Epidermal growth factor receptor(EGFR) gene mutation and copy number are useful predictive markers that guide the selection of non-small cell lung cancer(NSCLC) patients for EGFR-targeting therapy.This study aimed to ...Epidermal growth factor receptor(EGFR) gene mutation and copy number are useful predictive markers that guide the selection of non-small cell lung cancer(NSCLC) patients for EGFR-targeting therapy.This study aimed to investigate the correlation between EGFR gene mutation and copy number and clinicopathologic characteristics of Chinese patients with NSCLC.NSCLC specimens collected from 205 patients between November 2009 and January 2011 were selected to detect EGFR gene mutations with real-time polymerase chain reaction(RT-PCR) and to detect EGFR gene copy number with fluorescence in situ hybridization(FISH).EGFR mutations primarily occurred in females,non-smokers,and patients with adenocarinomas(all P < 0.001).Tissues from 128(62%) patients were FISH-positive for EGFR,including 37(18%) with gene amplification and 91(44%) with high polysomy.EGFR gene mutation was correlated with FISH-positive status(R = 0.340,P < 0.001).Multivariate analysis showed that not smoking(OR = 5.910,95% CI = 2.363-14.779,P < 0.001) and having adenocarcinoma(OR = 0.122,95% CI = 0.026-0.581,P = 0.008) were favorable factors for EGFR gene mutation.These results show a high frequency of EGFR FISH positivity in NSCLC tissues from Chinese patients and a significant relevance between EGFR gene mutations and FISH-positive status.Among the FISH-positive samples,EGFR gene mutation occurred more frequently in samples with gene amplification compared to those with high polysomy,suggesting that EGFR mutation and gene amplification should be used as clinical decision parameters to predict response to EGFR-targeting therapy.展开更多
Response criteria remain controversial in therapeutic evaluation for locally advanced esophageal carcinoma treated with neoadjuvant chemotherapy.We aimed to identify the predictive value of tumor regression grading(TR...Response criteria remain controversial in therapeutic evaluation for locally advanced esophageal carcinoma treated with neoadjuvant chemotherapy.We aimed to identify the predictive value of tumor regression grading(TRG) in tumor response and prognosis.Fifty-two patients who underwent neoadjuvant chemotherapy followed by esophagectomy and radical 2-field lymphadenectomy between June 2007 and June 2011 were included in this study.All tissue specimens were reassessed according to the TRG scale.Potential prognostic factors,including clinicopathologic factors,were evaluated.Survival curves were generated by using the Kaplan-Meier method and compared with the log-rank test.Prognostic factors were determined with multivariate analysis by using the Cox regression model.Our results showed that of 52 cases,43(83%) were squamous cell carcinoma and 9(17%) were adenocarcinoma.TRG was correlated with pathologic T(P = 0.006) and N(P < 0.001) categories.Median overall survival for the entire cohort was 33 months.The 1-and 2-year overall survival rates were 71% and 44%,respectively.Univariate survival analysis results showed that favorable prognostic factors were histological subtype(P = 0.003),pathologic T category(P = 0.026),pathologic N category(P < 0.001),and TRG G0(P = 0.041).Multivariate analyses identified pathologic N category(P < 0.001) as a significant independent prognostic parameter.Our results indicate that histomorphologic TRG can be considered as an alternative option to predict the therapeutic efficacy and prognostic factor for patients with locally advanced esophageal carcinoma treated by neoadjuvant chemotherapy.展开更多
Evolution of placental mammals over the past 160 million years witnesses the relative sparing of muscles from cancer attacks. In 1) nude mice with human gastrointestinal or lung tumors, and 2) human subjects with live...Evolution of placental mammals over the past 160 million years witnesses the relative sparing of muscles from cancer attacks. In 1) nude mice with human gastrointestinal or lung tumors, and 2) human subjects with liver, lung or gastrointestinal tumors, intra-tumor implantation of allogeneic human myoblasts induced cancer apoptosis, inhibiting metastasis and tumor growth. We postulate four mechanisms of cancer apoptosis: a) myoblasts releasing tumor necrosis factor-α (TNF-α);b) deprivation of nutrients and oxygen;c) local inflammatory and immunologic attacks;and d) prevention from metastasis. These basic and clinical studies demonstrated preliminary safety and efficacy of intra-tumor myoblast implantation in the development of prevention and treatment for cancer, now the number one disease killer of mankind.展开更多
