Geographical pattern of minerals and its association with health disparities in the USA

Bingjie Qu; Shiqiang Wu; Peng Zhao; Zheng Feei Ma; Royston Goodacre; Linxi Yuan; Ying Chen

Geographical pattern of minerals and its association with health disparities in the USA

Bingjie Qu, Shiqiang Wu, Peng Zhao, Zheng Feei Ma, Royston Goodacre, Linxi Yuan, Ying Chen^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

Original language	English
Journal	Environmental Geochemistry and Health
Publication status	Published - 2023

Cite this

@article{11788e900a7e465c859b8007d2cd1fcd,

title = "Geographical pattern of minerals and its association with health disparities in the USA",

abstract = "This study aimed to determine the common latent patterns of geographical distribution of health-related minerals across the USA and to evaluate the real-world cumulative effects of these patterns on overall population health. It was an ecological study using county-level data (3080 contiguous counties) on the concentrations of 14 minerals (i.e., aluminum, arsenic, calcium, copper, iron, lead, magnesium, manganese, mercury, phosphorus, selenium, sodium, titanium, zinc) in stream sediments (or surface soils), and the measurements of overall health including life expectancy at birth, age-specific mortality risks and cause-specific (summarized by 21 mutually exclusive groups) mortality rates. Latent class analysis (LCA) was employed to identify the common clusters of life expectancy-related minerals based on their concentration characteristics. Multivariate linear regression analyses were then conducted to examine the relationship between the LCA-derived clusters and the health measurements, with adjustment for potential confounding factors. Five minerals (i.e., arsenic, calcium, selenium, sodium and zinc) were associated with life expectancy and were analyzed in LCA. Three clusters were determined across the USA, the {\textquoteleft}common{\textquoteright} (n = 2056, 66.8%), {\textquoteleft}infertile{\textquoteright} (n = 739, 24.0%) and {\textquoteleft}plentiful{\textquoteright} (n = 285, 9.3%) clusters. Residents in counties with the {\textquoteleft}infertile{\textquoteright} profile were associated with the shortest life expectancy, highest mortality risks at all ages, and highest mortality rates for many reasons including the top five leading causes of death: cardiovascular diseases, neoplasms, neurological disorders, chronic respiratory conditions, and diabetes, urogenital, blood and endocrine diseases. Results remained statistically significant after confounding adjustment. Our study brings novel perspectives regarding environmental geochemistry to explain health disparities in the USA.",

author = "Bingjie Qu and Shiqiang Wu and Peng Zhao and Ma, {Zheng Feei} and Royston Goodacre and Linxi Yuan and Ying Chen",

year = "2023",

language = "English",

journal = "Environmental Geochemistry and Health",

issn = "0269-4042",

}

TY - JOUR

T1 - Geographical pattern of minerals and its association with health disparities in the USA

AU - Qu, Bingjie

AU - Wu, Shiqiang

AU - Zhao, Peng

AU - Ma, Zheng Feei

AU - Goodacre, Royston

AU - Yuan, Linxi

AU - Chen, Ying

PY - 2023

Y1 - 2023

N2 - This study aimed to determine the common latent patterns of geographical distribution of health-related minerals across the USA and to evaluate the real-world cumulative effects of these patterns on overall population health. It was an ecological study using county-level data (3080 contiguous counties) on the concentrations of 14 minerals (i.e., aluminum, arsenic, calcium, copper, iron, lead, magnesium, manganese, mercury, phosphorus, selenium, sodium, titanium, zinc) in stream sediments (or surface soils), and the measurements of overall health including life expectancy at birth, age-specific mortality risks and cause-specific (summarized by 21 mutually exclusive groups) mortality rates. Latent class analysis (LCA) was employed to identify the common clusters of life expectancy-related minerals based on their concentration characteristics. Multivariate linear regression analyses were then conducted to examine the relationship between the LCA-derived clusters and the health measurements, with adjustment for potential confounding factors. Five minerals (i.e., arsenic, calcium, selenium, sodium and zinc) were associated with life expectancy and were analyzed in LCA. Three clusters were determined across the USA, the ‘common’ (n = 2056, 66.8%), ‘infertile’ (n = 739, 24.0%) and ‘plentiful’ (n = 285, 9.3%) clusters. Residents in counties with the ‘infertile’ profile were associated with the shortest life expectancy, highest mortality risks at all ages, and highest mortality rates for many reasons including the top five leading causes of death: cardiovascular diseases, neoplasms, neurological disorders, chronic respiratory conditions, and diabetes, urogenital, blood and endocrine diseases. Results remained statistically significant after confounding adjustment. Our study brings novel perspectives regarding environmental geochemistry to explain health disparities in the USA.

AB - This study aimed to determine the common latent patterns of geographical distribution of health-related minerals across the USA and to evaluate the real-world cumulative effects of these patterns on overall population health. It was an ecological study using county-level data (3080 contiguous counties) on the concentrations of 14 minerals (i.e., aluminum, arsenic, calcium, copper, iron, lead, magnesium, manganese, mercury, phosphorus, selenium, sodium, titanium, zinc) in stream sediments (or surface soils), and the measurements of overall health including life expectancy at birth, age-specific mortality risks and cause-specific (summarized by 21 mutually exclusive groups) mortality rates. Latent class analysis (LCA) was employed to identify the common clusters of life expectancy-related minerals based on their concentration characteristics. Multivariate linear regression analyses were then conducted to examine the relationship between the LCA-derived clusters and the health measurements, with adjustment for potential confounding factors. Five minerals (i.e., arsenic, calcium, selenium, sodium and zinc) were associated with life expectancy and were analyzed in LCA. Three clusters were determined across the USA, the ‘common’ (n = 2056, 66.8%), ‘infertile’ (n = 739, 24.0%) and ‘plentiful’ (n = 285, 9.3%) clusters. Residents in counties with the ‘infertile’ profile were associated with the shortest life expectancy, highest mortality risks at all ages, and highest mortality rates for many reasons including the top five leading causes of death: cardiovascular diseases, neoplasms, neurological disorders, chronic respiratory conditions, and diabetes, urogenital, blood and endocrine diseases. Results remained statistically significant after confounding adjustment. Our study brings novel perspectives regarding environmental geochemistry to explain health disparities in the USA.

M3 - Article

C2 - 36805365

SN - 0269-4042

JO - Environmental Geochemistry and Health

JF - Environmental Geochemistry and Health

ER -