Difference between revisions of "ERF for short term PM2.5 exposure and restricted activity days (RADs)"
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== Scope == | == Scope == | ||
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Exposure-response function for short-term (acute) exposure to ambient air particulate matter (PM) with an aerodynamic diameter < 2.5 µm and restricted activity days (RADs). RAD is defined as a day when a person needs to change his/her normal activities because of ill-health. It is based on surveys among general population. In terms of severity, RADs include: 1) days needed to stay in bed, 2) days of work/school (WLS) and 3) days of other, less serious restrictions on normal activity (MRADs). | Exposure-response function for short-term (acute) exposure to ambient air particulate matter (PM) with an aerodynamic diameter < 2.5 µm and restricted activity days (RADs). RAD is defined as a day when a person needs to change his/her normal activities because of ill-health. It is based on surveys among general population. In terms of severity, RADs include: 1) days needed to stay in bed, 2) days of work/school (WLS) and 3) days of other, less serious restrictions on normal activity (MRADs). | ||
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=== Data === | === Data === | ||
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'''''Ostro (1987) <ref>Ostro BD (1987). Air pollution and morbidity revisited: a specification test. J Environ Econ Manage, 14: 87-98.</ref> | '''''Ostro (1987) <ref>Ostro BD (1987). Air pollution and morbidity revisited: a specification test. J Environ Econ Manage, 14: 87-98.</ref> | ||
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=== Causality === | === Causality === | ||
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=== Unit === | === Unit === | ||
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Increase in no. of RADs per 10 µg/m3 increase in exposure per 1000 people aged 15-64 | Increase in no. of RADs per 10 µg/m3 increase in exposure per 1000 people aged 15-64 | ||
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=== Formula === | === Formula === | ||
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== Result == | == Result == | ||
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==See also== | ==See also== | ||
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*[http://ec.europa.eu/environment/archives/air/cafe/pdf/cba_methodology_vol2.pdf Service Contract for Carrying out Cost-Benefit Analysis of Air Quality Related Issues, in particular in the Clean Air for Europe (CAFE) Programme. Volume 2: Health Impact Assessment. AEA Technology Environment, 2005.] | *[http://ec.europa.eu/environment/archives/air/cafe/pdf/cba_methodology_vol2.pdf Service Contract for Carrying out Cost-Benefit Analysis of Air Quality Related Issues, in particular in the Clean Air for Europe (CAFE) Programme. Volume 2: Health Impact Assessment. AEA Technology Environment, 2005.] | ||
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==References== | ==References== | ||
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Contents
Scope
Exposure-response function for short-term (acute) exposure to ambient air particulate matter (PM) with an aerodynamic diameter < 2.5 µm and restricted activity days (RADs). RAD is defined as a day when a person needs to change his/her normal activities because of ill-health. It is based on surveys among general population. In terms of severity, RADs include: 1) days needed to stay in bed, 2) days of work/school (WLS) and 3) days of other, less serious restrictions on normal activity (MRADs).
Dimensions and boundaries relevant for the variable
- Age of exposed population
- Country/other geographic area
Definition
Data
Ostro (1987) [1]
Restricted activity days (RADs) among adults aged 15-64:
- 0.475% (95% Cl 0.417%, 0.533%) increase in RADs per 1 µg/m3 PM2.5
- change of 902 RADs (95% Cl 792, 1013) per 10 µg/m3 PM2.5 per 1000 adults
- Assumes a background rate of 19 RADs per person per year, equivalent to a prevelance of 5.2%[2]
Causality
Unit
Increase in no. of RADs per 10 µg/m3 increase in exposure per 1000 people aged 15-64
Formula
Result
Age group | RADs | 95% Cl |
---|---|---|
15-64 | 902 | 792, 1013 |
See also
- Service Contract for Carrying out Cost-Benefit Analysis of Air Quality Related Issues, in particular in the Clean Air for Europe (CAFE) Programme. Volume 2: Health Impact Assessment. AEA Technology Environment, 2005.
- NEEDS - New Energy Externalities Developments for Sustainability, Deliverable 3.7 "A set of concentration-response function", Integrated Project, Sixth Framework Programme, Project no. 502687.
References
- ↑ Ostro BD (1987). Air pollution and morbidity revisited: a specification test. J Environ Econ Manage, 14: 87-98.
- ↑ ORNL/RFF (1994). Estimating Externalities of the Coal Fuel Cycle. Report 3 on the external costs and benefits of fuel cycles. A study by the US department of Energy and the Commission of the European Communities. Prepared by Oak Ridge National Laboratory and Resources for the Future. McGraw Hill.