Deseasonalized trend of ground-level ozone and its precursors in an industrial city Kaohsiung, Taiwan.

Mitigating ground-level ozone (GLO) remains challenging due to its highly nonlinear formation process. Thus, understanding GLO pollution trends is crucial for developing effective control strategies, especially Kaohsiung industrial city, Taiwan. Based on the long-term monitoring data set of 2011-2022, temporal analysis reveals that monthly mean GLO peaks in autumn (40.66 ± 5.10 ppb), carbon monoxide (CO) and major precursors such as nitrogen oxides (NOx), nonmethane hydrocarbons (NMHC) reach their highest levels in winter. The distinct seasonal variation of air pollutants in Kaohsiung is primarily influenced by the unique blocking effect of the mountainous area under the northeasterly wind, as the city is situated downwind, causing high GLO levels during autumn due to the accumulation of stagnant air hindering the dispersion of pollutants. Over the 12 years (2011-2022), the deseasonalized trend analysis was conducted with p < 0.001, revealing a stabilization trend of GLO (+0.04 ppb/yr) from a previous sharp increase. The observed improvement is credited to a drastic decrease in total oxidants (Ox) at -0.63 ppb/yr due to significantly reducing their precursors. Furthermore, the effectiveness of precursor reduction is also supported by GLO daily maximum profile changes. While high GLO events (>120 ppb) decrease, days within midrange (60-80 ppb) rise from 24.4% to 33.3%. A notable difference emerges when comparing daytime and nighttime GLO. While daytime GLO decreased at -0.22 ppb/yr, nighttime GLO increased at +0.34 ppb/yr. Weakened nocturnal titration effects accounted for the nighttime increase. The distinct spatial variations in GLO trends on a citywide scale underscore that areas with complicated industrial activities may not benefit from a continuing reduction of precursors compared to less-polluted areas. The findings of this study hold significant implications for improving GLO control strategies in heavily industrialized city and provide valuable information to the general public about the current state of GLO pollution.

Trends in death and life lost due to bladder cancer in Suzhou Cityfrom 2003 to 2022 / 预防医学

Objective @#To analyze the trends in mortality and life lost due to bladder cancer in Suzhou City, Jiangsu Province from 2003 to 2022, so as to provide the reference for prevention and treatment strategy of bladder cancer.@*Methods@# The data of bladder cancer death in Suzhou City from 2003 to 2022 were collected through Suzhou Residents' Death Registration System, including age, gender, date of death and underlying cause of death. The crude mortality, standardized mortality, years of potential life lost (PYLL), standardized years of potential life lost (SPYLL), years of potential life lost rate (PYLLR), standardized years of potential life lost rate (SPYLLR) and average years of life lost (AYLL) were calculated. The average annual percent change (AAPC) was used to analyze the trends in bladder cancer death and life lost. @*Results@#Totally 2 978 deaths occurred due to bladder cancer in Suzhou City from 2003 to 2022. The crude mortality was 2.22/105, which appeared a tendency towards a rise (AAPC=4.271%, P<0.05). The standardized mortality was 0.91/105, which appeared no significant changing trend (P>0.05). The standardized mortality was 1.58/105 in males and 0.37/105 in females, which appeared no significant tendency in males (P>0.05) and appeared a tendency towards a decline in females (AAPC=-2.331%, P<0.05). The age-specific crude mortality was low among people who aged under 45 years, began to rise among people aged over 45 years and peaked among people aged 60 years and older. The crude mortality of bladder cancer in males aged 60 years and older showed an increasing trend (AAPC=2.864%, P<0.05), but there was no significant tendency in females aged 60 years and older (P>0.05). The PYLL, SPYLL, PYLLR, SPYLLR and AYLL of bladder cancer were 5 020.00 person-years, 2 945.14 person-years, 0.04‰, 0.03‰ and 9.07 years per person. SPYLL, SPYLLR and AYLL showed an decreasing trend (AAPC=-2.867%, -3.321%, -3.738%, P<0.05). @*Conclusions@#The mortality of bladder cancer in Suzhou City appeared a tendency towards a rise from 2003 to 2022. The PYLL appeared a downward trend. Males aged 60 years and older are the key groups for the prevention and control of bladder cancer.

