BACKGROUND Due to new restrictions on the use of bisphenol A(BPA),industries are beginning to replace it with derived molecules such as bisphenol S and F(BPS and BPF).There is extensive evidence in the academic litera...BACKGROUND Due to new restrictions on the use of bisphenol A(BPA),industries are beginning to replace it with derived molecules such as bisphenol S and F(BPS and BPF).There is extensive evidence in the academic literature on the potential health effects of BPA,which is known to be a diabetogenic molecule.However,there are few publications related to new compounds derived from BPA.AIM To perform an epidemiological study of urinary BPS and BPF in the American National Health and Nutrition Examination Survey(NHANES)cohort,and analyze their possible relationship with diabetes mellitus.METHODS NHANES datasets from 2013 to 2016 were used due to the urinary BPF and BPS availability.Data from 3658 adults were analyzed to perform regression analysis exploring the possible relationship between BPA-derived compounds and diabetes.RESULTS Descriptive statistics,linear regression modeling,and logistic regression analysis revealed a significant relationship between urinary BPS,but not BPF,and diabetes risk.Additionally,a relationship was observed between both compounds and hypertension and a slight relationship between BPF and dyslipidemia.CONCLUSION In the present study,a strong relationship between urinary BPS,not BPF,and diabetes risk has been determined.BPA substitute molecules do not exempt the population from potential health risks.展开更多
基金Supported by the Instituto de Salud Carlos III,No. PI15/02139Comunidad Autónoma de Madrid,No. B2017-BMD-3686
文摘BACKGROUND Due to new restrictions on the use of bisphenol A(BPA),industries are beginning to replace it with derived molecules such as bisphenol S and F(BPS and BPF).There is extensive evidence in the academic literature on the potential health effects of BPA,which is known to be a diabetogenic molecule.However,there are few publications related to new compounds derived from BPA.AIM To perform an epidemiological study of urinary BPS and BPF in the American National Health and Nutrition Examination Survey(NHANES)cohort,and analyze their possible relationship with diabetes mellitus.METHODS NHANES datasets from 2013 to 2016 were used due to the urinary BPF and BPS availability.Data from 3658 adults were analyzed to perform regression analysis exploring the possible relationship between BPA-derived compounds and diabetes.RESULTS Descriptive statistics,linear regression modeling,and logistic regression analysis revealed a significant relationship between urinary BPS,but not BPF,and diabetes risk.Additionally,a relationship was observed between both compounds and hypertension and a slight relationship between BPF and dyslipidemia.CONCLUSION In the present study,a strong relationship between urinary BPS,not BPF,and diabetes risk has been determined.BPA substitute molecules do not exempt the population from potential health risks.
