed. Results After 4 weeks of inducing cirrhosis, the weight of traditional DENA induction group 〔(234.9±27.1) g〕 was significantly lower than that of normal control group 〔(264.8±33.7) g, P<0.05〕. After 8 weeks of inducing cirrhosis, the weight of traditional DENA induction group 〔(251.5±34.3) g〕 was significantly lower than that of normal control group 〔(303.2±49.4) g, P<0.01〕 and gradual DENA induction group 〔(277.5±27.6) g, P<0.05〕. However, the difference between normal control group and gradual DENA induction group was not remarkable (P>0.05). The mortality in traditional DENA induction group (35%) was significantly higher than that in normal control group (0) and gradual DENA induction group (0), P<0.05. But the rate of cirrhosis formation both in traditional DENA induction group and gradual DENA induction group was 100%. Conclusion Oral DENA induced cirrhotic model in rats is a simple, reproducible and reliable technique. Gradual oral technique, in which DENA is given under avoirdupois monitoring, can improve rat’s security and reduce mortality.
ObjectiveTo evaluate the feasibility and accuracy of a novel three dimensional (3D) preoperative simulation software in a clinical setting for patients undergoing precise hepatectomy. MethodsThe clinical data of 85 patients with hepatocellular carcinoma underwent precise hepatectomy were retrospectively studied. All the patients received CT screening and subsequent evaluation on the liver resection volume and margin and the percentage of resected tumor by 3D preoperative simulation software, which compared with the actual resection liver values. The operation plan was optimized by virtual hepatectomy. ResultsThe liver, tumor as well as blood vessel could be clearly showed and reconstructed by 3D preoperative simulation software. All the patients underwent precise hepatectomy. After operation ascites occurred in 3 patients on 2 d, moderate pleural effusion occurred in 2 patients on 2 d, and bile leakage appeared in 4 patients on 5 d, which were improved by conservative treatment. The length of stay in all patients ranged from 6 to 88 d (mean 23 d), and no recurrence and death occurred within 30 d of operation. The predicted resection liver volume was significantly correlated with the actual resection volume (r=0.960, Plt;0.001), and the difference between the mean volume of predicted and actual resection liver was not significant (896.7 ml vs. 819.1 ml, t=1.851, P=0.068). In addition, the predicted resection margin was also correlated with the actual resection margin (r=0.972, Plt;0.001), with the difference in the mean resection margin was not significant too (12.2 mm vs. 11.9 mm, t=1.143, P=0.256). No patients suffered from severe postoperative complications. ConclusionsThe 3D preoperative simulation software is able to evaluate and simulate liver resection accurately, which may contribute to a safe precise hepatectomy plan.