poisreg | R Documentation |
The poisreg
family allows Poisson regression models to be
fitted using the glm
function.
In a Poisson regression model, we assume that the data arise from a Poisson process. We observe D disease events in follow up time Y and wish to estimate the incidence rate, which is assumed to be constant during the follow-up period for any individual. The incidence rate varies between individuals according to the predictor variables and the link function in the model specification.
When using the poisreg
family in the glm
function, the
response should be specified as a two-column matrix with the first
column giving the number of events (D) and the second column giving
the observation time (Y). This is similar to the binomial
family for which a two-column outcome can be used representing the
number of successes and the number of failures.
poisreg(link = "log")
link |
a specification for the model link function. The
|
An object of class "family"
. See family
for details.
The family name, represented by the element "family"
in the
returned object, is "poisson"
and not "poisreg"
. This is
necessary to prevent the summary.glm
function from estimating
an overdispersion parameter (which should be fixed at 1) and therefore
giving incorrect standard errors for the estimates.
When using the log link, Poisson regression can also be carried out
using the poisson
family by including the log follow-up time
log(Y)
as an offset. However this approach does not generalize
to other link functions. The poisreg
family allows more general
link functions including additive risk models with poisreg(link
= "identity")
.
glm
, family
.
## Estimate incidence rate of diabetes in Denmark (1996-2015) by
## age and sex
data(DMepi)
DMepi$agegrp <- cut(DMepi$A, seq(from=0, to=100, by=5))
inc.diab <- glm(cbind(X, Y.nD) ~ -1 + agegrp + sex, family=poisreg,
data=DMepi)
## The coefficients for agegrp are log incidence rates for men in each
## age group. The coefficient for sex is the log of the female:male
## incidence rate ratio.
summary(inc.diab)
## Smooth function with non-constant M/F RR:
requireNamespace("mgcv")
library( mgcv )
gam.diab <- gam( cbind(X, Y.nD) ~ s(A,by=sex) + sex,
family=poisreg,
data=DMepi)
## There is no need/use for Y.nD in prediction data frames:
nM <- data.frame( A=20:90, sex="M" )
nF <- data.frame( A=20:90, sex="F" )
## Rates are returned in units of (1 year)^-1, so we must scale the
## rates by hand:
matshade( nM$A, cbind( ci.pred(gam.diab, nM )*1000,
ci.pred(gam.diab, nF )*1000,
ci.exp( gam.diab,list(nM,nF)) ),
plot=TRUE, col=c("blue","red","black"),
log="y", xlab="Age", ylab="DM incidence rates per 1000 / M vs. F RR" )
abline(h=1)
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