ObjectiveTo investigate the effects and potential mechanisms of morning and evening fasting on postprandial lipid responses, a post hoc analysis based on a crossover randomized controlled trial was conducted to assess the effects of different fasting strategies on postprandial lipid metabolism in community residents in Shanghai. MethodsA total of 23 participants took part in a randomized crossover trial involving two intervention days: morning fasting and evening fasting, with a washout period of 6 days between intervention days. Two-way analysis of variance was used to test the differences in total cholesterol (TC), triglycerides (TG), high-density lipoprotein cholesterol (HDL-C), low-density lipoprotein cholesterol (LDL-C), and the relative expression of circadian clock genes before and after the next meal under fasting. Wilcoxon rank sum tests were used to analyze the different metabolites between the two groups. Principal component analysis and Orthogonal partial least squares-discriminant analysis were conducted to evaluate the ability of metabolites to differentiate between morning fasting and evening fasting and identify the important differential metabolites. After adjusting for age, sex, and BMI, a partial correlation analysis was performed to identify metabolites associated with plasma lipids. In addition, important metabolites associated with plasma lipids were computed by pathway enrichment analysis. ResultsAfter evening fasting intervention, fasting TG level [(0.37±0.29) vs (0.27±0.18)] mmol·L^-1, fasting and postprandial change values in TC [(2.74±0.47) vs (2.51±0.27)] mmol·L^-1 and LDL-C [(1.32±0.38) vs (0.99±0.27)] mmol·L^-1 were significantly lower than those after morning fasting (P<0.05). While, change values of fasting LDL-C [(0.89±0.37) vs (1.14±0.37)] mmol·L^-1 and TG [(1.14±0.19) vs (1.28±0.17)] mmol·L^-1 were significantly higher than those after morning fasting intervention (P<0.05). After fasting intervention, the relative expression of AMPK, CRY1, CLOCK, MTNR1B, AANAT, and ASMT was correlated with the amount of plasma lipid changes (P<0.05). Specifically, CLOCK and AANAT were upregulated following evening fasting and downregulated after morning fasting. Among the 217 important differential metabolites, 111 were correlated with plasma lipids, and which were primarily enriched in the cysteine and methionine metabolism pathways (P<0.05). ConclusionCompared to morning fasting, evening fasting was more effective in improving postprandial lipid responses, indicating that an evening fasting window during intermittent fasting could be conducive to cardiovascular disease prevention in adults. Meanwhile, it is suggested that morning and evening fasting may affect lipid responses through circadian rhythm oscillations and the cysteine and methionine metabolism pathways.

ObjectiveTo understand the relative bioavailability （RBA） of cadmium in different aquatic products. Based on the consideration of the gender differences and the relative bioavailability of cadmium in different foods， the physiologically based toxicokinetic （PBTK） model of cadmium was further optimized and verified. The correlation between internal and external exposure in quantitative risk assessment of food safety was optimized， and the provisional tolerable daily intake （PTDI） value of cadmium was derived. MethodsThe relative bioavailability of cadmium in different aquatic products was determined in four-week-old Balb/c female mice. The PBTK model of cadmium metabolism was optimized by ABC-MCMC method using combined internal and external exposure data of cadmium in Shanghai residents， and the PTDI was calculated accordingly. ResultsExcept for scallops and squid， the RBA of aquatic samples was less than 1， indicating that the absorption rate of cadmium in aquatic products was lower than that of cadmium chloride. The higher RBA of squid and scallop may be due to the presence of cadmium in the visceral organs， which is conducive to cadmium absorption and its higher concentration of cadmium. Frying at the temperature less than 160 ℃ reduced cadmium absorption but may increase cadmium absorption at the temperature greater than 160 ℃. The optimized model parameters converged well and the model could reasonably estimate urinary cadmium level according to the external exposure of cadmium. The PTDI value was0.466 4 μg·（kg·day）^-1 according to the optimized single-chamber model. ConclusionThe relative bioavailability of cadmium in different foods varies greatly， except for squid and scallops， RBA is less than 1， and cooking processing will affect the RBA of food. The construction of the PBTK model did not only consider the effects of gender differences on cadmium metabolism， but also included the relative bioavailability data to optimize and adjust the correlation coefficient of absorption rate. Compared with the model without RBA adjustment， the adjusted model has enhanced the ability to predict urinary cadmium level， which provides a new， more accurate method for the risk assessment of food safety.