Persistent Halogenated Organic Pollutants in Deep-Water-Deposited Particulates from South China Sea.

POP data are limited in the marine environment; thus, this study aimed to investigate background persistent organic pollutant (POP) levels in oceanic deep-water-deposited particulates in the South China Sea (SCS). Six POPs, including polychlorinated dibenzo-p-dioxins/dibenzofurans (PCDD/Fs), dioxin-like polychlorinated biphenyls (DL-PCBs), polybrominated diphenyl ethers (PBDEs), polybrominated dibenzo-p-dioxins/dibenzofurans (PBDD/Fs), polychlorinated diphenyl ethers (PCDEs), and polybrominated biphenyls (PBBs), were investigated in eight pooled samples from the SCS from 20 September 2013 to 23 March 2014 and 15 April 2014 to 24 October 2014 at depths of 2000 m and 3500 m. PBDEs were the most predominant compounds, with the highest mean Σ14PBDE of 125 ± 114 ng/g dry weight (d.w.), followed by Σ17PCDD/F, Σ12PBDD/F, and Σ12DL-PCB (275 ± 1930, 253 ± 216, and 116 ± 166 pg/g d.w., respectively). Most PBDD/F, PBB, and PCDE congeners were below the detection limits. PCDDs had the highest toxic equivalency (TEQ), followed by PBDDs and DL-PCBs. Among the six POPs, PBDEs were the major components of the marine-deposited particles, regarding both concentrations and mass fluxes. Compared to 3500 m, PBDE levels were higher at a depth of 2000 m. PBDE mass fluxes were 20.9 and 14.2 ng/m2/day or 68.2 and 75.9 ng/m2/year at deep-water 2000 and 3500 m, respectively. This study first investigated POP levels in oceanic deep-water-deposited particles from existing global data.

Prognostic Value of Red Blood Cell Distribution Width and Hemoglobin in Patients with Spontaneous Intracerebral Hemorrhage.

BACKGROUND: The association between baseline red blood cell distribution width (RDW) and hemoglobin levels and outcomes after acute intracerebral hemorrhage (ICH) is not well studied. We aimed to investigate the association between baseline RDW and hemoglobin levels with early hematoma expansion (HE) and mortality at 3 months and 1 year in acute ICH patients. METHODS: A total of 393 ICH patients from January 2014 to February 2019 were included. Patients were divided into four groups based on quartiles of RDW and hemoglobin levels at admission, respectively. Logistic regression models were used to estimate the effect of the levels of RDW and hemoglobin on early HE (absolute hematoma growth >6 mL from baseline to follow-up) and allcaused mortality at 3 months and 1 year. RESULTS: There were no significant associations between baseline RDW and hemoglobin levels and early HE. The 3-month mortality (adjusted odds ratio [OR] 2.88; 95% confidence intervals [CI] 0.96-8.64) and 1-year mortality (adjusted OR 3.16, 95% CI 1.08-9.21) was significantly higher in patients with the highest RDW level (Q4) compared to those with the lowest RDW level (Q1). Moreover, patients with the lowest hemoglobin level were significantly associated with increased odds of all-cause mortality at 3-month (adjusted OR 3.95, 95% CI 1.26-12.4) and 1-year (adjusted OR 4.42, 95% CI 1.56-12.5) compared to those with highest hemoglobin level. CONCLUSION: In patients with acute ICH, a higher level of RDW at admission significantly increased the risk of all-cause mortality at 1 year. Moreover, a decreased hemoglobin level at admission was also associated with a higher risk of all-cause mortality at 3 months and 1 year.

Effects of fuel injection system and exhaust gas catalytic treatments on PAH emissions from motorcycles.

