Your search keyword '"Lianghong SUN"' showing total 10 results

1. Association of China’s two-child policy with changes in number of births and birth defects rate, 2008–2017

Author

Hanyi Chen, Ting Wei, Haiyin Wang, Yi Zhou, Hua Chen, Lianghong Sun, Shaotan Xiao, Wuren Ma, Huijuan Zhao, Guanghua Chen, Xinlei Liang, Donglan Zhang, Weiwei Zheng, Yixin Zhou, and Zhangsheng Yu

Subjects

Two-child policy, Birth defects, Birth outcomes, Number of births, Difference-in-difference model, Public aspects of medicine, RA1-1270

Abstract

Abstract Background In October 2015, China’s one-child policy was universally replaced by a so-called two-child policy. This study investigated the association between the enactment of the new policy and changes in the number of births, and health-related birth outcomes. Methods We used difference-in-difference model to analyse the birth record data in Pudong New Area, Shanghai.The design is descriptive before-and-after comparative study. Results The data covered three policy periods: the one-child policy period (January 2008 to November 2014); the partial two-child policy period (December 2014 to June 2016); the universal two-child policy period (July 2016 to December 2017). There was an estimate of 7656 additional births during the 18 months of the implementation of the universal two-child policy. The trend of monthly percentage of births to mothers aged ≥35 increased by 0.24 percentage points (95% confidence interval 0.19 to 0.28, p

Published

2022

2. Non-communicable diseases are key to further narrow gender gap in life expectancy in Shanghai, China

Author

Hanyi Chen, Yi Zhou, Lianghong Sun, Yichen Chen, Xiaobin Qu, Hua Chen, Janani Rajbhandari-Thapa, and Shaotan Xiao

Subjects

Life expectancy, Cause of death, Trends, Health equity, Mortality, Chronic disease, Public aspects of medicine, RA1-1270

Abstract

Abstract Background To address change in the gender gap of life expectancy (GGLE) in Shanghai from 1973 to 2018, and to identify the major causes of death and age groups associated with the change over time. Methods The temporal trend in GGLE was evaluated using retrospective demographic analysis with Joinpoint regression. Causes of death were coded in accordance with the International Classification of Diseases and mapped with the Global Burden of Disease (GBD) cause list. The life table technique and decomposition method were used to express changes in GGLE. Results The trend of GGLE in Shanghai experienced two phases, i.e., a decrease from 8.4 to 4.2 years in the descent phase (1973–1999) and a fluctuation between 4.0 and 4.9 years in the plateau phase (1999–2018). The reduced age-specific mortality rates tended to concentrate to a narrower age range, from age 0–9 and above 30 years in the descent phase to age above 55 years in the plateau phase. Gastroesophageal and liver cancer, communicable, chronic respiratory, and digestive diseases were once the major contributors to narrow GGLE in the descent phase. While, importance should be attached to a widening effect on GGLE by lung cancer, cardiovascular diseases, other neoplasms like colorectal and pancreatic cancer, and diabetes in the recent plateau phase. Conclusions Non-communicable diseases (NCDs) have made GGLE enter a plateau phase from a descent phase in Shanghai, China. Public efforts to reduce excess mortalities for male NCDs, cancers, cardiovascular diseases, chronic respiratory diseases, and diabetes in particular and health policies focused on the middle-aged and elderly population might further narrow GGLE. This will also ensure improvements in health and health equity in Shanghai China.

Published

2020

3. Understanding the rapid increase in life expectancy in shanghai, China: a population-based retrospective analysis

Author

Hanyi Chen, Lipeng Hao, Chen Yang, Bei Yan, Qiao Sun, Lianghong Sun, Hua Chen, and Yichen Chen

Subjects

Life expectancy, Joinpoint regression analysis, Cause of death, Public aspects of medicine, RA1-1270

Abstract

Abstract Background Life expectancy at birth (LE) is a comprehensive measure that accounts for age-specific death rates in a population. Shanghai has ranked first in LE in China mainland for decades. Understanding the reasons behind its sustained gain in LE provides a good reflection of many other cities in China. The aim of this study is intended to explore temporal trend in age- and cause-specific gains in LE in Shanghai and the probable reasons lay behind. Methods Joinpoint regression was applied to evaluate temporal trend in LE and the long time span was then divided accordingly. Contributions to change in LE (1973–2015) were decomposed by age and cause at corresponding periods. Results LE in Shanghai could be divided into four phases ie., descent (1973–1976), recovery (1976–1998), rapid rise (1998–2004) and slow rise (2004–2015). The growing LE was mainly attributed to reductions in mortality from the elderly populations and chronic diseases such as cerebrovascular disease, chronic lower respiratory disease, and gastrointestinal cancers (stomach, liver and esophageal cancer). Conclusions The four-decade sustained gain in LE in Shanghai is due to the reductions in mortality from the elderly and chronic diseases such as cerebrovascular disease, chronic lower respiratory disease, and gastrointestinal cancers. Further growth momentum still comes from the elderly population.

