Your search keyword '"Wen,Fang"' showing total 4 results

1. Association of physical activity and air pollution exposure with the risk of type 2 diabetes: a large population-based prospective cohort study.

Author

Li, Zhi-Hao, Zhong, Wen-Fang, Zhang, Xi-Ru, Chung, Vincent CH, Song, Wei-Qi, Chen, Qing, Wang, Xiao-Meng, Huang, Qing-Mei, Shen, Dong, Zhang, Pei-Dong, Liu, Dan, Zhang, Yu-Jie, Chen, Pei-Liang, Cheng, Xin, Yang, Hai-Lian, Cai, Miao-Chun, Gao, Xiang, Kraus, Virginia Byers, and Mao, Chen

Subjects

*TYPE 2 diabetes, *BUILT environment, *AIR pollution, *PHYSICAL activity, *RISK exposure, *COHORT analysis, *LONGITUDINAL method, *FECAL contamination

Abstract

Background: The interplay between physical activity (PA) and air pollution in relation to type 2 diabetes (T2D) remains largely unknown. Based on a large population-based cohort study, this study aimed to examine whether the benefits of PA with respect to the risk of T2D are moderated by exposure to air pollution. Methods: UK Biobank participants (n = 359,153) without diabetes at baseline were included. Information on PA was obtained using the International Physical Activity Questionnaire short form. Exposure to air pollution, including PM2.5, PMcoarse (PM2.5−10), PM10, and NO2, was estimated from land use regression models. Cox regression models were used to estimate the hazard ratios (HRs) and 95% confidence intervals (95% CIs). Results: During a median of 8.9 years of follow-up, 13,706 T2D events were recorded. Compared with a low PA level, the HRs for the risk of T2D among individuals with moderate and high PA were 0.82 (95% CI, 0.79–0.86) and 0.73 (95% CI, 0.70–0.77), respectively. Compared with low levels of air pollution, the HRs for risk of T2D for high levels of air pollution (PM2.5, PMcoarse, PM10, and NO2) were 1.19 (1.14–1.24), 1.06 (1.02–1.11), 1.13 (1.08–1.18), and 1.19 (1.14–1.24), respectively. There was no effect modification of the associations between PA and T2D by air pollution (all P-interactions > 0.05). The inverse associations between PA and T2D in each air pollution stratum were generally consistent (all P for trend < 0.05). Conclusion: A higher PA and lower air pollution level were independently associated with a lower risk of T2D. The beneficial effects of PA on T2D generally remained stable among participants exposed to different levels of air pollution. Further studies are needed to replicate our findings in moderately and severely polluted areas. [ABSTRACT FROM AUTHOR]

Published

2022

2. Long-term air pollutants exposure and respiratory mortality: A large prospective cohort study.

Author

Li, Zhi-Hao, Wang, Xiao-Meng, Liao, Dan-Qing, Zhang, Qian, Chen, Zi-Ting, Qiu, Cheng-Shen, Tang, Xu-Lian, Li, Hong-Min, Du, Li-Ying, Zhang, Pei-Dong, Shen, Dong, Zhang, Xi-Ru, Gao, Jian, Zhong, Wen-Fang, Chen, Pei-Liang, Huang, Qing-Mei, Song, Wei-Qi, Liu, Dan, Li, Chuan, and Chen, Huan

Subjects

AIR pollution, AIR pollutants, COHORT analysis, PROPORTIONAL hazards models, LONGITUDINAL method, MORTALITY risk factors

Abstract

Ambient air pollution is a major global health concern. Yet, no study has thoroughly assessed its link to respiratory mortality. Our research evaluated the combined and individual effects of air pollutants on respiratory mortality risks based on the UK Biobank. A total of 366,478 participants were studied. A Cox proportional hazards model was used to estimate the respiratory mortality risk from combined long-term exposure to five pollutants, summarized as a weighted air pollution score. During a median of 13.6 years of follow-up, 6113 deaths due to respiratory diseases were recorded. The hazard ratios (HRs) and 95% confidence intervals (95% CIs) of respiratory diseases were 2.64 (2.05–3.39), 1.62 (1.23–2.12), 2.06 (1.73–2.45), 1.20 (1.16–1.25), and 1.07 (1.05–1.08) per 10 μg/m3 increase in PM 2.5 , PM 2.5–10 , PM 10 , NO 2 , and NO x , respectively. The air pollution score showed a dose-response association with an elevated respiratory mortality risk. The highest versus lowest quartile air pollution score was linked to a 44% increase in respiratory mortality risk (HR 1.44, 95% CI: 1.33–1.57), with consistent findings in subgroup and sensitivity analyses. Long-term individual and joint air-pollutant exposure showed a dose-response association with an increased respiratory mortality risk, highlighting the importance of a comprehensive air-pollutant assessment to protect public health. [Display omitted] • Air pollution is a risk factor for respiratory mortality. • Long-term exposure to air pollution increased respiratory mortality risk. • The AP score showed a dose-response association with respiratory mortality risk. [ABSTRACT FROM AUTHOR]