Background Lifestyle intervention or dietary modification has been the cornerstone of primary prevention and management of type 2 diabetes (T2D). Objective To investigate the associations of plant foods intake with the risk of incident T2D. Methods Based on a general population cohort, the Shanghai Suburban Adult Cohort and Biobank (SSACB), dietary data were collected for each participant in Songjiang District of Shanghai at enrollment with a validated Food Frequency Questionnaire (FFQ), and plant-based diet index (PDI), healthful plant-based diet index (hPDI), and unhealthful plant-based diet index (uPDI) were calculated. Incident T2D cases were identified according to physician diagnosis (fasting blood glucose ≥7.0 mmol·L⁻¹, or 2 h value during a 75-g oral glucose tolerance test ≥11.1 mmol·L⁻¹, or glycosylated hemoglobin ≥6.5%, or with typical symptoms of hyperglycemia or hyperglycemic crisis, accompanied by a random plasma glucose ≥11.1 mmol·L⁻¹) or medication records, obtained from the electronic information system for residents' medical insurance. Multivariable-adjusted Cox proportional hazards models and restricted cubic splines were used to evaluate the associations of foods from different sources with the risk of incident T2D. Results A total of 29016 participants [age at baseline (55.3±11.6) years] with a median follow-up duration of 5.688 years until 21 September 2022 were included. Plant foods (unprocessed) intake was associated with a decreased risk of incident T2D [HR (95%CI): 0.983 (0.969, 0.998)]. In comparison with participants in the highest quartile (≥859.3 g) of plant foods daily intake, the risk of incident T2D for those in the lowest quartile (<500.9 g) was higher [HR (95%CI): 1.250 (1.012, 1.544)]. No significant associations of animal foods [HR (95%CI): 1.006 (0.987, 1.026)] and processed foods [HR (95%CI): 0.978 (0.944, 1.014)] intakes were found with the risk of incident T2D. Replacing 50 g animal foods [HR (95%CI): 0.982 (0.968, 0.996)] or processed foods [HR (95%CI): 0.983 (0.969, 0.998)] with 50 g plant foods was associated with significantly decreased risks of incident T2D. Additionally, non-linear associations of PDI (P_nonlinear=0.023) and hPDI (P_nonlinear=0.016) with the risk of incident T2D were found in the SSACB. Conclusion Plant foods intake, especially healthful plant foods intake, is significantly associated with a decreased risk of incident T2D.

The epidemic of the coronavirus disease 2019 （COVID-19） has presented great challenges to the public health throughout the world. Therefore， it is crucial to foster high-level and multi-disciplinary public health talents to further improve public health. Herein， we summarize the current situation and challenges for public health education and prospect the requirements for training public health talents in China. Colleges and universities bear the responsibility for training public health talents， which is essential for the construction of public health system. In this context， we introduce the education for public health and the Doctor of Public Health （DrPH） program at Fudan university.

