Primary liver cancer is an important cause of cancer death, and hepatocellular carcinoma (HCC) accounts for 70%-85% of total liver cancer worldwide. Chronic hepatitis B virus (HBV) infection contributes to 〉 75% ...Primary liver cancer is an important cause of cancer death, and hepatocellular carcinoma (HCC) accounts for 70%-85% of total liver cancer worldwide. Chronic hepatitis B virus (HBV) infection contributes to 〉 75% of HCC cases. High serum viral load is the most reliable indicator of viral replication in predicting development of HCC. HBV genotype C is closely associated with HCC in cirrhotic patients aged 〉 50 years, whereas genotype B is associated with development of HCC in non-cirrhotic young patients and postoperative relapse of HCC. Different HBV subgenotypes have distinct patterns of mutations, which are clearly associated with increased risk of HCC. Mutations accumulate during chronic HBV infection and predict occurrence of HCC. Chronic inflammation leads to increased frequency of viral mutation via cellular cytidine deaminase induction. Mutations are negatively selected by host immunity, whereas some immuno-escaped HBV mutants are active in hepatocarcinogenesis. Inflammatory pathways contribute to the inflammation-necrosis-regeneration process, ultimately HCC. Their hallmark molecules can predict malignancy in HBV-infected subjects. Continuing inflammation is involved in hepatocarcinogenesis and closely related to recurrence and metastasis. HBV load, genotype C, viral mutations and expression of inflammatory molecules in HBV-related HCC tissues are significantly associated with poor prognosis. Imbalance between intratumoral CD8^+T cells and regulatory T cells or Thl and Th2 cytokines in peritumoral tissues can predict prognosis of HBV-related HCC. These factors are important for developing active prevention and surveillance of HBV-infected subjects who are more likely to develop HCC, or for tailoring suitable treatment to improve survival or postpone postoperative recurrence of HCC.展开更多
Objective To investigate cumulative results of chemosensitivity test using 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyl (MTT) assay in double-layer agarose. Methods A total of 2 491 patients with different kinds of c...Objective To investigate cumulative results of chemosensitivity test using 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyl (MTT) assay in double-layer agarose. Methods A total of 2 491 patients with different kinds of cancers were enrolled in the study, in which 18 kinds of different anticancer drugs were used. A computer soft was used to get charts. ResultsThe total evaluability rate was 82.7% (2 060/2 491). Among all agents, the efficiency rates of 5-Fu, MMC, DDP, BLM and CBP were higher than the efficiency rates of others. The response rate range of different cancer in vitro sensitivity by using MTT assay in double layer agarose were from 9.2% (biliary duct) to 37.5% (malignant lymphoma). For colon and rectum cancer, 5-Fu, DDP, MMC and BLM were more sensitive than other anti-tumor agents. For breast carcinomas, ACTD and DDP were more sensitive. For gastric cancer, 5-Fu, DDP and BLM were more sensitive. For leukemia, VM-26 and HHRT were more sensitive. ACM was more sensitive to kidney and MXT and BLM were more sensitive to pancreas cancer. For Lung cancer, DDP and EPI were more sensitive. Mean true positive rate, mean true negative rate, mean sensitivity, mean specificity and mean accuracy were 44% , 92% , 72% , 77% , and 76% , respectively. Conclusion Chemosensitivity tesing using the MTT assay in a double layer agarose was a very useful reference to chem- therapy.展开更多
For the stochastic structure with stochastic excitation, an advanced stratified line sampling (SLS) method is presented to obtain the cumulative distribution function (CDF) of the structural response and its sensitivi...For the stochastic structure with stochastic excitation, an advanced stratified line sampling (SLS) method is presented to obtain the cumulative distribution function (CDF) of the structural response and its sensitivity. The advanced stratified line sampling method introduces a set of middle failure subsets firstly. And for each subset, the conventional line sampling can be used to obtain the corresponding value of the response's CDF. At the same time, the sensitivity estimations of each failure subset can also be computed by modifying the important direction and corresponding reliability coefficients. The properties of CDF sensitivity are proved while the performance function is linear with normal random variables. After two simple examples are used to demonstrate the properties of CDF sensitivity and the feasibility of the presented method, the method employed to analyze the CDF and corresponding sensitivity of root bending moment (RBM) responses for the stochastic BAH is wing with gust excitation to a square-edged gust and to a Dryden gust. The results show that the parameters of the second and the fifth order modals exert more influence on the CDF of response than the other ones, and the presented SLS method can more significantly reduce the computational cost compared with Monte Carlo simulation (MCS).展开更多
