Objective: The aim of the present study was to further evaluate the clinical value of single or joint of golgi protein 73 (GP73) and alphafetoprotein (AFP) in diagnosis of hepatocellular (HCC). Methods: One hundred an...Objective: The aim of the present study was to further evaluate the clinical value of single or joint of golgi protein 73 (GP73) and alphafetoprotein (AFP) in diagnosis of hepatocellular (HCC). Methods: One hundred and eighteen, 94 and 47 serum samples from the patients with HCC, chronic liver disease (CLD) and liver cirrhosis (LC) were collected, respectively. Serum levels of AFP and GP73 were assayed with commercial kit according to the manufacturer's instructions. Results: Patients with HCC had higher serum concentration of AFP than that of the patients with CLD (P < 0.01), but was similar to that of the patients with LC. Serum GP73 levels in the patients with CLD or LC were significantly lower than that in the patients from HCC group (P < 0.01). Among 118 HCC patients, the positive rate of GP73 and AFP was 80.5% and 48.3%, respectively (P < 0.001). The ROC curve analysis showed that the AUC value of GP73 was higher than that of serum AFP. Moreover, the sensitivity and the accuracy of GP73 were 77.1% and 82.6%, respectively, which were greater more than that of AFP at 90% specificity (28.8% and 59.8%, respectively). The AUC, the sensitivity and the accuracy of GP73 in combination of AFP (AFP/GP73) were 0.855, 78.0% and 83.0%, respectively, which were similar to that of GP73 alone but were much higher than that of the single marker AFP. Conclusion: For HCC diagnosing, GP73 was more sensitive and specific than AFP. The diagnostic value of AFP/GP73 was similar to GP73 but was much higher than AFP.展开更多
Due to the non-linearity in ozone(O_(3))formation,reducing the emission of nitrogen oxides(NO_(x))may increase O_(3) concentration.Given the counteractive O_(3) response to NO_(x) reduction,overall impact of air pollu...Due to the non-linearity in ozone(O_(3))formation,reducing the emission of nitrogen oxides(NO_(x))may increase O_(3) concentration.Given the counteractive O_(3) response to NO_(x) reduction,overall impact of air pollution controls can be ambiguous when the assessments focus on the changes in pollutant concentrations.In this study,a risk-based method was used to gauge the net effect of air pollution controls on mortality risk in the Beijing–Tianjin–Hebei(BTH)region during the 2022 Winter Olympics and Paralympics(WOP).This mega-event presents a unique opportunity to investigate the efficacy of deep cuts in pollutant emissions.Results show that O_(3) concentrations greatly increased as nitrogen dioxide(NO_(2))concentrations decreased in the BTH.Due to the active photochemical formations,O_(3) became the dominant pollutant that affected human health during the WOP.Despite the substantial O_(3) increases,the health benefits of NO_(2) reductions overwhelmed the adverse health effects of O_(3) increases in most regions of the BTH(at 81 out of 112 stations).After considering the impacts of particulate matter,the integrated health risk of air pollution mixtures declined almost everywhere in the BTH.Our results underscore the great necessity of changing the assessment paradigm of pollution control from using concentration-based methods to using risk-based methods.Together with the carbon neutrality policy,stringent control of NO_(x)emission from combustion sources is a promising way to achieve synergistic control solutions for air pollution and climate change.展开更多
Defects formed at the surface,buried interface and grain boundaries(GB)of CsPbI_(3)perovskite films considerably limit photovoltaic performance.Such defects could be passivated effectively by the most prevalent post m...Defects formed at the surface,buried interface and grain boundaries(GB)of CsPbI_(3)perovskite films considerably limit photovoltaic performance.Such defects could be passivated effectively by the most prevalent post modification strategy without compromising the photoelectric properties of perovskite films,but it is still a great challenge to make this strategy comprehensive to different defects spatially distributed throughout the films.Herein,a spatially selective defect management(SSDM)strategy is developed to roundly passivate various defects at different locations within the perovskite film by a facile one-step treatment procedure