ObjectiveTo assess the effects of non-occupational mixed exposure to cadmium， lead and perfluoroalkyl substances （PFASs） on thyroid hormones （TH） in healthy adult residents in Shanghai. MethodsIn November 2018， adults in Shanghai Suburban Adult Cohort and Biobank study， who visited a community health service center for examination with no history of occupational exposure， thyroid diseases or chronic diseases， were recruited. A social-demographic information questionnaire survey was conducted and urine and blood samples were collected. Inductively coupled plasma mass spectrometry （ICP-MS） was used to measure their urinary cadmium （UCd）， blood cadmium （BCd） and blood lead （BPb） concentrations. Ultra-high performance liquid chromatography-quadrupole time-of-flight tandem mass spectrometry （UPLC-Q/TOF MS） was used to measure 11 kinds of PFASs. Total and free triiodothyronine （TT3， FT3）， total and free thyroxine （TT4， FT4） and thyroid simulating hormones were measured by chemiluminescence enzyme-linked immunoassay. 436 participants were finally included and LASSO regression， multivariate regression and weighted quantile sum regression were used to evaluate the associations of these environmental pollutants with thyroid hormones. ResultsAmong the participants， 185 were male （42.5%） and the median age was 60 （P₂₅‒P₇₅： 50‒66）. The detection rates of urinary cadmium， blood cadmium and blood lead were all more than 95% and the detection rates of 7 PFASs （PFOS， PFOA， PFHxS， PFUnDA， PFNA， PFD， and PFBS） were more than 90%. The median exposure level of PFOA was the highest （49.6 µg‧L^-1） among PFASs， followed by PFHxS （22.8 µg‧L^-1） and PFOS （15.4 µg‧L^-1）， and the median exposure levels of urinary cadmium， blood cadmium and blood lead were 0.7 μg‧g^-1（Corrected for creatinine of urine）， 0.8 µg‧L^-1， and 15.4 µg‧L^-1， respectively. The results showed that UCd was negatively associated with TSH and BCd was positively associated with TT3， while PFASs mainly affected FT4， TT4， and TT3， with gender differences. In males， 7 PFASs had a significant negative mixture effect on TT3 and TT4， while the direction of effect of PFASs in females differed， with PFOS and PFUnDA having a significant positive correlation with FT4 and TT4 while PFDA having a significant negative correlation with FT4 and TT4. ConclusionIn a healthy population with no occupational exposure， co-exposure to cadmium， lead and PFASs affects different thyroid hormone indicators， and such effect could be gender-related， indicating that the effect of mixed exposure to metal and emerging compounds on thyroid functions warrants further attention.

ObjectiveThe purpose of this study is to investigate and analyze the needs of public health nursing courses and specialty settings under the COVID-19 pandemic. MethodsA total of 576 medical students majored in clinical medicine， preventive medicine， pharmacy， and nursing from a Shanghai university participated in this survey. The Questionnaire Star App was used to collect students' knowledge， attitude and behavior about public health safety and emergency preparedness， public health related curriculum and public health nursing specialty， through self-administered approach. ResultsThere were significant differences in the knowledge of emergency nursing among students with different majors and grades. Over 80% of the participants agreed that "public health popularization should be strengthened". Over 60% were willing to "invest more time and energy in learning and understanding public health-related disease prevention and control knowledge". The school has carried out corresponding training or practice activities in public health education. Compared with nursing major， students with other majors performed better in paying attention to and participating in the training or practical activities of public health education. More than 70% agreed that it was necessary to set up public health nursing courses， especially nursing specialty， with the approval rate as high as 92.3%. Students believed that "2 class hours per week"， and "1/10 of the total class hours" was appropriate. In terms of course teaching， nursing students put forward more expectations on teaching objectives， methods， and characteristic courses. ConclusionUndergraduates lack knowledge of public health nursing， but most of them， especially nursing undergraduates， have a strong desire to learn and have a positive attitude towards opening public health nursing courses. However， there are still problems such as insufficient attention to and insufficient understanding of the courses. More efforts should be made to enhance the public health nursing education on public health emergencies， optimize the relevant settings of courses， so as to train nursing personnel suitable for the current health service needs in China.

