Lead: Difference between revisions

From Opasnet
Jump to navigation Jump to search
mNo edit summary
 
(One intermediate revision by one other user not shown)
Line 1: Line 1:
{{encyclopedia|moderator=Jouni|stub=Yes}}
{{encyclopedia|moderator=Jouni|stub=Yes}}
'''Lead''' is a heavy metal and an environmental pollutant.
[[Category:IEHIAS]]
[[Category:Exposure]]
[[Category:Biomarker]]
:''The text on this page is taken from an equivalent page of the [[Talk:IEHIAS|IEHIAS]]-project.
 
'''Lead''' is a heavy metal and a widespread environmental pollutant that can cause neurological, haematological and renal effects in exposed populations
 
==Lead as a biomarker==
 
===Sample collection and storage===
 
'''Matrix:
 
Blood is the best biological matrix to monitor lead exposure
 
'''Kinetics:
*Uptake generally through inhalation or ingestion
*Absorbed lead mainly stored in bones. Lead can cross the placenta and the brain- blood barriers
*Lead is mainly excreted via urine and bile
*Elimination follows the kinetics of a three compartment model with half-lives of 35 days (blood), 400 days (soft tissue), and 20 years (bones)
 
'''Sampling conditions:
 
Blood should be collected in containers free of any metal contamination. Samples can be stored at 4°C or frozen
 
===Sample measurement===
 
'''Analytical aspects:
 
*Measured through absorption spectrometry (AAS) or ICP-MS
*Sensitivity of measures is 0.05-0.1 µg/l
 
'''Performance characteristics:
 
Analytical reproducibility is 1-2%, inter- and intralaboratory variability is 5-10%
 
'''Validation:
 
Measurement methods are fully validated, intercomparison programs and certified standards and reference materials is available
 
'''Confounding factors:
 
Smoking, alcohol consumption, menopauses and hormone-replacement therapy
 
===Data interpretation===
 
'''Concentrations reported in literature:
 
Mean values:
*adults 30-50 µg/l
*children 10-30 µg/l
 
Critical values for children: 100 µg/l
 
Occupational biological dose limit: 300 µg/l
 
'''Dose-response/effect relationships:
 
{| {{prettytable}}
|rowspan="2"| Effects ||colspan="2"| Pb in blood (µg/l)
|---
|Children || Adults
|---
|Cognitive or hearing impairment || 50-100 ||
|---
|Vitamin D3 reduction || 100-150 ||
|---
|Erythrocyte porphyrin elevation || 150-200 || 200-300
|---
|Reduced haemoglobin synthesis || 250-300 || 500
|---
|Increased urinary delta-aminolevulinic acid || 400 || 400
|---
|Frank anaemia || 700 || 800
|---
|Encephalopathy || 800-1,000 || 1,000-1,200
|}
 
'''Time trend, geographical variation, susceptibel groups:
 
In countries where leaded-gasoline has been banned, concentrations of lead in the blood of general population have rapidly decreased to levels that are now about 70-80% lower than those prevailing in the 1970s


==See also==
==See also==
Line 14: Line 94:
[http://cfpub.epa.gov/ncea/cfm/recordisplay.cfm?deid=157668]
[http://cfpub.epa.gov/ncea/cfm/recordisplay.cfm?deid=157668]
[http://www.ncbi.nlm.nih.gov/pubmed/19562647]
[http://www.ncbi.nlm.nih.gov/pubmed/19562647]
==See also==
{{IEHIAS}}

Latest revision as of 19:07, 25 September 2014

The text on this page is taken from an equivalent page of the IEHIAS-project.

Lead is a heavy metal and a widespread environmental pollutant that can cause neurological, haematological and renal effects in exposed populations

Lead as a biomarker

Sample collection and storage

Matrix:

Blood is the best biological matrix to monitor lead exposure

Kinetics:

  • Uptake generally through inhalation or ingestion
  • Absorbed lead mainly stored in bones. Lead can cross the placenta and the brain- blood barriers
  • Lead is mainly excreted via urine and bile
  • Elimination follows the kinetics of a three compartment model with half-lives of 35 days (blood), 400 days (soft tissue), and 20 years (bones)

Sampling conditions:

Blood should be collected in containers free of any metal contamination. Samples can be stored at 4°C or frozen

