Health effects in Bioher: Difference between revisions
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{{variable|moderator = Pauliina | {{variable|moderator = Pauliina}} | ||
[[Category: BIOHER]] | [[Category: BIOHER]] | ||
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== Scope == | == Scope == | ||
Health effects of [[Bioher]] population to exposure of PM<sub>2.5</sub> of houses by own heating and small municipality plant. | |||
== Definition == | == Definition == | ||
Health effects in [[Bioher]] includes total mortality as premature mortality of Bioher mortality and also several other health effects as cardiopulmonary diseases, respiratory symptoms and | Health effects in [[Bioher]] includes total mortality as premature mortality of Bioher mortality and also several other health effects as cardiopulmonary diseases, respiratory symptoms (?) and cancer. For now healt effects has been calculated only as premature mortality. | ||
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=== Data === | === Data === | ||
*For Bioher population, background mortality has been calculated from total Finnish mortality (45280 deaths per year)<ref>http://www.thl.fi/thl-client/pdfs/821ba678-1430-4016-bfc8-77a40c49eb1f piltti report</ref>. For Bioher population it is app. 86 deaths in year. | |||
*Exposure-response function (ERF) is the distribution (or the best value) of different ER knowledge (change in non-accidental mortality due to 1 µg/m<sup>3</sup> change in fine particle exposure(%). For premature mortality ERF is 0.6. | |||
ERF for all cause, cardiopulmonary and lung cancer as cause of deaths are available in [[ERF of PM2.5 on mortality in general population]] but the results are not calculated. | |||
=== Causality === | === Causality === | ||
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'''Upstream: | '''Upstream: | ||
*[[Exposure to PM2.5 in Bioher]] | *[[Exposure to PM2.5 in Bioher]] | ||
*ERF | *[[ERF of PM2.5 on mortality in general population]] | ||
'''Downstream: | |||
*Costs of health effects | |||
=== Unit === | === Unit === | ||
Premature deaths in 10 years | |||
=== Formula === | |||
Exposure*(ERF/100)*Background mortality | |||
== Result == | == Result == | ||
PM<sub>2.5</sub> emissions of own heating of houses and small municipality plant heating production (=district heating) causes approximately 1.4 premature deaths in ten years in Bioher case. | |||
==See also== | ==See also== |
Latest revision as of 07:38, 24 May 2011
Moderator:Pauliina (see all) |
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Scope
Health effects of Bioher population to exposure of PM2.5 of houses by own heating and small municipality plant.
Definition
Health effects in Bioher includes total mortality as premature mortality of Bioher mortality and also several other health effects as cardiopulmonary diseases, respiratory symptoms (?) and cancer. For now healt effects has been calculated only as premature mortality.
See discussions of health effects in discussion page: D↷
Data
- For Bioher population, background mortality has been calculated from total Finnish mortality (45280 deaths per year)[1]. For Bioher population it is app. 86 deaths in year.
- Exposure-response function (ERF) is the distribution (or the best value) of different ER knowledge (change in non-accidental mortality due to 1 µg/m3 change in fine particle exposure(%). For premature mortality ERF is 0.6.
ERF for all cause, cardiopulmonary and lung cancer as cause of deaths are available in ERF of PM2.5 on mortality in general population but the results are not calculated.
Causality
Upstream:
Downstream:
- Costs of health effects
Unit
Premature deaths in 10 years
Formula
Exposure*(ERF/100)*Background mortality
Result
PM2.5 emissions of own heating of houses and small municipality plant heating production (=district heating) causes approximately 1.4 premature deaths in ten years in Bioher case.