Difference between revisions of "ERFs of environmental pollutants"

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===Data===
 
===Data===
  
<t2b index="Exposure agent,Trait,Population,Age,Sex,Response metric,Exposure route,ERF parameter,Scaling,Exposure unit,Observation" locations="Threshold,ERF" desc="Description" unit="-">
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<t2b index="Exposure agent,Response,Population,Age,Exposure route,Exposure metric,ER-function,Scaling,Exposure unit,Observation" locations="Threshold,ERF" desc="Description" unit="-">
Indoor radon|Lung cancer|Whole population|||Morbidity|Inhalation|RR|None|/Bq|0|1.0016 (1.0005-1.0031)|  
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Indoor radon|Lung cancer morbidity|Whole population||Inhalation|Annual average outdoor concentration|RR|None|Bq|0|1.0016 (1.0005-1.0031)|  
PM2.5|Lung cancer|Whole population|||Mortality|Inhalation|RR|None|µg/m3|0|1.014 (1.004-1.023)|Outdoor air, Pope et al. 2002
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PM2.5|Lung cancer mortality|Whole population||Inhalation|Annual average outdoor concentration|RR|None|µg/m3|0|1.014 (1.004-1.023)|Outdoor air, Pope et al. 2002
PM2.5|Cardiopulmonary|Whole population|||Mortality|Inhalation|RR|None||0|1.009 (1.003-1.016)|Outdoor air, Pope et al. 2002
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PM2.5|Cardiopulmonary mortality|Whole population||Inhalation|Annual average outdoor concentration|RR|None||0|1.009 (1.003-1.016)|Outdoor air, Pope et al. 2002
PM2.5|Total mortality|Whole population|||Mortality|Inhalation|RR|None||0|1.0062 (1.0014-1.011)|Outdoor air
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PM2.5|Total mortality|Whole population||Inhalation|Annual average outdoor concentration|RR|None||0|1.0062 (1.0014-1.011)|Outdoor air
Chlorination byproducts|Bladder cancer|People using chlorinated surface water|||Morbidity|Ingestion|RR|None|µg/l|0|1.0039 (1.00053-1.00722)|
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Chlorination byproducts|Bladder cancer morbidity|People using chlorinated surface water||Ingestion|Concentration in water|RR|None|µg/l|0|1.0039 (1.00053-1.00722)|
Chlorination byproducts|Bladder cancer|People using chlorinated surface water|||Morbidity|Ingestion|RR|None|net rev/l|0|1.000029 (1-1.000072)|
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Chlorination byproducts|Bladder cancer morbidity|People using chlorinated surface water||Ingestion|Concentration in water|RR|None|net rev/l|0|1.000029 (1-1.000072)|
Arsenic|Bladder cancer|People using water from bore wells|||Morbidity|Ingestion|RR|None|ug/l|0|1.002 (1-1.006)|
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Arsenic|Bladder cancer morbidity|People using water from bore wells||Ingestion|Concentration in water|RR|None|ug/l|0|1.002 (0.999-1.006)|  
Arsenic|Bladder cancer|People using wellwater in Pirkanmaa| ||Morbidity|Ingestion|RR|None|ug/l|0|1.002 (0.999-1.006)|
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Formaldehyde|Asthma morbidity|Whole population|<14|Inhalation|Annual average indoor concentration|RR|None|µg/m3|0|1.0140743178|
Formaldehyde|Asthma|Whole population|<14||Morbidity|Inhalation|RR|None|µg/m3|0|1.0140743178|
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Dampness damage|Asthma morbidity|Whole population||Inhalation|Yes/no moisture damage|RR|None| |0|1.37 (1.23-1.53)|
Dampness damage|Asthma|Whole population|||Morbidity|Inhalation|RR|None| |0|1.37 (1.23-1.53)|
