Blood concentrations of metals, essential trace elements, rare earth elements and other chemicals in the general adult population of Barcelona: Distribution and associated sociodemographic factors

Very little information is available on the population distribution and on sociodemographic predictors of body concentrations of rare earth elements (REE) and other chemicals used in the manufacturing of high-tech devices. To analyze the distribution and associated sociodemographic factors of blood...

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Published inThe Science of the total environment Vol. 909; p. 168502
Main Authors Gasull, Magda, Camargo, Judit, Pumarega, José, Henríquez-Hernández, Luis Alberto, Campi, Laura, Zumbado, Manuel, Contreras-Llanes, Manuel, Oliveras, Laura, González-Marín, Patricia, Luzardo, Octavio P., Gómez-Gutiérrez, Anna, Alguacil, Juan, Porta, Miquel
Format Journal Article
LanguageEnglish
Published Elsevier B.V 20.01.2024
Subjects
adults
antimony
arsenic
blood
cadmium
copper
environment
environmental exposure / human samples
essential trace elements
europium
gold
health surveys
Human biomonitoring
indium
iron
lead
manganese
mercury
metals
population distribution
rare earth elements (REE)
ruthenium
silver
social class
Spain
strontium
tantalum
thallium
thulium
zinc
Spain
LOD
IUIBS
RSD
ULPGC
CI
CPS
POPs
metals
HBM-GV
rare earth elements (REE)
BHS
LOQ
BEs
HB2GV
QC
REE
ATSDR
ISTD
Human biomonitoring
ICP-MS
environmental exposure / human samples
essential trace elements
BMI
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Abstract Very little information is available on the population distribution and on sociodemographic predictors of body concentrations of rare earth elements (REE) and other chemicals used in the manufacturing of high-tech devices. To analyze the distribution and associated sociodemographic factors of blood concentrations of chemical elements (including some metals, essential trace elements, rare earth elements and other minority elements) in a representative sample of the general population of Barcelona (Spain). A sample of participants in the Barcelona Health Survey of 2016 (N = 240) were interviewed face-to-face, gave blood, and underwent a physical exam. Concentrations of 50 chemical elements were analyzed by ICP-MS in whole blood samples. All 50 chemicals studied, including 26 REE and minority elements, were detected. Lead, silver, arsenic, cadmium, mercury, antimony, strontium, thallium and six essential trace elements were detected in more than 70% of the population. The most frequently detected REE and minority elements were europium (62%), thulium (56%), gold (41%), indium (31%), ruthenium (24%), and tantalum (20%). Less affluent occupational social classes had higher percentages of detection of some REE. Median concentrations of silver, arsenic, cadmium and mercury were: 0.091, 3.01, 0.309, and 3.33 ng/mL, respectively. Women had lower median concentrations than men of lead (1.47 vs. 2.04 μg/dL, respectively), iron and zinc, and higher concentrations of copper and manganese. The influence of sociodemographic characteristics on chemical concentrations differed by sex. While well-known contaminants as lead, mercury, cadmium, or arsenic were detected in the majority of the population, numerous individuals had also detectable concentrations of chemicals as europium, indium, thulium, or gold. Sociodemographic and physical characteristics (sex, age, social class, weight change) influenced concentrations of some chemicals. [Display omitted] •This is 1 of only 5 studies measuring ≥10 rare earth elements in a general population.•Europium, thulium, gold, indium, ruthenium, and tantalum were detected in >20% of subjects.•Increasing age and BMI were associated to higher concentrations of some elements.•Weight change was a predictor of lead, strontium and silver concentrations.•Only some elements were more frequently detected in the less affluent social classes.