Published

2018

4. Occurrence and Survival Condition of Lung Cancer with Different Histologies Among Residents in Pudong New Area

Author

Hanyi CHEN, Chen YANG, Bei YAN, Lianghong SUN, Zheng WU, Xiaopan LI, Meiyu ZHANG, Xiaoli LI, and Liming YANG

Subjects

Lung neoplasms, Survival analysis, Incidence trend, Influential factors, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Background and objective Different histologies of lung cancer vary in occurrence and prognosis. This study aims to analyze the incidence and occurrence trend of lung cancer and investigate the survival rate and its influential factors among lung cancer patients with different histologies. Methods Permanent residents were recruited between 2002 and 2009 in Pudong New Area (former Nanhui Area and former Pudong Area), Shanghai, China. Annual percent changes were estimated by a linear regression of the logarithm on the incidence rates for eight years. Survival rates were calculated and compared by using life-table analysis and Log-rank test, respectively. Results The standardized incidence rates of lung cancer were 52.28 and 18.86 per 100,000 in males and females, respectively. The median survival time was 410.72 days for specific classified lung cancer. The incidence rates of adenocarcinoma ranked the highest and showed an upward tendency (P

Published

2014

5. Impact of Average Daily Temperature on Stroke Mortality in Community: a Time-series Analysis

Author

Yichen CHEN, Hua CHEN, Xiaobin QU, Lianghong SUN, Hanyi CHEN, Xiaopan LI, Li PENG, Wanghong XU, Yi ZHOU

Subjects

stroke, hemorrhagic stroke, ischemic stroke, daily average temperature, death, distributed lag non-linear model, age factors, educational status, Medicine

Abstract

Background With the increasing frequency of extreme weather events due to global climate change, the impact of air temperature on stroke deaths is gaining increasing attention. Objective This study aimed to evaluate the impact of average daily temperature on stroke mortality in Pudong New Area. Methods Data were collected from Pudong New Area from January 1, 2005 to December 31, 2019, including deaths due to stroke (hemorrhagic stroke and ischemic stroke) , meteorological information (air temperature, relative humidity, atmospheric pressure) , atmospheric pollutants 〔particulate matter 10 (PM10) , sulfur dioxide (SO2) and nitrogen dioxide (NO2) 〕. We used a distributed lag non-linear model (DLNM) to evaluate the impact of average daily air temperature on stroke mortality, and assess the lagged and cumulative effects. Age- and education attainment-specific analyses were performed to identify the susceptible groups. Results During the period, a total number of 30 337 deaths from stroke were reported in Pudong New Area of Shanghai, and the deaths due to hemorrhagic stroke and ischemic stroke numbered 11 221 (36.99%) and 15 308 (50.46%) , respectively. The average daily deaths from stroke, hemorrhagic stroke and ischemic stroke were 5.54, 2.05 and 2.79, respectively. The average daily temperature, relative humidity and air pressure in Pudong New Area were 17.25 ℃, 73.75%, and 1 015.83 hPa, respectively. The average daily concentrations of PM10, SO2 and NO2 were 68.87 μg/m3, 28.82 μg/m3, and 44.68 μg/m3, respectively. Using the average median daily temperature (P50=18.2 ℃) as a reference, the strongest cumulative effects of low temperature (P5=3.0℃) were observed within 0-14 days lagged (Lag 0-14) for stroke mortality〔RR=1.34, 95%CI (1.15, 1.56) 〕 and hemorrhagic stroke mortality〔RR=1.61, 95%CI (1.25, 2.08) 〕. The impact of low temperature on stroke mortality and hemorrhagic stroke mortality was significantly lagged and cumulated, but its impact on ischemic stroke mortality was not significant. The strongest cumulative effects of high temperature (P95=30.1 ℃) on stroke mortality 〔RR=1.26, 95%CI (1.12, 1.41) 〕 and ischemic stroke 〔RR=1.64, 95%CI (1.39, 1.93) 〕 were observed within 0-1 day lagged (Lag 0-1) . High temperature imposed an acute effect on stroke mortality and ischemic stroke mortality, but produced insignificant effect on hemorrhagic stroke mortality. No significant impact of low temperature was observed on stroke mortality in population < 75 years old, but the impact on stroke mortality in population≥ 75 years old was strongest within Lag 0-14 d. The strongest impacts of low temperature on stroke mortality in population with primary education or below, and in population with secondary education or above were observed within Lag 0-21 d and Lag 0-14 d, respectively. No significant impact of high temperature was observed on stroke mortality in population < 75 years old and population with secondary education and above, but the impact was the strongest on stroke mortality in population ≥ 75 years old and the population with primary education or below within Lag 0-1 d. The impact of high temperature on stroke mortality in population with primary education or below was significantly higher than that in population with secondary education and above within Lag 0-3 d (P