The motorcycles are unignorable near-ground pollutant emission sources that increase the human exposure in the dense area. However, the information of the polycyclic aromatic hydrocarbons (PAHs) emissions under different scenarios of engine and emission control for motorcycle is limited. This study focused on the PAH emissions from two fuel-injection types of motorcycles, including the premixed fuel-injection (PFi) with carburetor and electronic fuel-injection (EFi). Specifically, the effects of throttle opening (TO), secondary air system (SAS), oxygen sensor (OS), oxidation catalytic converter (OCC), and three-way catalytic converter (TWC) on PAH emissions are investigated. Results show that the PAH emission concentrations increase 227-727%, 351-492%, and 155-408% by the increasing TO ratio, unworking SAS, and OS units in both motorcycles. For the PFi engine, the OCC unit is found to be more effective in PAH control (31-89%) than the SAS system (72-80%), especially under low TO operation. For the EFi engine which dominates the motorcycle market recently, the oxygen sensor for more accurate combustion control shows a better PAH reduction (36-76%) than TWC system (21-66%). The ultra-fine particulate phase PAHs, which is hardly removed by catalyst, needs to be further considered. Moreover, the total PAH emission level of the EFi engine is still about ten times higher than that of the PFi. By the annual emission calculation for three densely populated countries, the recent evolution significantly reduces the annual hydrocarbon (HC), carbon monoxide (CO), and nitrogen oxide (NOx) emissions but have unignorable PAH emissions. These emissions continuously affect the human health in the near-ground urban air and need to be considered in the next generation of motorcycle design.

Occurrence and emission of polycyclic aromatic hydrocarbons from water treatment plant sludge in Taiwan.

The concentrations level and distribution of 16 US EPA polycyclic aromatic hydrocarbon (PAHs) from the water treatment plant (WTP), sewage treatment plant (STP), and industrial water treatment plant (ITP) sludge in Taiwan were determined and then assessed the sources, and potential toxicity (carcinogenic polycyclic aromatic hydrocarbons [CPAHs] and toxic BaP equivalent [TEQ]). Results indicated that the total concentrations of PAHs ranged between 58 and 16,436 µg/kg dw. Among the 17 samples, the 2-4 ring of total PAHs were the predominant compound in three kinds of treatment plant (> 60%). Especially, ITP1 owns 95.8% of 2-4 ring of total PAHs and ITP3 owns 54% of five- and six-ring of total PAHs. The molecular indices and principal component analysis (PCA) were used to determine the source contributions, with the results showing that the contributions of combustion/grass, coal or wood combustion and combustion/ liquid (oil) fossil fuel combustion. A PAH toxicity indicated by TEQ was 2.5-506 µg TEQ/g dw. Although, the results indicated that these were not recommended for land applications, but analyses are beneficial to develop effective management strategies for controlling PAH discharge in treatment plants and establishing strategies for its reuse in managing pollutants.

Death and life loss due to female breast cancer in Suzhou City from 2007 to 2021 / 预防医学

Objective@#To investigate the trends in mortality and life lost due to female breast cancer among in Suzhou City from 2007 to 2021, so as to provide insights into improvements of breast cancer control strategy in Suzhou City.@*Methods@#The epidemiological and clinical data pertaining to dead female breast cancer cases in Suzhou City from 2007 to 2021 were collected from Suzhou Municipal Chronic Disease Surveillance System, including gender, age and cause of death. The crude mortality, standardized mortality, years of potential life lost (YPLL), years of potential life lost rate (YPLLR), standardized YPLL (SYPLL), standardized YPLLR (SYPLLR) and average years of life lost (AYLL) due to female breast cancer were calculated. All data were standardized by the Fifth National Population Census in 2000, and the trends in mortality of breast cancer were estimated using average annual percent change (AAPC). @*Results@#Totally 4 425 death occurred due to female breast cancer in Suzhou City from 2007 to 2021, with a crude mortality rate of 8.67/105, which appeared a tendency towards a rise (AAPC=1.83%, t=5.080, P=0.001), and the standardized mortality was 4.68/105, which appeared no significant changes (AAPC=0.13%, t=0.356, P=0.727). The crude mortality rates of female breast cancer were 0.62/105, 10.33/105 and 21.69/105 among women at ages of 15 to 34, 35 to 64 years and 65 years and older, respectively, which appeared a tendency towards a rise (χ2trend=2 315.683, P=0.001). The crude mortality of female breast cancer was 8.66/105 in urban areas and 8.86/105 in rural areas, both appearing a tendency towards a rise (urban areas: AAPC=1.73%, t=3.290, P=0.006; rural areas: AAPC=2.68%, t=6.565, P=0.001). The YPLL, SYPLL, YPLLR, SYPLLR and AYLL of female breast cancer were 44 485 person-years, 30 387 person-years, 0.99‰, 0.68‰ and 14.94 years per person, and both YPLLR (AAPC=-1.06%, t=-2.193, P=0.047) and AYLL (AAPC=-1.53%, t=-4.783, P=0.001) appeared a tendency towards a reduction, respectively. @*Conclusion@#The crude mortality of female breast cancer appeared a tendency towards a rise and the life loss appeared a tendency towards a decline in Suzhou City from 2007 to 2021. The elderly population should be given a high priority for breast cancer control.