Traumatic brain injury(TBI)triggers the activation of the endogenous coagulation mechanism,and a large amount of thrombin is released to curb uncontrollable bleeding through thrombin receptors,also known as protease-a...Traumatic brain injury(TBI)triggers the activation of the endogenous coagulation mechanism,and a large amount of thrombin is released to curb uncontrollable bleeding through thrombin receptors,also known as protease-activated receptors(PARs).However,thrombin is one of the most critical factors in secondary brain injury.Thus,the PARs may be effective targets against hemorrhagic brain injury.Since the PAR1 antagonist has an increased bleeding risk in clinical practice,PAR4 blockade has been suggested as a more promising treatment.Here,we explored the expression pattern of PAR4 in the brain of mice after TBI,and explored the effect and possible mechanism of BMS-986120(BMS),a novel selective and reversible PAR4 antagonist on secondary brain injury.Treatment with BMS protected against TBI in mice.mRNA-seq analysis,Western blot,and qRT-PCR verification in vitro showed that BMS significantly inhibited thrombin-induced inflammation in astrocytes,and suggested that the Tab2/ERK/NF-κB signaling pathway plays a key role in this process.Our findings provide reliable evidence that blocking PAR4 is a safe and effective intervention for TBI,and suggest that BMS has a potential clinical application in the management of TBI.展开更多
Over the past two decades, research on transforming lignocellulosic biomass into small molecule chemicals byusing catalytic liquefaction has made great progress. Notably, in recent years it has been found the producti...Over the past two decades, research on transforming lignocellulosic biomass into small molecule chemicals byusing catalytic liquefaction has made great progress. Notably, in recent years it has been found the production of smallmolecule chemicals through directional liquefaction of lignocellulosic biomass. Understanding the liquefactionmechanism of lignocellulosic biomass is highly important. In this review, the liquefaction mechanism of lignocellulosicbiomass and model compounds of cellulose are described, and some problems and suggestions to address them aredescribed.展开更多
Epoxy resins are a group of important materials that have been used everywhere,and development of new materials of this kind with optimal mechanical properties from either bio-resources or industrial precursors has dr...Epoxy resins are a group of important materials that have been used everywhere,and development of new materials of this kind with optimal mechanical properties from either bio-resources or industrial precursors has drawn great focus from scientists and engineers.By reacting different kinds of epoxy adhesives and curatives,massive kinds of epoxy resins with different characteristics are produced.Determination of original mixing ratio of epoxy adhesives and corresponding curatives of their curing products is useful in controlling and examining these materials.Here in this work,we described an efficient method based on Raman spectrometry and machine learning algorithms for rapid molar composition determination of epoxy resins.Original mixing ratio of epoxy adhesives and curatives could be calculated simply via Raman spectra of the products.Raman spectral data scanned during curing procedure was fed to random forest(RF)classification to calculate weights of Raman shift features and reduce data dimensionality,then spectral data of selected features were processed by partial least squares regression(PLSR)for model training and composition ratio determination.It turned out that ratio predictions of our model fit well to their actual values,with a coefficient of determination(R2)of 0.9926,and a root mean squared error(RMSE)of 0.0305.展开更多
基金supported by grants from the Ministry of Science and Technology of China (No.2006AA02A401)
文摘Epidermal growth factor receptor(EGFR) gene mutation and copy number are useful predictive markers that guide the selection of non-small cell lung cancer(NSCLC) patients for EGFR-targeting therapy.This study aimed to investigate the correlation between EGFR gene mutation and copy number and clinicopathologic characteristics of Chinese patients with NSCLC.NSCLC specimens collected from 205 patients between November 2009 and January 2011 were selected to detect EGFR gene mutations with real-time polymerase chain reaction(RT-PCR) and to detect EGFR gene copy number with fluorescence in situ hybridization(FISH).EGFR mutations primarily occurred in females,non-smokers,and patients with adenocarinomas(all P < 0.001).Tissues from 128(62%) patients were FISH-positive for EGFR,including 37(18%) with gene amplification and 91(44%) with high polysomy.EGFR gene mutation was correlated with FISH-positive status(R = 0.340,P < 0.001).Multivariate analysis showed that not smoking(OR = 5.910,95% CI = 2.363-14.779,P < 0.001) and having adenocarcinoma(OR = 0.122,95% CI = 0.026-0.581,P = 0.008) were favorable factors for EGFR gene mutation.These results show a high frequency of EGFR FISH positivity in NSCLC tissues from Chinese patients and a significant relevance between EGFR gene mutations and FISH-positive status.Among the FISH-positive samples,EGFR gene mutation occurred more frequently in samples with gene amplification compared to those with high polysomy,suggesting that EGFR mutation and gene amplification should be used as clinical decision parameters to predict response to EGFR-targeting therapy.
