Literature DB >> 23097256

Arsenic exposure, diabetes prevalence, and diabetes control in the Strong Heart Study.

Matthew O Gribble1, Barbara V Howard, Jason G Umans, Nawar M Shara, Kevin A Francesconi, Walter Goessler, Ciprian M Crainiceanu, Ellen K Silbergeld, Eliseo Guallar, Ana Navas-Acien.   

Abstract

This study evaluated the association of arsenic exposure, as measured in urine, with diabetes prevalence, glycated hemoglobin, and insulin resistance in American Indian adults from Arizona, Oklahoma, and North and South Dakota (1989-1991). We studied 3,925 men and women 45-74 years of age with available urine arsenic measures. Diabetes was defined as a fasting glucose level of 126 mg/dL or higher, a 2-hour glucose level of 200 mg/dL or higher, a hemoglobin A1c (HbA1c) of 6.5% or higher, or diabetes treatment. Median urine arsenic concentration was 14.1 µg/L (interquartile range, 7.9-24.2). Diabetes prevalence was 49.4%. After adjustment for sociodemographic factors, diabetes risk factors, and urine creatinine, the prevalence ratio of diabetes comparing the 75th versus 25th percentiles of total arsenic concentrations was 1.14 (95% confidence interval: 1.08, 1.21). The association between arsenic and diabetes was restricted to participants with poor diabetes control (HbA1c ≥8%). Arsenic was positively associated with HbA1c levels in participants with diabetes. Arsenic was not associated with HbA1c or with insulin resistance (assessed by homeostatic model assessment to quantify insulin resistance) in participants without diabetes. Urine arsenic was associated with diabetes control in a population from rural communities in the United States with a high burden of diabetes. Prospective studies that evaluate the direction of the relation between poor diabetes control and arsenic exposure are needed.

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Year:  2012        PMID: 23097256      PMCID: PMC3626061          DOI: 10.1093/aje/kws153

Source DB:  PubMed          Journal:  Am J Epidemiol        ISSN: 0002-9262            Impact factor:   4.897


  43 in total

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4.  Glycemic control in diabetic American Indians. Longitudinal data from the Strong Heart Study.

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5.  Spatial distributions of arsenic exposure and mining communities from NHEXAS Arizona. National Human Exposure Assessment Survey.

Authors:  M K O'Rourke; S P Rogan; S Jin; G L Robertson
Journal:  J Expo Anal Environ Epidemiol       Date:  1999 Sep-Oct

6.  Evaluations of primary metals from NHEXAS Arizona: distributions and preliminary exposures. National Human Exposure Assessment Survey.

Authors:  M K O'Rourke; P K Van de Water; S Jin; S P Rogan; A D Weiss; S M Gordon; D M Moschandreas; M D Lebowitz
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7.  Ingested inorganic arsenic and prevalence of diabetes mellitus.

Authors:  M S Lai; Y M Hsueh; C J Chen; M P Shyu; S Y Chen; T L Kuo; M M Wu; T Y Tai
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8.  Geographic variation in cardiovascular disease risk factors among American Indians and comparisons with the corresponding state populations.

Authors:  S Levin; V L Lamar Welch; R A Bell; M L Casper
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10.  Urinary creatinine concentrations in the U.S. population: implications for urinary biologic monitoring measurements.

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  54 in total

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2.  Arsenic-stimulated lipolysis and adipose remodeling is mediated by G-protein-coupled receptors.

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Journal:  Int J Hyg Environ Health       Date:  2015-03-23       Impact factor: 5.840

4.  Low-level inorganic arsenic exposure and neuropsychological functioning in American Indian elders.

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5.  Cell cycle pathway dysregulation in human keratinocytes during chronic exposure to low arsenite.

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6.  Predicting arsenic concentrations in groundwater of San Luis Valley, Colorado: implications for individual-level lifetime exposure assessment.

Authors:  Katherine A James; Jaymie R Meliker; Barbara E Buttenfield; Tim Byers; Gary O Zerbe; John E Hokanson; Julie A Marshall
Journal:  Environ Geochem Health       Date:  2014-01-16       Impact factor: 4.609

7.  Targeted metabolomics to understand the association between arsenic metabolism and diabetes-related outcomes: Preliminary evidence from the Strong Heart Family Study.

Authors:  Miranda J Spratlen; Maria Grau-Perez; Jason G Umans; Joseph Yracheta; Lyle G Best; Kevin Francesconi; Walter Goessler; Teodoro Bottiglieri; Mary V Gamble; Shelley A Cole; Jinying Zhao; Ana Navas-Acien
Journal:  Environ Res       Date:  2018-09-27       Impact factor: 6.498

8.  The association of urine arsenic with prevalent and incident chronic kidney disease: evidence from the Strong Heart Study.

Authors:  Laura Y Zheng; Jason G Umans; Fawn Yeh; Kevin A Francesconi; Walter Goessler; Ellen K Silbergeld; Karen Bandeen-Roche; Eliseo Guallar; Barbara V Howard; Virginia M Weaver; Ana Navas-Acien
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9.  Arsenic and fasting blood glucose in the context of other drinking water chemicals: a cross-sectional study in Bangladesh.

Authors:  Shadassa Ourshalimian; Abu Mohd Naser; Mahbubur Rahman; Solaiman Doza; Jennifer Stowell; K M Venkat Narayan; Mohammad Shamsudduha; Matthew O Gribble
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10.  The Association of Arsenic Exposure and Arsenic Metabolism With the Metabolic Syndrome and Its Individual Components: Prospective Evidence From the Strong Heart Family Study.

Authors:  Miranda J Spratlen; Maria Grau-Perez; Lyle G Best; Joseph Yracheta; Mariana Lazo; Dhananjay Vaidya; Poojitha Balakrishnan; Mary V Gamble; Kevin A Francesconi; Walter Goessler; Shelley A Cole; Jason G Umans; Barbara V Howard; Ana Navas-Acien
Journal:  Am J Epidemiol       Date:  2018-08-01       Impact factor: 4.897
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