ERF of outdoor air pollution: Difference between revisions

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library(ggplot2)      # A package with fancy graph formats
library(ggplot2)      # A package with fancy graph formats


objects.latest("Op_en5872", "calculations") # Get the latest ovariables from code calculations on page Op_en5872.
objects.latest("Op_en2202", "calculations") # Get the latest ovariables from code calculations on page Op_en2202.


ConcentrationresponsetoPM2.5 <- EvalOutput(ConcentrationresponsetoPM2.5)
ConcentrationresponsetoPM2.5 <- EvalOutput(ConcentrationresponsetoPM2.5)
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</rcode>
</rcode>
{{attack|# |{{attack|# |the calculation code does not work|}}|--[[User:Thomasa|Thomasa]] 12:25, 24 January 2013 (EET)}}
: {{comment|# |First, you are using the code for retrieving an ovariable object, but that should be used in ''Answer''. In ''Calculations'', you should use the code to create the ovariable. Second, your page identifier is wrong: it should be Op_en2202 for this page.|--[[User:Jouni|Jouni]] 19:53, 24 January 2013 (EET)}}


=== Unit ===
=== Unit ===

Revision as of 08:44, 31 January 2013




Question

What is the the quantitative dose-response relationships between outdoor air PM2.5 concentration and mortality due to cardio-pulmonary, lung cancer, and other non-accidental causes (index Cause of death 2)?

Answer

+ Show code

Default run

Rationale

Causality

List of parents:

  • None

Data

Concentration-response function

ERF of outdoor air pollution: Difference between revisions(relative increase of mortality per µg/m3)
ObsDiseaseResponse metricExposure routeExposure metricExposure unitThresholdERF parameterERFDescription
1CardiopulmonaryMortalityInhalationAnnual average outdoor concentrationµq/m30Relative increase0.0128Dockery et al. 1993 and Pope et al. 2002:0.0128 (-0.0036-0.0375)
2Lung cancerMortalityInhalationAnnual average outdoor concentrationµq/m30Relative increase0.0150Dockery et al. 1993 and Pope et al. 2002:0.0150 (-0.0350-0.0728)
3Other causesMortalityInhalationAnnual average outdoor concentrationµq/m30Relative increase0.0008Dockery et al. 1993 and Pope et al. 2002:0.0008 (-0.0232-0.0252)
4All causesMortalityInhalationAnnual average outdoor concentrationµq/m30Relative increase0.0091Dockery et al. 1993 and Pope et al. 2002:0.0091 (-0.0019-0.0289)


Calculations

+ Show code

Unit

m3/μg D↷




Uncertainties:

  • Mortality estimate from Hoek et al. (2002)[1] was not included due to many confounding factors related to mortality, e.g. road noise.
  • Probability for PM2.5 assumed to be the true cause of the effects in 70 %, 90 %, and 10 % for cardiopulmonary, lung cancer and all other mortality, respectively (author judgement).
  • Toxicity differences between ambient air particles and the particles generated by different bus types were not taken into account due to lack of comprehensive data. [2] [3]
  • No threshold was assumed in the dose-response relationship. [4] [5]

ERF for chronic PM2.5 exposure

Cause of death RR 95% Cl
All-cause 1.06 1.02-1.11
Cardiopulmonary 1.09 1.03-1.16
Lung cancer 1.14 1.04-1.23

See also

References

  1. Hoek, G, Brunekreef, B, Goldbohm, S, Fischer, P, &amp; van den Brandt, P. A. (2002). Association between mortality and indicators of traffic-related air pollution in the Netherlands: a cohort study. Lancet, 360 (9341), 1203-1209.
  2. Laden, F., Neas, L. M., Dockery, D. W., &amp; Schwartz, J. (2000). Association of fine particulate matter from different sources with daily mortality in six U.S. cities. Environmental Health Perspectives, 108, 941-947.
  3. Mar, T. F., Norris, G. A., Koenig, J. Q., &amp; Larson, T. V. (2000). Associations between air pollution and mortality in Phoenix, 1995-1997. Environmental Health Perspectives, 108(4), 347-353.
  4. WHO Regional Office for Europe (2003). Health Aspects of Air Pollution with Particulate Matter, Ozone and Nitrogen Dioxide, Report on a WHO Working Group. Report on a WHO working group, Bonn, Germany, January 13-15 2003. Copenhagen. 98 pages. Available at http://www.euro.who.int/eprise/main/who/progs/aiq/newsevents/20030115_2
  5. Schwartz, J., Laden, F., &amp; Zanobetti, A. (2002). The concentration-response relation between PM2.5 and daily deaths. Environmental Health Perspectives, 110(10), 1025-1029.