AbstractList Very little information is available on the population distribution and on sociodemographic predictors of body concentrations of rare earth elements (REE) and other chemicals used in the manufacturing of high-tech devices. To analyze the distribution and associated sociodemographic factors of blood concentrations of chemical elements (including some metals, essential trace elements, rare earth elements and other minority elements) in a representative sample of the general population of Barcelona (Spain). A sample of participants in the Barcelona Health Survey of 2016 (N = 240) were interviewed face-to-face, gave blood, and underwent a physical exam. Concentrations of 50 chemical elements were analyzed by ICP-MS in whole blood samples. All 50 chemicals studied, including 26 REE and minority elements, were detected. Lead, silver, arsenic, cadmium, mercury, antimony, strontium, thallium and six essential trace elements were detected in more than 70% of the population. The most frequently detected REE and minority elements were europium (62%), thulium (56%), gold (41%), indium (31%), ruthenium (24%), and tantalum (20%). Less affluent occupational social classes had higher percentages of detection of some REE. Median concentrations of silver, arsenic, cadmium and mercury were: 0.091, 3.01, 0.309, and 3.33 ng/mL, respectively. Women had lower median concentrations than men of lead (1.47 vs. 2.04 μg/dL, respectively), iron and zinc, and higher concentrations of copper and manganese. The influence of sociodemographic characteristics on chemical concentrations differed by sex. While well-known contaminants as lead, mercury, cadmium, or arsenic were detected in the majority of the population, numerous individuals had also detectable concentrations of chemicals as europium, indium, thulium, or gold. Sociodemographic and physical characteristics (sex, age, social class, weight change) influenced concentrations of some chemicals.
Very little information is available on the population distribution and on sociodemographic predictors of body concentrations of rare earth elements (REE) and other chemicals used in the manufacturing of high-tech devices.BACKGROUNDVery little information is available on the population distribution and on sociodemographic predictors of body concentrations of rare earth elements (REE) and other chemicals used in the manufacturing of high-tech devices.To analyze the distribution and associated sociodemographic factors of blood concentrations of chemical elements (including some metals, essential trace elements, rare earth elements and other minority elements) in a representative sample of the general population of Barcelona (Spain).OBJECTIVESTo analyze the distribution and associated sociodemographic factors of blood concentrations of chemical elements (including some metals, essential trace elements, rare earth elements and other minority elements) in a representative sample of the general population of Barcelona (Spain).A sample of participants in the Barcelona Health Survey of 2016 (N = 240) were interviewed face-to-face, gave blood, and underwent a physical exam. Concentrations of 50 chemical elements were analyzed by ICP-MS in whole blood samples.METHODSA sample of participants in the Barcelona Health Survey of 2016 (N = 240) were interviewed face-to-face, gave blood, and underwent a physical exam. Concentrations of 50 chemical elements were analyzed by ICP-MS in whole blood samples.All 50 chemicals studied, including 26 REE and minority elements, were detected. Lead, silver, arsenic, cadmium, mercury, antimony, strontium, thallium and six essential trace elements were detected in more than 70% of the population. The most frequently detected REE and minority elements were europium (62%), thulium (56%), gold (41%), indium (31%), ruthenium (24%), and tantalum (20%). Less affluent occupational social classes had higher percentages of detection of some REE. Median concentrations of silver, arsenic, cadmium and mercury were: 0.091, 3.01, 0.309, and 3.33 ng/mL, respectively. Women had lower median concentrations than men of lead (1.47 vs. 2.04 μg/dL, respectively), iron and zinc, and higher concentrations of copper and manganese. The influence of sociodemographic characteristics on chemical concentrations differed by sex.RESULTSAll 50 chemicals studied, including 26 REE and minority elements, were detected. Lead, silver, arsenic, cadmium, mercury, antimony, strontium, thallium and six essential trace elements were detected in more than 70% of the population. The most frequently detected REE and minority elements were europium (62%), thulium (56%), gold (41%), indium (31%), ruthenium (24%), and tantalum (20%). Less affluent occupational social classes had higher percentages of detection of some REE. Median concentrations of silver, arsenic, cadmium and mercury were: 0.091, 3.01, 0.309, and 3.33 ng/mL, respectively. Women had lower median concentrations than men of lead (1.47 vs. 2.04 μg/dL, respectively), iron and zinc, and higher concentrations of copper and manganese. The influence of sociodemographic characteristics on chemical concentrations differed by sex.While well-known contaminants as lead, mercury, cadmium, or arsenic were detected in the majority of the population, numerous individuals had also detectable concentrations of chemicals as europium, indium, thulium, or gold. Sociodemographic and physical characteristics (sex, age, social class, weight change) influenced concentrations of some chemicals.CONCLUSIONSWhile well-known contaminants as lead, mercury, cadmium, or arsenic were detected in the majority of the population, numerous individuals had also detectable concentrations of chemicals as europium, indium, thulium, or gold. Sociodemographic and physical characteristics (sex, age, social class, weight change) influenced concentrations of some chemicals.