Elevated emissions of volatile and nonvolatile nanoparticles from heavy-duty diesel engine running on diesel-gas co-fuels.

This study experimentally examines the effects of four diesel-gas co-fuels, two engine loads and an aftertreatment on regulated and unregulated emissions from a 6-cylinder natural-aspirated direct-injection heavy-duty diesel engine (HDDE) with an engine dynamometer. Fuel energy of ultra-low-sulfur diesel was substituted with 10% and 20% of gas fuels, including pure H2, CH4, and two CH4-CO2 blends. The particle number size distributions of volatile and nonvolatile nanoparticles were measured under ambient temperature and after 300 °C heating, respectively. The results show that the gas fuels caused increases of hydrocarbon emission, slight changes of NOx emission, and decreases of opacity. All four gas fuels resulted in elevated emissions of both volatile and nonvolatile nanoparticles at 25% and 75% load, in the range of 29% to 390%. The increased emissions of volatile nanoparticles were variable and without obvious trends. Special attentions should be given to the addition of H2 under high load, during which significant increases of volatile nanoparticles could be formed not only post-combustion (up to 1376%), but also post-diesel oxidation catalyst plus diesel particulate filter (DOC + DPF). The nonvolatile nanoparticles, on the other hand, could be effectively removed by the retrofitted DOC + DPF, with efficiency >98.2%. A noteworthy fraction of solid particles of sizes <23 nm were found in the exhaust, not being accounted for by current regulatory emission standard.

Long-term metal fume exposure assessment of workers in a shipbuilding factory.

This study aims to assess the metal fume exposure of welders and to determine exposure rates for similar exposure groups in a shipyard through the use of Near-field/Far-field (NF/FF) mathematical model and Bayesian decision analysis (BDA) technique. Emission rates of various metal fumes (i.e., total chromium (Cr), iron (Fe), lead (Pb), manganese (Mn), and nickel (Ni)) were experimentally determined for the gas metal arc welding and flux cored arc welding processes, which are commonly used in shipyards. Then the NF/FF field model which used the emission rates were further validated by welding simulation experiment, and together with long-term operation condition data obtained from the investigated shipyard, the predicted long-term exposure concentrations of workers was established and used as the prior distribution in the BDA. Along with the field monitoring metal fume concentrations which served as the likelihood distribution, the posterior decision distributions in the BDA were determined and used to assess workers' long-term metal exposures. Results show that the predicted exposure concentrations (Cp) and the field worker's exposure concentrations (Cm) were statistically correlated, and the high R2 (= 0.81-0.94) indicates that the proposed surrogate predicting method by the NF and FF model was adequate for predicting metal fume concentrations. The consistency in both prior and likelihood distributions suggests the resultant posterior would be more feasible to assess workers' long-term exposures. Welders' Fe, Mn and Pb exposures were found to exceed their corresponding action levels with a high probability (= 54%), indicating preventive measures should be taken immediately. The proposed approach provides a universal solution for conducting exposure assessment with usual limited number of personal exposure data.

The sorption of persistent organic pollutants in microplastics from the coastal environment.

Microplastic (MP) pellets were sampled from six sandy beaches around Taiwan in order to investigate the concentrations and compositions of POPs, including: PCDD/Fs, PBDD/Fs, PBDEs, PCBs, PBBs, and their congeners. The concentrations of PCDD/Fs on the surface (Cs) of MP pellets from the six sampling sites were from 1.9 to 14.6 pg∙g-1, while the overall concentrations within MPs (Ct) were from 95.0 to 1110.6 pg∙g-1. As PCDD/Fs were adsorbed into the inner part of MPs, a ratio of the total concentrations to surficial concentration of MPs (Ct/Cs) was as high as 355.2 times. The Ct/Cs of other POPs were also significant, such as PBDEs being found up to 8068 times, which could be attributed to artificial addition during manufacturing processes as flame-retardant substances. Primary compositions of PCDD/Fs, PBDD/Fs, and PBDEs on the MPs in our POP congener analysis were all found containing species with higher number of chlorine or bromine, which were adsorbed on the MP surface more easily due to their relative higher KOW.

