psm | R Documentation |
psm
is a modification of Therneau's survreg
function for
fitting the accelerated failure time family of parametric survival
models. psm
uses the rms
class for automatic
anova
, fastbw
, calibrate
, validate
, and
other functions. Hazard.psm
, Survival.psm
,
Quantile.psm
, and Mean.psm
create S functions that
evaluate the hazard, survival, quantile, and mean (expected value)
functions analytically, as functions of time or probabilities and the
linear predictor values. The Nagelkerke R^2 and and adjusted
Maddala-Cox-Snell R^2 are computed. For the latter the notation is
R2(p,m) where p is the number of regression coefficients being
adjusted for and m is the effective sample size (number of uncensored
observations). See R2Measures
for more information.
For the print
method, format of output is controlled by the
user previously running options(prType="lang")
where
lang
is "plain"
(the default), "latex"
, or
"html"
.
The residuals.psm
function exists mainly to compute normalized
(standardized) residuals and to censor them (i.e., return them as
Surv
objects) just as the original failure time variable was
censored. These residuals are useful for checking the underlying
distributional assumption (see the examples). To get these residuals,
the fit must have specified y=TRUE
. A lines
method for these
residuals automatically draws a curve with the assumed standardized
survival distribution. A survplot
method runs the standardized
censored residuals through npsurv
to get Kaplan-Meier estimates,
with optional stratification (automatically grouping a continuous
variable into quantiles) and then through survplot.npsurv
to plot
them. Then lines
is invoked to show the theoretical curve. Other
types of residuals are computed by residuals
using
residuals.survreg
.
psm(formula,
data=environment(formula), weights,
subset, na.action=na.delete, dist="weibull",
init=NULL, scale=0,
control=survreg.control(),
parms=NULL,
model=FALSE, x=FALSE, y=TRUE, time.inc, ...)
## S3 method for class 'psm'
print(x, correlation=FALSE, digits=4, r2=c(0,2,4), coefs=TRUE,
pg=FALSE, title, ...)
Hazard(object, ...)
## S3 method for class 'psm'
Hazard(object, ...) # for psm fit
# E.g. lambda <- Hazard(fit)
Survival(object, ...)
## S3 method for class 'psm'
Survival(object, ...) # for psm
# E.g. survival <- Survival(fit)
## S3 method for class 'psm'
Quantile(object, ...) # for psm
# E.g. quantsurv <- Quantile(fit)
## S3 method for class 'psm'
Mean(object, ...) # for psm
# E.g. meant <- Mean(fit)
# lambda(times, lp) # get hazard function at t=times, xbeta=lp
# survival(times, lp) # survival function at t=times, lp
# quantsurv(q, lp) # quantiles of survival time
# meant(lp) # mean survival time
## S3 method for class 'psm'
residuals(object, type=c("censored.normalized",
"response", "deviance", "dfbeta",
"dfbetas", "working", "ldcase", "ldresp", "ldshape", "matrix", "score"), ...)
## S3 method for class 'residuals.psm.censored.normalized'
survplot(fit, x, g=4, col, main, ...)
## S3 method for class 'residuals.psm.censored.normalized'
lines(x, n=100, lty=1, xlim,
lwd=3, ...)
# for type="censored.normalized"
formula |
an S statistical model formula. Interactions up to third order are
supported. The left hand side must be a |
object |
a fit created by |
fit |
a fit created by |
data , subset , weights , dist , scale , init , na.action , control |
see |
parms |
a list of fixed parameters. For the |
model |
set to |
x |
set to |
y |
set to |
time.inc |
setting for default time spacing. Used in constructing time axis
in |
correlation |
set to |
digits |
number of places to print to the right of the decimal point |
r2 |
vector of integers specifying which R^2 measures to print,
with 0 for Nagelkerke R^2 and 1:4 corresponding to the 4 measures
computed by |
coefs |
specify |
pg |
set to |
title |
a character string title to be passed to |
... |
other arguments to fitting routines, or to pass to |
times |
a scalar or vector of times for which to evaluate survival probability or hazard |
lp |
a scalar or vector of linear predictor values at which to evaluate
survival probability or hazard. If both |
q |
a scalar or vector of probabilities. The default is .5, so just the
median survival time is returned. If |
type |
type of residual desired. Default is censored normalized residuals,
defined as (link(Y) - linear.predictors)/scale parameter, where the
link function was usually the log function. See |
n |
number of points to evaluate theoretical standardized survival
function for
|
lty |
line type for |
xlim |
range of times (or transformed times) for which to evaluate the standardized survival function. Default is range in normalized residuals. |
lwd |
line width for theoretical distribution, default is 3 |
g |
number of quantile groups to use for stratifying continuous variables having more than 5 levels |
col |
vector of colors for |
main |
main plot title for |
The object survreg.distributions
contains definitions of properties
of the various survival distributions.