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Dampness damage|Lower respiratory symptoms morbidity|Whole population||Inhalation|Yes/no moisture damage|RR|None||0|1.5 (1.38-1.86)|
Dampness damage|Lower respiratory symptoms|Whole population|||Morbidity|Inhalation|RR|None||0|1.5 (1.38-1.86)|
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Dampness damage|Upper respiratory symptoms morbidity|Whole population||Inhalation|Yes/no moisture damage|RR|None||0|1.7 (1.44-2)|
Dampness damage|Upper respiratory symptoms|Whole population|||Morbidity|Inhalation|RR|None||0|1.7 (1.44-2)|
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Fluoride|Fluorosis|People living in Southern Finland using water with fluoride|<14|Ingestion|Concentration in water|UR|None||0|0.125|
Fluoride|Fluorosis|People living in Southern Finland using water with fluoride|<14||Morbidity|Ingestion|UR|None||0|0.125|
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Outdoor ozone|Total mortality|Whole population||Inhalation|Annual average outdoor concentration|RR|None|ug/m3|0|1.000299596 (1.000099955-1.000399282)|
Outdoor ozone|Total mortality|Whole population|||Mortality|Inhalation|RR|None|ug/m3|0|1.000299596 (1.000099955-1.000399282)|
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Lead|Decrease of IQ below 70 points|Whole population||Ingestion?|Intake level from food|UR|None| |0|0.025|
Lead|Decrease of IQ (less than 70 points)|Whole population|||Morbidity||UR|None| |0|0.025|
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Lead|Increased blood pressure|Whole population||Ingestion?|Intake level from food|UR|None| |0|0.025|
Lead|Increased bloodpressure|Whole population|||Morbidity||UR|None| |0|0.025|
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Formaldehyde|Nasal cancer morbidity|Whole population||Inhalation|Annual average indoor concentration|UR|None|ug/m3|0|0.000013|
Formaldehyde|Nasal cancer|Whole population|||Morbidity|Inhalation|UR|None|ug/m3|0|0.000013|
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Benzene|Leukemia morbidity|Whole population||Inhalation|Annual average indoor concentration|UR|None| ug/m3|0|0.000005|
Formaldehyde at work|Nasal cancer|Population at working age|||Morbidity|Inhalation|UR|None|ug/m3|0|0.000013|
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Quatzdust|Silicosis morbidity|Population at working age||Inhalation|Indoor concentration|UR|None|mg/m3|0|0.125 (0.125.-0.25)|
Benzene|Leukemia|Whole population|||Morbidity|Inhalation|UR|None| ug/m3|0|0.000005|
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Asbestos at work|Lung cancer and mesothelioma morbidity|Population at working age||Inhalation|Indoor concentration|UR|None| |0|0.05 (0.01-0.1)|
Benzene at work|Leukemia|Population at working age|||Morbidity|Inhalation|UR|None|m3/ug|0|0.000005|
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Noise at work|Hearing damage|Population at working age||Hearing|Noise level|UR|None| |0|570|Medium noise (80-85 dB)
Quatzdust|Silicosis|Population at working age|||Morbidity||UR|None|mg/m3|0|0.125 (0.125.-0.25)|
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Noise at work|Hearing damage|Population at working age||Hearing|Noise level|UR|None| |0|1320|Loud noise (>85 dB)
Asbestos at work|Lung cancer and mesothelioma|Population at working age|||Morbidity||UR|None| |0|0.05 (0.01-0.1)|
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Outdoor ozone|Mild decreasing on general functioning|Whole population||Inhalation|Annual average outdoor concentration|UR|None|ug/m3|0|0.115 (0.044-0.186)|
Noise at work|Hearing damage|Population at working age|||Morbidity||UR|None| |0|570|Medium noise (80-85 dB)
 