Sample measurement

Analytical aspects:

  • Measured through absorption spectrometry (AAS) or ICP-MS
  • Sensitivity of measures is 0.05-0.1 µg/l

Performance characteristics:

Analytical reproducibility is 1-2%, inter- and intralaboratory variability is 5-10%

Validation:

Measurement methods are fully validated, intercomparison programs and certified standards and reference materials is available

Confounding factors:

Smoking, alcohol consumption, menopauses and hormone-replacement therapy

Data interpretation

Concentrations reported in literature:

Mean values:

  • adults 30-50 µg/l
  • children 10-30 µg/l

Critical values for children: 100 µg/l

Occupational biological dose limit: 300 µg/l

Dose-response/effect relationships:

Effects Pb in blood (µg/l)
Children Adults
Cognitive or hearing impairment 50-100
Vitamin D3 reduction 100-150
Erythrocyte porphyrin elevation 150-200 200-300
Reduced haemoglobin synthesis 250-300 500
Increased urinary delta-aminolevulinic acid 400 400
Frank anaemia 700 800
Encephalopathy 800-1,000 1,000-1,200

Time trend, geographical variation, susceptibel groups:

In countries where leaded-gasoline has been banned, concentrations of lead in the blood of general population have rapidly decreased to levels that are now about 70-80% lower than those prevailing in the 1970s

See also

[2] [3] [4] [5]

See also

Integrated Environmental Health Impact Assessment System
IEHIAS is a website developed by two large EU-funded projects Intarese and Heimtsa. The content from the original website was moved to Opasnet.
Topic Pages
Toolkit
Data

Boundaries · Population: age+sex 100m LAU2 Totals Age and gender · ExpoPlatform · Agriculture emissions · Climate · Soil: Degredation · Atlases: Geochemical Urban · SoDa · PVGIS · CORINE 2000 · Biomarkers: AP As BPA BFRs Cd Dioxins DBPs Fluorinated surfactants Pb Organochlorine insecticides OPs Parabens Phthalates PAHs PCBs · Health: Effects Statistics · CARE · IRTAD · Functions: Impact Exposure-response · Monetary values · Morbidity · Mortality: Database

Examples and case studies Defining question: Agriculture Waste Water · Defining stakeholders: Agriculture Waste Water · Engaging stakeholders: Water · Scenarios: Agriculture Crop CAP Crop allocation Energy crop · Scenario examples: Transport Waste SRES-population UVR and Cancer
Models and methods Ind. select · Mindmap · Diagr. tools · Scen. constr. · Focal sum · Land use · Visual. toolbox · SIENA: Simulator Data Description · Mass balance · Matrix · Princ. comp. · ADMS · CAR · CHIMERE · EcoSenseWeb · H2O Quality · EMF loss · Geomorf · UVR models · INDEX · RISK IAQ · CalTOX · PANGEA · dynamiCROP · IndusChemFate · Transport · PBPK Cd · PBTK dioxin · Exp. Response · Impact calc. · Aguila · Protocol elic. · Info value · DST metadata · E & H: Monitoring Frameworks · Integrated monitoring: Concepts Framework Methods Needs
Listings Health impacts of agricultural land use change · Health impacts of regulative policies on use of DBP in consumer products
Guidance System
The concept
Issue framing Formulating scenarios · Scenarios: Prescriptive Descriptive Predictive Probabilistic · Scoping · Building a conceptual model · Causal chain · Other frameworks · Selecting indicators
Design Learning · Accuracy · Complex exposures · Matching exposure and health · Info needs · Vulnerable groups · Values · Variation · Location · Resolution · Zone design · Timeframes · Justice · Screening · Estimation · Elicitation · Delphi · Extrapolation · Transferring results · Temporal extrapolation · Spatial extrapolation · Triangulation · Rapid modelling · Intake fraction · iF reading · Piloting · Example · Piloting data · Protocol development
Execution Causal chain · Contaminant sources · Disaggregation · Contaminant release · Transport and fate · Source attribution · Multimedia models · Exposure · Exposure modelling · Intake fraction · Exposure-to-intake · Internal dose · Exposure-response · Impact analysis · Monetisation · Monetary values · Uncertainty
Appraisal