Published

2022

6. Non-communicable diseases are key to further narrow gender gap in life expectancy in Shanghai, China

Author

Xiaobin Qu, Janani Rajbhandari-Thapa, Yi Zhou, Yichen Chen, Shaotan Xiao, Lianghong Sun, Hua Chen, and Hanyi Chen

Subjects

Adult, Male, medicine.medical_specialty, China, Joinpoint, Adolescent, Life expectancy, Cause of death, Chronic disease, Global Burden of Disease, Young Adult, Sex Factors, International Classification of Diseases, Epidemiology, Medicine, Humans, Life Tables, Mortality, Child, Noncommunicable Diseases, Health equity, Aged, Demography, Retrospective Studies, business.industry, Public health, Mortality rate, lcsh:Public aspects of medicine, Public Health, Environmental and Occupational Health, Infant, Newborn, Infant, lcsh:RA1-1270, Middle Aged, Demographic analysis, Decomposition analysis, Child, Preschool, Regression Analysis, Female, Biostatistics, Trends, business, Research Article

Abstract

Background To address change in the gender gap of life expectancy (GGLE) in Shanghai from 1973 to 2018, and to identify the major causes of death and age groups associated with the change over time. Methods The temporal trend in GGLE was evaluated using retrospective demographic analysis with Joinpoint regression. Causes of death were coded in accordance with the International Classification of Diseases and mapped with the Global Burden of Disease (GBD) cause list. The life table technique and decomposition method were used to express changes in GGLE. Results The trend of GGLE in Shanghai experienced two phases, i.e., a decrease from 8.4 to 4.2 years in the descent phase (1973–1999) and a fluctuation between 4.0 and 4.9 years in the plateau phase (1999–2018). The reduced age-specific mortality rates tended to concentrate to a narrower age range, from age 0–9 and above 30 years in the descent phase to age above 55 years in the plateau phase. Gastroesophageal and liver cancer, communicable, chronic respiratory, and digestive diseases were once the major contributors to narrow GGLE in the descent phase. While, importance should be attached to a widening effect on GGLE by lung cancer, cardiovascular diseases, other neoplasms like colorectal and pancreatic cancer, and diabetes in the recent plateau phase. Conclusions Non-communicable diseases (NCDs) have made GGLE enter a plateau phase from a descent phase in Shanghai, China. Public efforts to reduce excess mortalities for male NCDs, cancers, cardiovascular diseases, chronic respiratory diseases, and diabetes in particular and health policies focused on the middle-aged and elderly population might further narrow GGLE. This will also ensure improvements in health and health equity in Shanghai China.

Published

2020

7. Association of China's two-child policy with changes in number of births and birth defects rate, 2008-2017

Author

Hanyi Chen, Ting Wei, Haiyin Wang, Yi Zhou, Hua Chen, Lianghong Sun, Shaotan Xiao, Wuren Ma, Huijuan Zhao, Guanghua Chen, Xinlei Liang, Donglan Zhang, Weiwei Zheng, Yixin Zhou, and Zhangsheng Yu

Subjects

Male, China, Family Planning Policy, Policy, Pregnancy, Public Health, Environmental and Occupational Health, Infant, Newborn, Humans, Infant, Premature Birth, Female, Birth Rate

Abstract

BackgroundIn October 2015, China’s one-child policy was universally replaced by a so-called two-child policy. This study investigated the association between the enactment of the new policy and changes in the number of births, and health-related birth outcomes.MethodsWe used difference-in-difference model to analyse the birth record data in Pudong New Area, Shanghai.The design is descriptive before-and-after comparative study.ResultsThe data covered three policy periods: the one-child policy period (January 2008 to November 2014); the partial two-child policy period (December 2014 to June 2016); the universal two-child policy period (July 2016 to December 2017). There was an estimate of 7656 additional births during the 18 months of the implementation of the universal two-child policy. The trend of monthly percentage of births to mothers aged ≥35 increased by 0.24 percentage points (95% confidence interval 0.19 to 0.28,p ConclusionsThe universal two-child policy was associated with an increase in the number of births and maternal age. Preterm birth, low birth weight, and assisted delivery were associated with a higher risk of birth defects, which suggested that these infants needed additional attention in the future.

