Difference between revisions of "Asthma prevalence due to building dampness in Europe"
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asthmaarray <- DataframeToArray(asthma, "InitialPrevalence") | asthmaarray <- DataframeToArray(asthma, "InitialPrevalence") | ||
dampxpopxasthma <- IntArray(dampxpop, asthmaarray, "InitialPrevalence") | dampxpopxasthma <- IntArray(dampxpop, asthmaarray, "InitialPrevalence") | ||
| − | p_nd <- data.frame(dampxpopxasthma[dampxpopxasthma[,"Year"]=="2010", c( | + | p_nd <- data.frame(dampxpopxasthma[dampxpopxasthma[,"Year"]=="2010", c("obs","Country","policy","Age","Rate","Sex")], |
| + | p_nd=dampxpopxasthma[dampxpopxasthma[,"Year"]=="2010", | ||
"InitialPrevalence"] * 100 /(dampxpopxasthma[dampxpopxasthma[,"Year"]=="2010", "Result"] * erf + 100 - dampxpopxasthma[dampxpopxasthma[,"Year"]== | "InitialPrevalence"] * 100 /(dampxpopxasthma[dampxpopxasthma[,"Year"]=="2010", "Result"] * erf + 100 - dampxpopxasthma[dampxpopxasthma[,"Year"]== | ||
"2010", "Result"])) | "2010", "Result"])) | ||
p_ndarray <- DataframeToArray(p_nd, "p_nd") | p_ndarray <- DataframeToArray(p_nd, "p_nd") | ||
| − | dampxpopxasthmaxp_nd <- IntArray(dampxpopxasthma, | + | a <- rep(NA,prod(dim(p_ndarray))*5) |
| − | final <- data.frame( | + | dim(a) <- c(dim(p_ndarray)[1:2],5,dim(p_ndarray)[4:6]) |
| + | dimnames(a)[1] <- dimnames(p_ndarray)[1] | ||
| + | dimnames(a)[2] <- dimnames(p_ndarray)[2] | ||
| + | dimnames(a)[3] <- list(policy=c("BAU","All","Biomass","Insulation","Renovation")) | ||
| + | dimnames(a)[4] <- dimnames(p_ndarray)[4] | ||
| + | dimnames(a)[5] <- dimnames(p_ndarray)[5] | ||
| + | dimnames(a)[6] <- dimnames(p_ndarray)[6] | ||
| + | names(dimnames(a)) <- c("obs", "Country", "policy", "Age", "Rate", "Sex") | ||
| + | for(i in )a[,,,,] | ||
| + | dampxpopxasthmaxp_nd <- IntArray(dampxpopxasthma, a, "p_nd") | ||
| + | final <- data.frame(dampxpopxasthmaxp_nd[,c("obs","Country","policy","Year","Age","Rate","Sex")], | ||
| + | Result=dampxpopxasthmaxp_nd[,"Population"] * dampxpopxasthmaxp_nd[,"p_nd"] * | ||
dampxpopxasthmaxp_nd[,"Result"] * (erf - 1) / 10000)</nowiki> | dampxpopxasthmaxp_nd[,"Result"] * (erf - 1) / 10000)</nowiki> | ||
Revision as of 14:50, 12 January 2011
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Contents
Scope
Europe in 2010, 2020, 2030, 2050.
Definition
Initial Prevalence data from GINA[1].
Formula calculates number of asthma cases which can be attributed to dampness in Europe in years 2010-2050 by using the following:
- <math>extra cases = (prevalence_total - prevalence_nondamp) population</math>
- <math>prevalence_total = prevalence_nondamp(%damp * OR + 1 - %damp)</math>
- <math>prevalence_nondamp = \frac{prevalence_0}{%damp * OR + 1 - %damp}</math>
Population data[1] included population growth scenarios so they too are included.
Distribution represents uncertainty (mainly of fraction of affected homes).
Data
Dependencies
- heande:Moisture damage
- Population of Europe
- Prevelance of Clinical Asthma[1]
- ERF of indoor dampness on respiratory health effects
Unit
#
Formula
- <math>extra cases = (prevalence_total - prevalence_nondamp) population</math>
- <math>prevalence_total = prevalence_nondamp(%damp * OR + 1 - %damp)</math>
- <math>prevalence_nondamp = \frac{prevalence_0}{%damp * OR + 1 - %damp}</math>
- ERF approximated as that for current asthma (1.56).