Noise at work|Hearing damage|Population at working age|||Morbidity||UR|None| |0|1320|Loud noise (>85 dB)
 
Outdoor ozone|Mild decreasing on general functioning|Whole population|||Morbidity|Inhalation|UR|None|ug/m3|0|0.115 (0.044-0.186)|
 
 
</t2b>
 
</t2b>
  

Revision as of 11:53, 28 May 2015


This page contains exposure-response functions of several environmental pollutants that do not have own pages. This page used to contain e.g. estimates for dioxins, but they were moved to ERF of dioxin.

Question

What are ERFs of environmental pollutants that do not have own pages in Opasnet?

Answer

Relevant results here (in Finnish).

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Rationale

Data

Difference between revisions of "ERFs of environmental pollutants"(-)
ObsExposure agentResponsePopulationAgeExposure routeExposure metricER-functionScalingExposure unitThresholdERFDescription
1Indoor radonLung cancer morbidityWhole populationInhalationAnnual average outdoor concentrationRRNoneBq01.0016 (1.0005-1.0031)
2PM2.5Lung cancer mortalityWhole populationInhalationAnnual average outdoor concentrationRRNoneµg/m301.014 (1.004-1.023)Outdoor air, Pope et al. 2002
3PM2.5Cardiopulmonary mortalityWhole populationInhalationAnnual average outdoor concentrationRRNone01.009 (1.003-1.016)Outdoor air, Pope et al. 2002
4PM2.5Total mortalityWhole populationInhalationAnnual average outdoor concentrationRRNone01.0062 (1.0014-1.011)Outdoor air
5Chlorination byproductsBladder cancer morbidityPeople using chlorinated surface waterIngestionConcentration in waterRRNoneµg/l01.0039 (1.00053-1.00722)
6Chlorination byproductsBladder cancer morbidityPeople using chlorinated surface waterIngestionConcentration in waterRRNonenet rev/l01.000029 (1-1.000072)
7ArsenicBladder cancer morbidityPeople using water from bore wellsIngestionConcentration in waterRRNoneug/l01.002 (0.999-1.006)
8FormaldehydeAsthma morbidityWhole population<14InhalationAnnual average indoor concentrationRRNoneµg/m301.0140743178
9Dampness damageAsthma morbidityWhole populationInhalationYes/no moisture damageRRNone 01.37 (1.23-1.53)
10Dampness damageLower respiratory symptoms morbidityWhole populationInhalationYes/no moisture damageRRNone01.5 (1.38-1.86)
11Dampness damageUpper respiratory symptoms morbidityWhole populationInhalationYes/no moisture damageRRNone01.7 (1.44-2)
12FluorideFluorosisPeople living in Southern Finland using water with fluoride<14IngestionConcentration in waterURNone00.125
13Outdoor ozoneTotal mortalityWhole populationInhalationAnnual average outdoor concentrationRRNoneug/m301.000299596 (1.000099955-1.000399282)
14LeadDecrease of IQ below 70 pointsWhole populationIngestion?Intake level from foodURNone 00.025
15LeadIncreased blood pressureWhole populationIngestion?Intake level from foodURNone 00.025
16FormaldehydeNasal cancer morbidityWhole populationInhalationAnnual average indoor concentrationURNoneug/m300.000013
17BenzeneLeukemia morbidityWhole populationInhalationAnnual average indoor concentrationURNone ug/m300.000005
18QuatzdustSilicosis morbidityPopulation at working ageInhalationIndoor concentrationURNonemg/m300.125 (0.125.-0.25)
19Asbestos at workLung cancer and mesothelioma morbidityPopulation at working ageInhalationIndoor concentrationURNone 00.05 (0.01-0.1)
20Noise at workHearing damagePopulation at working ageHearingNoise levelURNone 0570Medium noise (80-85 dB)
21Noise at workHearing damagePopulation at working ageHearingNoise levelURNone 01320Loud noise (>85 dB)
22Outdoor ozoneMild decreasing on general functioningWhole populationInhalationAnnual average outdoor concentrationURNoneug/m300.115 (0.044-0.186)
  • --# : Check some translations (chlorinating, surrounding's tobacco smoke, fluorosis, dampness damage,Nose-pharynx cancers, Mild decreasing on general funtioning) --Heta 18:43, 12 October 2012 (EEST)
  • --# : Note that ERFs for "Environmental tobacco smoke" were moved to Indoor environment quality (IEQ) factors page, where they belong to. --Marjo 13:56, 28 March 2013 (EET)

Calculations

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See also

References

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