Published

2021

8. Additional file 1 of Non-communicable diseases are key to further narrow gender gap in life expectancy in Shanghai, China

Author

Hanyi Chen, Zhou, Yi, Lianghong Sun, Yichen Chen, Xiaobin Qu, Chen, Hua, Janani Rajbhandari-Thapa, and Shaotan Xiao

Abstract

Additional file 1: Table S1. List of causes of death focused in our study and the corresponding ICD-9 & ICD-10 codes. Table S2. Test for number of joinpoints. Table S3. Estimated regression coefficients for 1 joinpoint model. Table S4. Top 10 causes of death of China and Shanghai in 2017. Figure S1. Age-specific percentage of garbage codes in 1973, 1999 and 2018 in Shanghai.

Published

2020

9. Additional file 1: Table A1. of Understanding the rapid increase in life expectancy in shanghai, China: a population-based retrospective analysis

Author

Hanyi Chen, Lipeng Hao, Yang, Chen, Yan, Bei, Sun, Qiao, Lianghong Sun, Chen, Hua, and Yichen Chen

Abstract

List of causes of death based on CCD (Chinese Classification of Diseases) and the corresponding ICD-10 codes. Table A2. Top 10 Causes of death of the nation, province and study area in 2015. Table A3. The sensitivity analysis of Arriagaâ s decomposition method. Table A4 The characteristics of the population at different time. (DOCX 29Â kb)

Published

2018

10. [Occurrence and survival condition of lung cancer with different histologies among residents in Pudong new area]

Author

Hanyi, Chen, Chen, Yang, Bei, Yan, Lianghong, Sun, Zheng, Wu, Xiaopan, Li, Meiyu, Zhang, Xiaoli, Li, and Liming, Yang

Subjects

Adult, Aged, 80 and over, Male, Survival Rate, China, 临床研究, Lung Neoplasms, Incidence, Humans, Female, Middle Aged, Prognosis, Aged

Abstract

Different histologies of lung cancer vary in occurrence and prognosis. This study aims to analyze the incidence and occurrence trend of lung cancer and investigate the survival rate and its influential factors among lung cancer patients with different histologies.Permanent residents were recruited between 2002 and 2009 in Pudong New Area (former Nanhui Area and former Pudong Area), Shanghai, China. Annual percent changes were estimated by a linear regression of the logarithm on the incidence rates for eight years. Survival rates were calculated and compared by using life-table analysis and Log-rank test, respectively.The standardized incidence rates of lung cancer were 52.28 and 18.86 per 100,000 in males and females, respectively. The median survival time was 410.72 days for specific classified lung cancer. The incidence rates of adenocarcinoma ranked the highest and showed an upward tendency (P0.05). Patients with small cell lung cancer showed the worst survival condition. The survival condition in males with squamous cell lung cancer living in former Nanhui Area was better compared with those living in former Pudong Area.Lung cancers with different histologies demonstrated different occurrence trends and survival rates. Gender, age, and living area influence the survival rates of lung cancer with different histologies.背景与目的 不同组织学类型肺癌患者发病特点、预后情况不同。本研究旨在分析不同组织学类型肺癌患者发病情况、发病趋势、生存期及其影响因素，为病因学研究和临床防治提供参考依据。方法 以2002年-2009年上海市浦东新区居民为研究对象，利用年度变化百分比进行肺癌发病趋势分析。通过寿命表法计算生存率，以Log-rank检验生存曲线差异。结果 该地区同期肺癌男女标化发病率分别为52.28/10万和18.86/10万，明确组织学分型的肺癌患者中位生存期为410.72天。腺癌发病率最高并成上升趋势（P0.05）。小细胞癌生存情况最差。原南汇地区男性鳞癌生存情况较好。结论 不同组织学类型肺癌发病趋势和生存期并不相同，性别、年龄、居住地对不同组织学类型肺癌患者生存期有影响。

Published

2014