Dioxins, polybrominated diphenyl ethers, and benzo(a)pyrene are common organic pollutants in food. They have been of concern to academics and government administrations due to high residue and persistence, easy accumulation and strong harmful effects. The National Research Council of the United States of America published Toxicity Testing in the 21st Century: A Vision and Strategy in 2007, which proposed a new concept of toxicity testing that toxicity testing should take full consideration of population exposure data and base on in vitro tests, human cell lines, toxicity pathways and high-throughput screening. Meanwhile, systems biology, bioinformatics and rapid assay technologies will be used to better understand toxicity pathways—the cellular response pathways that can lead to adverse health effects when sufficient perturbing induced by chemicals exposure. The new toxicity testing strategy has changed the traditional testing pattern and has brought a wide impact on the international relevant fields. The European Union, the World Health Organization, and the United States Environmental Protection Agency, the Food and Drug Administration, and the National Center for Toxicological Research have organized relevant discussions and exploratory studies to address the new toxicity testing concept and how to evaluate and utilize the results of traditional toxicity test researches. Compared to the discussion, 'whether to do it’, ten years ago, the question, 'how to do it’, has become the concern of the current discussion. Therefore, how to respond to the concept of toxicity testing and how to effectively utilize and excavate traditional toxicity test data have been the focus of multi-disciplines and interdisciplinary academia such as toxicology, food hygiene and environmental science. Therefore, this article provides an overview of the exposure levels of dioxin, polybrominated diphenyl ethers and benzo[a]pyrene, which are typical persistent organic pollutants in food in China and the current research status of toxic pathways based on whole animal experiments. The exposure level, toxic effect and toxicity mechanism of three contaminants are analyzed and summarized in order to provide basis for future results based on the 21st century toxicity test compared with traditional tests and data mining analysis of these two kinds of data. Meanwhile, it also lays the foundation for the establishment of a toxicity testing framework based on exposure characteristics, toxic pathways, and biomarkers.

Dioxins, polybrominated diphenyl ethers, and benzo(a)pyrene are common organic pollutants in food. They have been of concern to academics and government administrations due to high residue and persistence, easy accumulation and strong harmful effects. The National Research Council of the United States of America published Toxicity Testing in the 21st Century: A Vision and Strategy in 2007, which proposed a new concept of toxicity testing that toxicity testing should take full consideration of population exposure data and base on in vitro tests, human cell lines, toxicity pathways and high?throughput screening. Meanwhile, systems biology, bioinformatics and rapid assay technologies will be used to better understand toxicity pathways—the cellular response pathways that can lead to adverse health effects when sufficient perturbing induced by chemicals exposure. The new toxicity testing strategy has changed the traditional testing pattern and has brought a wide impact on the international relevant fields. The European Union, the World Health Organization, and the United States Environmental Protection Agency, the Food and Drug Administration, and the National Center for Toxicological Research have organized relevant discussions and exploratory studies to address the new toxicity testing concept and how to evaluate and utilize the results of traditional toxicity test researches. Compared to the discussion,‘whether to do it’, ten years ago, the question,‘how to do it’, has become the concern of the current discussion. Therefore, how to respond to the concept of toxicity testing and how to effectively utilize and excavate traditional toxicity test data have been the focus of multi?disciplines and interdisciplinary academia such as toxicology, food hygiene and environmental science. Therefore, this article provides an overview of the exposure levels of dioxin, polybrominated diphenyl ethers and benzo[a]pyrene, which are typical persistent organic pollutants in food in China and the current research status of toxic pathways based on whole animal experiments. The exposure level, toxic effect and toxicity mechanism of three contaminants are analyzed and summarized in order to provide basis for future results based on the 21st century toxicity test compared with traditional tests and data mining analysis of these two kinds of data. Meanwhile, it also lays the foundation for the establishment of a toxicity testing framework based on exposure characteristics, toxic pathways, and biomarkers.