Change in mortality rates of respiratory disease during the COVID-19 pandemic.

OBJECTIVE: This study explored the change in mortality rates of respiratory disease during the corona virus disease 2019 (COVID-19) pandemic. METHODS: Death data of registered residents of Suzhou from 2014 to 2020 were collected and the weekly mortality rates due to respiratory disease and all deaths were analyzed. The differences in mortality rates during the pandemic and the same period in previous years were compared. RESULTS: Before the pandemic, the crude mortality rate (CMR) and standardized mortality rate (SMR) of Suzhou residents including respiratory disease, were not much different from those in previous years. During the emergency period, the CMR of Suzhou residents was 180.2/100,000 and the SMR was 85.5/100,000, decreasing by 9.1% and 14.6%, respectively; the CMR of respiratory disease was 16.4/100,000 and the SMR was 6.8/100,000, down 41.4% and 44.9%, respectively. Regardless of the mortality rates of all deaths or respiratory disease, the rates were higher in males than in females, although males had aslightly greater decrease in all deaths during the emergency period compared with females, and the opposite was true for respiratory disease. CONCLUSION: During the pandemic, the death rate of residents decreased, especially that due to respiratory disease.

Feasible and effective control strategies on extreme emissions of chlorinated persistent organic pollutants during the start-up processes of municipal solid waste incinerators.

A typical two-day start-up of municipal solid waste incinerators (MSWIs) can yield polychlorinated dibenzo-p-dioxin and dibenzofuran (PCDD/F) and polychlorinated biphenyl (PCB) emission quantities around 10 times higher than those from an entire year of normal operations, as measured in this study. Thus, we tested specific control strategies for inhibiting the formation of chlorinated persistent organic pollutants (Cl-POPs), namely, extensively cleaning the ash accumulated beneath the furnace bed of the combustion chamber and deposited on the walls of the superheater and economizer and shortening the residence time of the flue gas in the optimal temperature window for Cl-POP formation. Also, we advanced the injection times of the activated carbon and lime slurry to lower Cl-POP emissions during start-up. Our findings show that these strategies were highly effective and reduced the Cl-POP emissions by > 98%, most of which (96.4-98.2%) was attributable to inhibiting formation. In summary, the proposed control strategies require no modifications to existing air pollution control devices, have little influence on operational cost, and are effective and feasible for the majority of MSWIs.

Comparative investigation of coal- and oil-fired boilers based on emission factors, ozone and secondary organic aerosol formation potentials of VOCs.

Volatile organic compounds (VOCs) are the important precursors of the tropospheric ozone (O3) and secondary organic aerosols (SOA), both of which are known to harm human health and disrupt the earth's climate system. In this study, VOC emission factors, O3 and SOA formation potentials were estimated for two types of industrial boilers: coal-fired boilers (n = 3) and oil-fired boilers (n = 3). Results showed that ∑VOCs concentrations were more than nine times higher for oil-fired boilers compared to those for coal-fired boilers. Emission factors of ∑VOCs were found to be higher for oil-fired boilers (9.26-32.83 mg-VOC/kg) than for coal-fired boilers (1.57-4.13 mg-VOC/kg). Alkanes and aromatics were obtained as the most abundant groups in coal-fired boilers, while oxygenated organics and aromatics were the most contributing groups in oil-fired boilers. Benzene, n-hexane and o-ethyl toluene were the abundant VOC species in coal-fired boiler emissions, whereas toluene was the most abundant VOC species emitted from oil-fired boilers. O3 and SOA formation potentials were found 12 and 18 times, respectively, higher for oil-fired than for coal-fired boilers. Total OFP ranged from 3.99 to 11.39 mg-O3/kg for coal-fired boilers. For oil-fired boilers, total OFP ranged from 36.16 to 131.93 mg-O3/kg. Moreover, total secondary organic aerosol potential (SOAP) ranged from 65.4 to 122.5 mg-SOA/kg and 779.9 to 2252.5 mg-SOA/kg for the coal-fired and oil-fired boilers, respectively.