using a piperazine-1,4-diium tetrafluoroborate(PZD(BF_(4))_(2))solution.The small-size PZD^(2+)cations could penetrate into the film interior and even make it all the way to the buried interface of CsPbI_(3)perovskite films,while the BF_(4)^(-)anions,with largely different properties from I^(-)anions,mainly anchor on the film surface.Consequently,virtually all the defects at the surface,buried interface and grain boundaries of CsPbI_(3)perovskite films are effectively healed,leading to significantly improved film quality,enhanced phase stability,optimized energy level alignment and promoted carrier transport.With these films,the fabricated CsPbI_(3)PSCs based on carbon electrode(C-PSCs)achieve an efficiency of18.27%,which is among the highest-reported values for inorganic C-PSCs,and stability of 500 h at 85℃with 65%efficiency maintenance.展开更多
Traditional air quality data have a spatial resolution of 1 km or above, making it challenging to resolve detailed air pollution exposure in complex urban areas. Combining urban morphology, dynamic traffic emission, r...Traditional air quality data have a spatial resolution of 1 km or above, making it challenging to resolve detailed air pollution exposure in complex urban areas. Combining urban morphology, dynamic traffic emission, regional and local meteorology, physicochemical transformations in air quality models using big data fusion technology, an ultra-fine resolution modeling system was developed to provide air quality data down to street level. Based on one-year ultra-fine resolution data, this study investigated the effects of pollution heterogeneity on the individual and population exposure to particulate matter(PM_(2.5)and PM_(10)),nitrogen dioxide(NO_(2)), and ozone(O_(3)) in Hong Kong, one of the most densely populated and urbanized cities. Sharp fine-scale variabilities in air pollution were revealed within individual city blocks. Using traditional 1 km average to represent individual exposure resulted in a positively skewed deviation of up to 200% for high-end exposure individuals. Citizens were disproportionally affected by air pollution, with annual pollutant concentrations varied by factors of 2 to 5 among 452 District Council Constituency Areas(DCCAs) in Hong Kong, indicating great environmental inequities among the population. Unfavorable city planning resulted in a positive spatial coincidence between pollution and population, which increased public exposure to air pollutants by as large as 46% among districts in Hong Kong. Our results highlight the importance of ultra-fine pollutant data in quantifying the heterogeneity in pollution exposure in the dense urban area and the critical role of smart urban planning in reducing exposure inequities.展开更多
基金Supported by a grant from the International Collaboration Program from Nanjing Science and Technology Bureau (No. 201001139)
文摘Objective: The aim of the present study was to further evaluate the clinical value of single or joint of golgi protein 73 (GP73) and alphafetoprotein (AFP) in diagnosis of hepatocellular (HCC). Methods: One hundred and eighteen, 94 and 47 serum samples from the patients with HCC, chronic liver disease (CLD) and liver cirrhosis (LC) were collected, respectively. Serum levels of AFP and GP73 were assayed with commercial kit according to the manufacturer's instructions. Results: Patients with HCC had higher serum concentration of AFP than that of the patients with CLD (P < 0.01), but was similar to that of the patients with LC. Serum GP73 levels in the patients with CLD or LC were significantly lower than that in the patients from HCC group (P < 0.01). Among 118 HCC patients, the positive rate of GP73 and AFP was 80.5% and 48.3%, respectively (P < 0.001). The ROC curve analysis showed that the AUC value of GP73 was higher than that of serum AFP. Moreover, the sensitivity and the accuracy of GP73 were 77.1% and 82.6%, respectively, which were greater more than that of AFP at 90% specificity (28.8% and 59.8%, respectively). The AUC, the sensitivity and the accuracy of GP73 in combination of AFP (AFP/GP73) were 0.855, 78.0% and 83.0%, respectively, which were similar to that of GP73 alone but were much higher than that of the single marker AFP. Conclusion: For HCC diagnosing, GP73 was more sensitive and specific than AFP. The diagnostic value of AFP/GP73 was similar to GP73 but was much higher than AFP.