Dioxins, polybrominated diphenyl ethers, and benzo(a)pyrene are common organic pollutants in food. They have been of concern to academics and government administrations due to high residue and persistence, easy accumulation and strong harmful effects. The National Research Council of the United States of America published Toxicity Testing in the 21st Century: A Vision and Strategy in 2007, which proposed a new concept of toxicity testing that toxicity testing should take full consideration of population exposure data and base on in vitro tests, human cell lines, toxicity pathways and high?throughput screening. Meanwhile, systems biology, bioinformatics and rapid assay technologies will be used to better understand toxicity pathways—the cellular response pathways that can lead to adverse health effects when sufficient perturbing induced by chemicals exposure. The new toxicity testing strategy has changed the traditional testing pattern and has brought a wide impact on the international relevant fields. The European Union, the World Health Organization, and the United States Environmental Protection Agency, the Food and Drug Administration, and the National Center for Toxicological Research have organized relevant discussions and exploratory studies to address the new toxicity testing concept and how to evaluate and utilize the results of traditional toxicity test researches. Compared to the discussion,‘whether to do it’, ten years ago, the question,‘how to do it’, has become the concern of the current discussion. Therefore, how to respond to the concept of toxicity testing and how to effectively utilize and excavate traditional toxicity test data have been the focus of multi?disciplines and interdisciplinary academia such as toxicology, food hygiene and environmental science. Therefore, this article provides an overview of the exposure levels of dioxin, polybrominated diphenyl ethers and benzo[a]pyrene, which are typical persistent organic pollutants in food in China and the current research status of toxic pathways based on whole animal experiments. The exposure level, toxic effect and toxicity mechanism of three contaminants are analyzed and summarized in order to provide basis for future results based on the 21st century toxicity test compared with traditional tests and data mining analysis of these two kinds of data. Meanwhile, it also lays the foundation for the establishment of a toxicity testing framework based on exposure characteristics, toxic pathways, and biomarkers.

Objective To prepare SDF-1 α-loaded nanoliposome ( SNP )-SonoVue complex and investigate its tracing abilities, sustained-release property and effect on migration of bone marrow mesenchymal stem cells (BMSCs). Methods The SNP was prepared to detect its physical characteristics including particle size,zeta potential, morphology, encapsulation efficiency and drug loading.SNP-SonoVue was constructed to detect the sustained release situation of SNP and SNP-SonoVue after low frequency ultrasound ( LIFU ) irradiation, and the connection of SNP-SonoVue was observed by fluorescence microscope. Effects of SNP-SonoVue on migration of BMSCs were detected to evaluate its bioactivity. BMSCs were divided into 6 groups,including Group A: SDF-1α+ 1% serum medium;Group B: SNP- SonoVue+ 1% serum culture medium;Group C:SNP-SonoVue+ 1% serum culture medium + LIFU ( 1 MHz,0.5 W/cm2, expose 30 s stop 30 s, 4 min);Group D: BNP-SonoVue+1% serum medium;Group E:BNP-SonoVue+1% serum medium+LIFU ( 1 MHz, 0.5 W/cm2, expose 30 s stop 30 s, 4 min),Group F:PBS+1% serum culture medium (control group). Its tracing abilitie were investigated in vitro. Results The average particle size of SNP was(220.4±9.9)nm,and the particle dispersion index(PDI) was(0.172± 0.015), the average zeta potential was ( 35.6 ± 1.7) mv. It was showed spherical dispersion by transmission electron microscopy. The encapsulation efficiency was up to 96.7% and the drug entrapment content was 481.76 ng/mg. Flow cytometric showed the suitable conditions for SNP-SonoVue preparation was that the ratio of SNP quality(mg) to Sono Vue microbubbles number(a) was20:(2.8×109)to40:(2.8× 109). Fluorescence microscopy showed that shells of SonoVue microbubbles connected with large numbers of SNP labeled with red fluorescent DiI. Drug release experiment showed that the cumulative SDF-1α release amount of SNP and SNP-SonoVue exposed to LIFU respectively were ( 68.61 ± 3.97 )% and ( 63.21 ± 5.68)% in vitro within 7 days, and the difference was not statistically significant ( P ＞ 0.05 ). Cell migration experiments confirmed that the transfer function of BMSCs in Group A, Ggroup B and group C was significantly higher than that in control group ( P ＜ 0.05 ), but there was no significant difference among the Group A, Ggroup B and group C ( P ＞0.05). In vitro development experiment showed that the SNP-SonoVue complex had obviously enhanced development effect. Conclusions SNP-SonoVue complex is successfully prepared. It has obviously enhanced development effect and can lead to migration of BMSCs.