The impact of low to high waste cooking oil-based biodiesel blends on toxic organic pollutant emissions from heavy-duty diesel engines.

As yet, the effect of biodiesels on the emissions of polycyclic aromatic hydrocarbons (PAHs) and polychlorinated dibenzo-p-dioxins and dibenzofurans (PCDD/Fs) from heavy-duty diesel engines (HDDEs) has only been studied using limited fuel blend ratios. To clarify the influence of using higher fractions of biodiesel on the emissions of toxic organic pollutants from diesel engines, in this research, the emissions of PM, PAHs, and persistent organic pollutants (POPs) from EURO IV and EURO III HDDEs fueled by low to high waste cooking oil (WCO)-based biodiesel-petrodiesel fuel blends were studied, including D100 (0% biodiesel), B20 (20%), B40 (40%), B60 (60%), B80 (80%), and B100 (100%). The engines were tested according to the US FTP-75 test procedure. The results for the EURO IV diesel engine showed that the PM and toxic organic pollutant emissions were reduced with increases in the blending ratio up until the B60 scenario when compared to the D100 scenario. This is because biodiesel has higher oxygen content and no or lower aromatic content than petrodiesel. Nevertheless, during the B80 and B100 scenarios, the PM and toxic organic pollutant emissions increased due to the high viscosity property of biodiesel, which negatively affected the combustion process. The biodiesel effect on the emissions from EURO III engine was more pronounced because of its lower combustion efficiency, and therefore the improvement in combustion using biodiesel resulted in greater PCDD/F reductions.

Changes in Life Expectancy From 2006 to 2015 in Suzhou, East China: Contributions of Age- and Cause-Specific Mortality.

This study was designed to estimate the contribution of age- and disease-specific mortality, particularly that attributable to chronic noncommunicable diseases and at-birth life expectancy (LE) in Suzhou, East China, between 2006 and 2015. In total, data on 427 290 deaths were analyzed. From 2006 to 2015, the at-birth LE increased from 78.92 years to 82.87 years in Suzhou. A decrease in all-cause age-specific death rates contributed to an increase of 1.98 years. The decreased death rates attributable to noncommunicable diseases including cerebrovascular diseases, cancer, heart disease, and respiratory diseases resulted in an increased LE of 1.37 years, which was particularly pronounced among people aged 65 years and older. However, the prevalence of cancer in those aged 45 to 74 years, particularly gastric, liver, and esophageal cancers, contributed the most to the increase in LE. These data may be useful for public health communications.

Impact of C-reactive protein on long-term mortality in acute myocardial infarction patients with diabetes and those without.

BACKGROUND: Little is known about the relationship between C-reactive protein (CRP) and long-term mortality after acute myocardial infarction (AMI) in diabetic patients. The current study aimed to examine whether CRP levels are associated with for long-term all-cause, cardiovascular, and cardiac mortality in AMI patients with diabetes and those without separately. METHODS: The cohort study included 663 diabetic and 1853 non-diabetic patients with AMI. The median follow-up time was 1045 days (2.9 years). RESULTS: According to the median concentration of serum CRP (8.95 mg/l), the patients were divided into two groups. The low CRP level group (<8.95 mg/l) served as a reference. In diabetic patients with AMI, the adjusted hazard ratios (HRs) for long-term all-cause, cardiovascular, and cardiac mortality were 1.62 (P = 0.027), 1.91 (P = 0.008), and 2.08 (P = 0.007), respectively. In non-diabetic patients with AMI, the adjusted hazard ratios (HRs) for long-term all-cause, cardiovascular, and cardiac mortality were 1.72 (P < 0.001), 1.8 (P < 0.001), and 1.78 (P = 0.001), respectively. CONCLUSIONS: Regardless of whether patients had diabetes or not, CRP value is an independent predictor of long-term, all-cause, cardiovascular, and cardiac mortality after AMI.

Impact of serum albumin levels on long-term all-cause, cardiovascular, and cardiac mortality in patients with first-onset acute myocardial infarction.