Published

2024

3. Long-term air pollution exposure, habitual physical activity, and incident chronic kidney disease.

Author

Li, Zhi-Hao, Song, Wei-Qi, Qiu, Cheng-Shen, Li, Hong-Min, Tang, Xu-Lian, Shen, Dong, Zhang, Pei-Dong, Zhang, Xi-Ru, Ren, Jiao-Jiao, Gao, Jian, Zhong, Wen-Fang, Liu, Dan, Chen, Pei-Liang, Huang, Qing-Mei, Wang, Xiao-Meng, You, Fang-Fei, Fu, Qi, Li, Chuan, Xiang, Jia-Xuan, and Chen, Zi-Ting

Subjects

AIR pollutants, AIR pollution, CHRONIC kidney failure, PROPORTIONAL hazards models, SEDENTARY behavior, PARTICULATE matter

Abstract

Both air pollution and physical inactivity contribute to the increased risk of incident chronic kidney disease (CKD). However, the detrimental effects of air pollution exposure could be augmented by an elevated intake of air pollutants during exercise. In the present study, we analyzed 367,978 participants who were CKD-free at baseline (2006–2010) based on the UK Biobank. Air pollutants included fine particulate matter (PM 2.5 and PM 10), nitrogen dioxide (NO 2), and nitrogen oxides (NO X). Physical activity (PA) was obtained by the self-reported questionnaire. Using Cox proportional hazards models, hazard ratios (HRs) for incident CKD related to air pollution, PA, and incident CKD were evaluated. During a median of 12.4 years of follow-up, 14,191 incident CKD events were documented. High PM 2.5 , PM 10 , NO 2 , and NO X increased CKD risks by 11 %, 15 %, 14 %, and 12 %, respectively, while moderate and high PA reduced CKD risks by 18 % and 22 %, respectively. Participants with high PA and low air pollution exposure had 29 %, 31 %, 30 %, and 30 % risks of incident CKD than those with low PA and high air pollution exposure for the four air pollutants, with multivariable-adjusted HRs of 0.71 (95 % confidence intervals [CI]: 0.65–0.76) for PM 2.5 , 0.69 (95 % CI: 0.64–0.75) for PM 10 , 0.70 (95 % CI: 0.64–0.75) for NO 2 , and 0.70 (95 % CI: 0.64–0.75) for NO X. No clear interactions were observed between each air pollutant exposure and PA (all P for interaction > 0.05). The findings that reducing air pollution exposure and increasing PA were both independently correlated with a diminished risk of incident CKD suggest that PA could be targeted to prevent CKD generally regardless of air pollution levels. Further research is needed in areas polluted moderately and severely to examine our findings. • Long-term exposure to air pollution substantially increased the incidence of CKD. • Habitual physical activity is negatively associated with incident CKD. • Physical activity is recommended to prevent CKD regardless of air pollution levels. [ABSTRACT FROM AUTHOR]

Published

2023

4. Associations of regular glucosamine use with all-cause and cause-specific mortality: a large prospective cohort study.

Author

Li ZH, Gao X, Chung VC, Zhong WF, Fu Q, Lv YB, Wang ZH, Shen D, Zhang XR, Zhang PD, Li FR, Huang QM, Chen Q, Song WQ, Wu XB, Shi XM, Kraus VB, Yang X, and Mao C

Subjects

Dietary Supplements, Female, Humans, Male, Middle Aged, Mortality, Proportional Hazards Models, Prospective Studies, United Kingdom epidemiology, Cardiovascular Diseases mortality, Digestive System Diseases mortality, Glucosamine therapeutic use, Neoplasms mortality, Respiratory Tract Diseases mortality

Abstract

Objectives: To evaluate the associations of regular glucosamine use with all-cause and cause-specific mortality in a large prospective cohort., Methods: This population-based prospective cohort study included 495 077 women and men (mean (SD) age, 56.6 (8.1) years) from the UK Biobank study. Participants were recruited from 2006 to 2010 and were followed up through 2018. We evaluated all-cause mortality and mortality due to cardiovascular disease (CVD), cancer, respiratory and digestive disease. HRs and 95% CIs for all-cause and cause-specific mortality were calculated using Cox proportional hazards models with adjustment for potential confounding variables., Results: At baseline, 19.1% of the participants reported regular use of glucosamine supplements. During a median follow-up of 8.9 years (IQR 8.3-9.7 years), 19 882 all-cause deaths were recorded, including 3802 CVD deaths, 8090 cancer deaths, 3380 respiratory disease deaths and 1061 digestive disease deaths. In multivariable adjusted analyses, the HRs associated with glucosamine use were 0.85 (95% CI 0.82 to 0.89) for all-cause mortality, 0.82 (95% CI 0.74 to 0.90) for CVD mortality, 0.94 (95% CI 0.88 to 0.99) for cancer mortality, 0.73 (95% CI 0.66 to 0.81) for respiratory mortality and 0.74 (95% CI 0.62 to 0.90) for digestive mortality. The inverse associations of glucosamine use with all-cause mortality seemed to be somewhat stronger among current than non-current smokers (p for interaction=0.00080)., Conclusions: Regular glucosamine supplementation was associated with lower mortality due to all causes, cancer, CVD, respiratory and digestive diseases., Competing Interests: Competing interests: None declared., (© Author(s) (or their employer(s)) 2020. Re-use permitted under CC BY. Published by BMJ.)

Published

2020