Very little information is available on the population distribution and on sociodemographic predictors of body concentrations of rare earth elements (REE) and other chemicals used in the manufacturing of high-tech devices. To analyze the distribution and associated sociodemographic factors of blood concentrations of chemical elements (including some metals, essential trace elements, rare earth elements and other minority elements) in a representative sample of the general population of Barcelona (Spain). A sample of participants in the Barcelona Health Survey of 2016 (N = 240) were interviewed face-to-face, gave blood, and underwent a physical exam. Concentrations of 50 chemical elements were analyzed by ICP-MS in whole blood samples. All 50 chemicals studied, including 26 REE and minority elements, were detected. Lead, silver, arsenic, cadmium, mercury, antimony, strontium, thallium and six essential trace elements were detected in more than 70% of the population. The most frequently detected REE and minority elements were europium (62%), thulium (56%), gold (41%), indium (31%), ruthenium (24%), and tantalum (20%). Less affluent occupational social classes had higher percentages of detection of some REE. Median concentrations of silver, arsenic, cadmium and mercury were: 0.091, 3.01, 0.309, and 3.33 ng/mL, respectively. Women had lower median concentrations than men of lead (1.47 vs. 2.04 μg/dL, respectively), iron and zinc, and higher concentrations of copper and manganese. The influence of sociodemographic characteristics on chemical concentrations differed by sex. While well-known contaminants as lead, mercury, cadmium, or arsenic were detected in the majority of the population, numerous individuals had also detectable concentrations of chemicals as europium, indium, thulium, or gold. Sociodemographic and physical characteristics (sex, age, social class, weight change) influenced concentrations of some chemicals. [Display omitted] •This is 1 of only 5 studies measuring ≥10 rare earth elements in a general population.•Europium, thulium, gold, indium, ruthenium, and tantalum were detected in >20% of subjects.•Increasing age and BMI were associated to higher concentrations of some elements.•Weight change was a predictor of lead, strontium and silver concentrations.•Only some elements were more frequently detected in the less affluent social classes.
ArticleNumber 168502
Author Contreras-Llanes, Manuel
Oliveras, Laura
González-Marín, Patricia
Zumbado, Manuel
Gasull, Magda
Campi, Laura
Gómez-Gutiérrez, Anna
Alguacil, Juan
Pumarega, José
Luzardo, Octavio P.
Porta, Miquel
Camargo, Judit
Henríquez-Hernández, Luis Alberto
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  surname: Camargo
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  organization: Hospital del Mar Research Institute (IMIM), Barcelona, Spain
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  surname: Oliveras
  fullname: Oliveras, Laura
  organization: Qualitat i Intervenció Ambiental, Agència de Salut Pública de Barcelona, Spain
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  givenname: Patricia
  surname: González-Marín
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Keywords LOD
IUIBS
RSD
ULPGC
CI
CPS
POPs
metals
HBM-GV
rare earth elements (REE)
BHS
LOQ
BEs
HB2GV
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Snippet Very little information is available on the population distribution and on sociodemographic predictors of body concentrations of rare earth elements (REE) and...
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StartPage 168502
SubjectTerms adults
antimony
arsenic
blood
cadmium
copper
environment
environmental exposure / human samples
essential trace elements
europium
gold
health surveys
Human biomonitoring
indium
iron
lead
manganese
mercury
metals
population distribution
rare earth elements (REE)
ruthenium
silver
social class
Spain
strontium
tantalum
thallium
thulium
zinc
Title Blood concentrations of metals, essential trace elements, rare earth elements and other chemicals in the general adult population of Barcelona: Distribution and associated sociodemographic factors
URI https://dx.doi.org/10.1016/j.scitotenv.2023.168502
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