dampness <- op_baseGetData("opasnet_base", "Erac2988")
pop <- op_baseGetData("opasnet_base", "Op_en4691", include = 1367, exclude = c(1435, 1436))
countries <- c("Austria", "Belgium", "Bulgaria", "Switzerland", "Cyprus", "Czech Republic", "Germany", "Denmark", "Estonia", "Spain",
"Finland", "France", "Greece", "Hungary", "Ireland", "Iceland", "Italy", "Lithuania", "Luxembourg", "Latvia", "Malta", "Netherlands",
"Norway", "Poland", "Portugal", "Romania", "Sweden", "Slowenia", "Slovakia", "United Kingdom")
levels(pop[,"CountryID"]) <- countries
colnames(pop)[4] <- "Country"
colnames(pop)[8] <- "Population"
#asthma <- read.csv("C:/Documents and Settings/tris/My Documents/Asthma prevalence.csv", sep = ";")
asthma <- data.frame(Country=c('Scotland','Jersey','Guernsey','Wales','Isle of Man','England','New Zealand','Australia','Republic of Ireland',
'Canada','Peru','Trinidad & Tobago','Costa Rica','Brazil','United States of America','Fiji','Paraguay','Uruguay','Israel','Barbados','Panama',
'Kuwait','Ukraine','Ecuador','South Africa','Czech Republic','Finland','Malta','Ivory Coast','Colombia','Turkey','Lebanon','Kenya','Germany',
'France','Norway','Japan','Sweden','Thailand','Hong Kong','Philippines','United Arab Emirates','Belgium','Austria','Spain','Saudi Arabia',
'Argentina','Iran','Estonia','Nigeria','Chile','Singapore','Malaysia','Portugal','Uzbekistan','FYR Macedonia','Italy','Oman','Pakistan',
'Tunisia','Cape Verde','Latvia','Poland','Algeria','South Korea','Bangladesh','Morocco','Occupied Territory of Palestine','Mexico','Ethiopia',
'Denmark','India','Taiwan','Cyprus','Switzerland','Russia','China','Greece','Georgia','Nepal','Romania','Albania','Indonesia','Macau'),
InitialPrevalence=c(18.4,17.6,17.5,16.8,16.7,15.3,15.1,14.7,14.6,14.1,13,12.6,11.9,11.4,10.9,10.5,9.7,9.5,9,8.9,8.8,8.5,8.3,8.2,8.1,8,8,8,7.8,7.4,
7.4,7.2,7,6.9,6.8,6.8,6.7,6.5,6.5,6.2,6.2,6.2,6,5.8,5.7,5.6,5.5,5.5,5.4,5.4,5.1,4.9,4.8,4.8,4.6,4.5,4.5,4.5,4.3,4.3,4.2,4.2,4.1,3.9,3.9,3.8,
3.8,3.6,3.3,3.1,3,3,2.6,2.4,2.3,2.2,2.1,1.9,1.8,1.5,1.5,1.3,1.1,0.7))
#asthma <- data.frame(Country=asthma[1:26,1], Casesper1000=(asthma[1:26,2]+asthma[1:26,3]))
erf <- 1.56
poparray <- DataframeToArray(pop, "Population")
dampxpop <- IntArray(dampness, poparray, "Population")
asthmaarray <- DataframeToArray(asthma, "InitialPrevalence")
dampxpopxasthma <- IntArray(dampxpop, asthmaarray, "InitialPrevalence")
p_nd <- data.frame(dampxpopxasthma[dampxpopxasthma[,"Year"]=="2010", c("obs","Country","policy","Age","Rate","Sex")],
p_nd=dampxpopxasthma[dampxpopxasthma[,"Year"]=="2010",
"InitialPrevalence"] * 100 /(dampxpopxasthma[dampxpopxasthma[,"Year"]=="2010", "Result"] * erf + 100 - dampxpopxasthma[dampxpopxasthma[,"Year"]==
"2010", "Result"]))
p_ndarray <- DataframeToArray(p_nd, "p_nd")
a <- rep(NA,prod(dim(p_ndarray))*5)
dim(a) <- c(dim(p_ndarray)[1:2],5,dim(p_ndarray)[4:6])
dimnames(a)[1] <- dimnames(p_ndarray)[1]
dimnames(a)[2] <- dimnames(p_ndarray)[2]
dimnames(a)[3] <- list(policy=c("BAU","All","Biomass","Insulation","Renovation"))
dimnames(a)[4] <- dimnames(p_ndarray)[4]
dimnames(a)[5] <- dimnames(p_ndarray)[5]
dimnames(a)[6] <- dimnames(p_ndarray)[6]
names(dimnames(a)) <- c("obs", "Country", "policy", "Age", "Rate", "Sex")
for(i in )a[,,,,]
dampxpopxasthmaxp_nd <- IntArray(dampxpopxasthma, a, "p_nd")
final <- data.frame(dampxpopxasthmaxp_nd[,c("obs","Country","policy","Year","Age","Rate","Sex")],
Result=dampxpopxasthmaxp_nd[,"Population"] * dampxpopxasthmaxp_nd[,"p_nd"] *
dampxpopxasthmaxp_nd[,"Result"] * (erf - 1) / 10000)
Result
See also
Keywords
Asthma, indoor air, dampness, Europe
References
Related files
<mfanonymousfilelist></mfanonymousfilelist>