基金supported by the NSFC/RGC Joint Research Project (Nos.42161160329 and N_HKUST609/21)the Research Grants Council of Hong Kong (Nos.GRF 16202120 and T24/504/17)the Special Fund Project for Science and Technology Innovation Strategy of Guangdong Province (No.2019B121205004)。
文摘Due to the non-linearity in ozone(O_(3))formation,reducing the emission of nitrogen oxides(NO_(x))may increase O_(3) concentration.Given the counteractive O_(3) response to NO_(x) reduction,overall impact of air pollution controls can be ambiguous when the assessments focus on the changes in pollutant concentrations.In this study,a risk-based method was used to gauge the net effect of air pollution controls on mortality risk in the Beijing–Tianjin–Hebei(BTH)region during the 2022 Winter Olympics and Paralympics(WOP).This mega-event presents a unique opportunity to investigate the efficacy of deep cuts in pollutant emissions.Results show that O_(3) concentrations greatly increased as nitrogen dioxide(NO_(2))concentrations decreased in the BTH.Due to the active photochemical formations,O_(3) became the dominant pollutant that affected human health during the WOP.Despite the substantial O_(3) increases,the health benefits of NO_(2) reductions overwhelmed the adverse health effects of O_(3) increases in most regions of the BTH(at 81 out of 112 stations).After considering the impacts of particulate matter,the integrated health risk of air pollution mixtures declined almost everywhere in the BTH.Our results underscore the great necessity of changing the assessment paradigm of pollution control from using concentration-based methods to using risk-based methods.Together with the carbon neutrality policy,stringent control of NO_(x)emission from combustion sources is a promising way to achieve synergistic control solutions for air pollution and climate change.
基金supported by the National Natural Science Foundation of China(21875013,U2001217)the Beijing Natural Science Foundation(2182031)Shenzhen Basic Research(JCYJ20220818101018038)。
文摘Defects formed at the surface,buried interface and grain boundaries(GB)of CsPbI_(3)perovskite films considerably limit photovoltaic performance.Such defects could be passivated effectively by the most prevalent post modification strategy without compromising the photoelectric properties of perovskite films,but it is still a great challenge to make this strategy comprehensive to different defects spatially distributed throughout the films.Herein,a spatially selective defect management(SSDM)strategy is developed to roundly passivate various defects at different locations within the perovskite film by a facile one-step treatment procedure using a piperazine-1,4-diium tetrafluoroborate(PZD(BF_(4))_(2))solution.The small-size PZD^(2+)cations could penetrate into the film interior and even make it all the way to the buried interface of CsPbI_(3)perovskite films,while the BF_(4)^(-)anions,with largely different properties from I^(-)anions,mainly anchor on the film surface.Consequently,virtually all the defects at the surface,buried interface and grain boundaries of CsPbI_(3)perovskite films are effectively healed,leading to significantly improved film quality,enhanced phase stability,optimized energy level alignment and promoted carrier transport.With these films,the fabricated CsPbI_(3)PSCs based on carbon electrode(C-PSCs)achieve an efficiency of18.27%,which is among the highest-reported values for inorganic C-PSCs,and stability of 500 h at 85℃with 65%efficiency maintenance.
基金sponsored by the HSBC 150th Anniversary Charity Programme through the PRAISE-HK projectsupported by the Research Grants Council of Hong Kong (Project Nos. GRF 16202120 and T31-603/21-N)+1 种基金the NSFC/RGC Joint Research Scheme (Grant No. N_HKUST609/21)the Special Fund Project for Science and Technology Innovation Strategy of Guangdong Province (Grant No. 2019B121205004)。
文摘Traditional air quality data have a spatial resolution of 1 km or above, making it challenging to resolve detailed air pollution exposure in complex urban areas. Combining urban morphology, dynamic traffic emission, regional and local meteorology, physicochemical transformations in air quality models using big data fusion technology, an ultra-fine resolution modeling system was developed to provide air quality data down to street level. Based on one-year ultra-fine resolution data, this study investigated the effects of pollution heterogeneity on the individual and population exposure to particulate matter(PM_(2.5)and PM_(10)),nitrogen dioxide(NO_(2)), and ozone(O_(3)) in Hong Kong, one of the most densely populated and urbanized cities. Sharp fine-scale variabilities in air pollution were revealed within individual city blocks. Using traditional 1 km average to represent individual exposure resulted in a positively skewed deviation of up to 200% for high-end exposure individuals. Citizens were disproportionally affected by air pollution, with annual pollutant concentrations varied by factors of 2 to 5 among 452 District Council Constituency Areas(DCCAs) in Hong Kong, indicating great environmental inequities among the population. Unfavorable city planning resulted in a positive spatial coincidence between pollution and population, which increased public exposure to air pollutants by as large as 46% among districts in Hong Kong. Our results highlight the importance of ultra-fine pollutant data in quantifying the heterogeneity in pollution exposure in the dense urban area and the critical role of smart urban planning in reducing exposure inequities.