基金Supported by National Natural Science Foundation of China,No. 81025015 and No. 30921006
文摘Primary liver cancer is an important cause of cancer death, and hepatocellular carcinoma (HCC) accounts for 70%-85% of total liver cancer worldwide. Chronic hepatitis B virus (HBV) infection contributes to 〉 75% of HCC cases. High serum viral load is the most reliable indicator of viral replication in predicting development of HCC. HBV genotype C is closely associated with HCC in cirrhotic patients aged 〉 50 years, whereas genotype B is associated with development of HCC in non-cirrhotic young patients and postoperative relapse of HCC. Different HBV subgenotypes have distinct patterns of mutations, which are clearly associated with increased risk of HCC. Mutations accumulate during chronic HBV infection and predict occurrence of HCC. Chronic inflammation leads to increased frequency of viral mutation via cellular cytidine deaminase induction. Mutations are negatively selected by host immunity, whereas some immuno-escaped HBV mutants are active in hepatocarcinogenesis. Inflammatory pathways contribute to the inflammation-necrosis-regeneration process, ultimately HCC. Their hallmark molecules can predict malignancy in HBV-infected subjects. Continuing inflammation is involved in hepatocarcinogenesis and closely related to recurrence and metastasis. HBV load, genotype C, viral mutations and expression of inflammatory molecules in HBV-related HCC tissues are significantly associated with poor prognosis. Imbalance between intratumoral CD8^+T cells and regulatory T cells or Thl and Th2 cytokines in peritumoral tissues can predict prognosis of HBV-related HCC. These factors are important for developing active prevention and surveillance of HBV-infected subjects who are more likely to develop HCC, or for tailoring suitable treatment to improve survival or postpone postoperative recurrence of HCC.
文摘Objective To investigate cumulative results of chemosensitivity test using 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyl (MTT) assay in double-layer agarose. Methods A total of 2 491 patients with different kinds of cancers were enrolled in the study, in which 18 kinds of different anticancer drugs were used. A computer soft was used to get charts. ResultsThe total evaluability rate was 82.7% (2 060/2 491). Among all agents, the efficiency rates of 5-Fu, MMC, DDP, BLM and CBP were higher than the efficiency rates of others. The response rate range of different cancer in vitro sensitivity by using MTT assay in double layer agarose were from 9.2% (biliary duct) to 37.5% (malignant lymphoma). For colon and rectum cancer, 5-Fu, DDP, MMC and BLM were more sensitive than other anti-tumor agents. For breast carcinomas, ACTD and DDP were more sensitive. For gastric cancer, 5-Fu, DDP and BLM were more sensitive. For leukemia, VM-26 and HHRT were more sensitive. ACM was more sensitive to kidney and MXT and BLM were more sensitive to pancreas cancer. For Lung cancer, DDP and EPI were more sensitive. Mean true positive rate, mean true negative rate, mean sensitivity, mean specificity and mean accuracy were 44% , 92% , 72% , 77% , and 76% , respectively. Conclusion Chemosensitivity tesing using the MTT assay in a double layer agarose was a very useful reference to chem- therapy.
基金the National Nature Science Foundation of China (Grant No. 51175425)the Aviation Science Foundation (Grant No. 2011ZA53015)+1 种基金the Aerospace Science and Technology Innovative Foundation (Grant No. 2011200093)the Nature Science Basic Research Fund of Shaanxi Province (Grant No. 2012JQ1015)
文摘For the stochastic structure with stochastic excitation, an advanced stratified line sampling (SLS) method is presented to obtain the cumulative distribution function (CDF) of the structural response and its sensitivity. The advanced stratified line sampling method introduces a set of middle failure subsets firstly. And for each subset, the conventional line sampling can be used to obtain the corresponding value of the response's CDF. At the same time, the sensitivity estimations of each failure subset can also be computed by modifying the important direction and corresponding reliability coefficients. The properties of CDF sensitivity are proved while the performance function is linear with normal random variables. After two simple examples are used to demonstrate the properties of CDF sensitivity and the feasibility of the presented method, the method employed to analyze the CDF and corresponding sensitivity of root bending moment (RBM) responses for the stochastic BAH is wing with gust excitation to a square-edged gust and to a Dryden gust. The results show that the parameters of the second and the fifth order modals exert more influence on the CDF of response than the other ones, and the presented SLS method can more significantly reduce the computational cost compared with Monte Carlo simulation (MCS).