BACKGROUND: To evaluate the association of serum albumin (SA) with long-term all-cause, cardiovascular, and cardiac mortality in patients with first-onset acute myocardial infarction (AMI). METHODS: The cohort study enrolled 2305 patients with first-onset AMI. The median follow-up was of 1088days (3years). Impacts of SA on long-time mortality after AMI were determined using multivariate Cox proportional hazard regression analysis with backward selection. RESULTS: The patients were divided into three categories by SA tertiles (≤3.62, 3.63-4.08, >4.08g/dl). High tertile group was used as reference, the adjusted HRs for all-cause death were 1.21 (P=0.338) and 1.74 (P=0.003) for intermediate and low tertile, respectively (p-for-trend=0.001); The equivalent values for cardiovascular death were 1.13 (P=0.588) and 1.64 (P=0.022), respectively (p-for-trend=0.009); The corresponding values for cardiac death were 1.07 (P=0.806) and 1.59 (P=0.048), respectively (p-for-trend=0.022). Moreover, adjusted HRs per 1-g/dl decrease in SA concentrations were 1.66 (P=0.001) for all-cause death, 1.47 (P=0.024) for cardiovascular death, and 1.61 (P=0.012) for cardiac death. CONCLUSIONS: Low SA level (≤3.62g/dl) on admission was an independent predictor of long-term all-cause, cardiovascular, and cardiac mortality in patients with first-onset AMI. There was a dose-response relationship between decreased SA concentrations and increased long-term all-cause, cardiovascular, and cardiac mortality.

Emission factors and congener-specific characterization of PCDD/Fs, PCBs, PBDD/Fs and PBDEs from an off-road diesel engine using waste cooking oil-based biodiesel blends.

Few studies have been performed up to now on the emission factors and congener profiles of persistent organic pollutants (POPs) emitted from off-road diesel engines. This investigation elucidates the emission factors and congener profiles of various POPs, namely polychlorinated dibenzo-p-dioxins and dibenzofurans (PCDD/Fs), polychlorinated biphenyl (PCBs), polybrominated dibenzo-p-dioxins and polybrominated dibenzofurans (PBDD/Fs) and polybrominated diphenyl ethers (PBDEs), in the exhausts of a diesel generator fueled with different waste cooking oil-based biodiesel (WCO-based biodiesel) blends. The PCDD/Fs contributed 87.2% of total dioxin-like toxicity (PCDD/Fs+PCBs+PBDD/Fs) in the exhaust, while the PCBs and PBDD/Fs only contributed 8.2% and 4.6%, respectively. Compared with petroleum diesel, B20 (20vol% WCO-based biodiesel+80vol% diesel) reduced total toxicity by 46.5% for PCDD/Fs, 47.1% for PCBs, and 24.5% for PBDD/Fs, while B40 (40vol% WCO-based biodiesel+60vol% diesel) reduced it by 89.5% for PCDD/Fs, 57.1% for PCBs, and 63.2% for PBDD/Fs in POP emission factors. The use of WCO-based biodiesel not only solves the problem of waste oil disposal, but also lowers POP emissions from diesel generators.

Persistent organic pollutants in the Antarctic coastal environment and their bioaccumulation in penguins.

Persistent organic pollutants (POPs), including polychlorinated dibenzo-p-dioxins and dibenzofurans (PCDD/Fs), polychlorinated biphenyls (PCBs), polybrominated dibenzo-p-dioxins and dibenzofurans (PBDD/Fs), polybrominated biphenyls (PBBs), and polybrominated diphenyl ethers (PBDEs), have been identified in penguins, lichens, soils, and ornithogenic soils in the Antarctic coastal environment in this study. To the best of our knowledge, no previous study has reported PBDD/F and PBB data from Antarctica. The POP mass contents in penguins were in the following order: PCBs >> PBDEs >> PCDD/Fs; PCBs were the dominant pollutants (6310-144,000 pg/g-lipid), with World Health Organization toxic equivalency values being 2-14 times higher than those of PCDD/Fs. Long-range atmospheric transport is the most primary route by which POPs travel to Antarctica; however, local sources, such as research activities and penguin colonies, also influence POP distribution in the local Antarctic environment. In penguins, the biomagnification factor (BMF) of PCBs was 61.3-3760, considerably higher than that for other POPs. According to BMF data in Adélie penguins, hydrophobic PBDE congeners were more biomagnified at log Kow > 6, and levels decreased at log Kow > 7.5 because larger molecular sizes inhibited transfer across cell membranes.