基金supported by a grant from the National Key Technology Research and Development Program of China (No.2006AA02A403)
文摘Response criteria remain controversial in therapeutic evaluation for locally advanced esophageal carcinoma treated with neoadjuvant chemotherapy.We aimed to identify the predictive value of tumor regression grading(TRG) in tumor response and prognosis.Fifty-two patients who underwent neoadjuvant chemotherapy followed by esophagectomy and radical 2-field lymphadenectomy between June 2007 and June 2011 were included in this study.All tissue specimens were reassessed according to the TRG scale.Potential prognostic factors,including clinicopathologic factors,were evaluated.Survival curves were generated by using the Kaplan-Meier method and compared with the log-rank test.Prognostic factors were determined with multivariate analysis by using the Cox regression model.Our results showed that of 52 cases,43(83%) were squamous cell carcinoma and 9(17%) were adenocarcinoma.TRG was correlated with pathologic T(P = 0.006) and N(P < 0.001) categories.Median overall survival for the entire cohort was 33 months.The 1-and 2-year overall survival rates were 71% and 44%,respectively.Univariate survival analysis results showed that favorable prognostic factors were histological subtype(P = 0.003),pathologic T category(P = 0.026),pathologic N category(P < 0.001),and TRG G0(P = 0.041).Multivariate analyses identified pathologic N category(P < 0.001) as a significant independent prognostic parameter.Our results indicate that histomorphologic TRG can be considered as an alternative option to predict the therapeutic efficacy and prognostic factor for patients with locally advanced esophageal carcinoma treated by neoadjuvant chemotherapy.
文摘Evolution of placental mammals over the past 160 million years witnesses the relative sparing of muscles from cancer attacks. In 1) nude mice with human gastrointestinal or lung tumors, and 2) human subjects with liver, lung or gastrointestinal tumors, intra-tumor implantation of allogeneic human myoblasts induced cancer apoptosis, inhibiting metastasis and tumor growth. We postulate four mechanisms of cancer apoptosis: a) myoblasts releasing tumor necrosis factor-α (TNF-α);b) deprivation of nutrients and oxygen;c) local inflammatory and immunologic attacks;and d) prevention from metastasis. These basic and clinical studies demonstrated preliminary safety and efficacy of intra-tumor myoblast implantation in the development of prevention and treatment for cancer, now the number one disease killer of mankind.
基金This work was supported by grants from the National Natural Science Foundation of China(81630027,81571215)the Chang Jiang Scholar Program of China。
文摘Traumatic brain injury(TBI)triggers the activation of the endogenous coagulation mechanism,and a large amount of thrombin is released to curb uncontrollable bleeding through thrombin receptors,also known as protease-activated receptors(PARs).However,thrombin is one of the most critical factors in secondary brain injury.Thus,the PARs may be effective targets against hemorrhagic brain injury.Since the PAR1 antagonist has an increased bleeding risk in clinical practice,PAR4 blockade has been suggested as a more promising treatment.Here,we explored the expression pattern of PAR4 in the brain of mice after TBI,and explored the effect and possible mechanism of BMS-986120(BMS),a novel selective and reversible PAR4 antagonist on secondary brain injury.Treatment with BMS protected against TBI in mice.mRNA-seq analysis,Western blot,and qRT-PCR verification in vitro showed that BMS significantly inhibited thrombin-induced inflammation in astrocytes,and suggested that the Tab2/ERK/NF-κB signaling pathway plays a key role in this process.Our findings provide reliable evidence that blocking PAR4 is a safe and effective intervention for TBI,and suggest that BMS has a potential clinical application in the management of TBI.
文摘Over the past two decades, research on transforming lignocellulosic biomass into small molecule chemicals byusing catalytic liquefaction has made great progress. Notably, in recent years it has been found the production of smallmolecule chemicals through directional liquefaction of lignocellulosic biomass. Understanding the liquefactionmechanism of lignocellulosic biomass is highly important. In this review, the liquefaction mechanism of lignocellulosicbiomass and model compounds of cellulose are described, and some problems and suggestions to address them aredescribed.
基金National Natural Science Foundation of China(No.31670577).
文摘Epoxy resins are a group of important materials that have been used everywhere,and development of new materials of this kind with optimal mechanical properties from either bio-resources or industrial precursors has drawn great focus from scientists and engineers.By reacting different kinds of epoxy adhesives and curatives,massive kinds of epoxy resins with different characteristics are produced.Determination of original mixing ratio of epoxy adhesives and corresponding curatives of their curing products is useful in controlling and examining these materials.Here in this work,we described an efficient method based on Raman spectrometry and machine learning algorithms for rapid molar composition determination of epoxy resins.Original mixing ratio of epoxy adhesives and curatives could be calculated simply via Raman spectra of the products.Raman spectral data scanned during curing procedure was fed to random forest(RF)classification to calculate weights of Raman shift features and reduce data dimensionality,then spectral data of selected features were processed by partial least squares regression(PLSR)for model training and composition ratio determination.It turned out that ratio predictions of our model fit well to their actual values,with a coefficient of determination(R2)of 0.9926,and a root mean squared error(RMSE)of 0.0305.