psm
does not trap singularity errors due to the way survreg.fit
does matrix inversion. It will trap non-convergence (thus returning
fit$fail=TRUE
) if you give the argument failure=2
inside the
control
list which is passed to survreg.fit
. For example, use
f <- psm(S ~ x, control=list(failure=2, maxiter=20))
to allow up to
20 iterations and to set f$fail=TRUE
in case of non-convergence.
This is especially useful in simulation work.
psm
returns a fit object with all the information survreg
would store as
well as what rms
stores and units
and time.inc
.
Hazard
, Survival
, and Quantile
return S-functions.
residuals.psm
with type="censored.normalized"
returns a
Surv
object which has a special attribute "theoretical"
which is used by the lines
routine. This is the assumed standardized survival function as a function
of time or transformed time.
Frank Harrell
Department of Biostatistics
Vanderbilt University
fh@fharrell.com
rms
, survreg
,
residuals.survreg
, survreg.object
,
survreg.distributions
,
pphsm
, survplot
, survest
,
Surv
,
na.delete
,
na.detail.response
, datadist
,
latex.psm
, GiniMd
, prModFit
,
ggplot.Predict
, plot.Predict
,
R2Measures
require(survival)
n <- 400
set.seed(1)
age <- rnorm(n, 50, 12)
sex <- factor(sample(c('Female','Male'),n,TRUE))
dd <- datadist(age,sex)
options(datadist='dd')
# Population hazard function:
h <- .02*exp(.06*(age-50)+.8*(sex=='Female'))
d.time <- -log(runif(n))/h
cens <- 15*runif(n)
death <- ifelse(d.time <= cens,1,0)
d.time <- pmin(d.time, cens)
f <- psm(Surv(d.time,death) ~ sex*pol(age,2),
dist='lognormal')
# Log-normal model is a bad fit for proportional hazards data
print(f, r2=0:4, pg=TRUE)
anova(f)
fastbw(f) # if deletes sex while keeping age*sex ignore the result
f <- update(f, x=TRUE,y=TRUE) # so can validate, compute certain resids
validate(f, B=10) # ordinarily use B=300 or more
plot(Predict(f, age, sex)) # needs datadist since no explicit age, hosp.
# Could have used ggplot(Predict(...))
survplot(f, age=c(20,60)) # needs datadist since hospital not set here
# latex(f)
S <- Survival(f)
plot(f$linear.predictors, S(6, f$linear.predictors),
xlab=expression(X*hat(beta)),
ylab=expression(S(6,X*hat(beta))))
# plots 6-month survival as a function of linear predictor (X*Beta hat)
times <- seq(0,24,by=.25)
plot(times, S(times,0), type='l') # plots survival curve at X*Beta hat=0
lam <- Hazard(f)
plot(times, lam(times,0), type='l') # similarly for hazard function
med <- Quantile(f) # new function defaults to computing median only
lp <- seq(-3, 5, by=.1)
plot(lp, med(lp=lp), ylab="Median Survival Time")
med(c(.25,.5), f$linear.predictors)
# prints matrix with 2 columns
# fit a model with no predictors
f <- psm(Surv(d.time,death) ~ 1, dist="weibull")
f
pphsm(f) # print proportional hazards form
g <- survest(f)
plot(g$time, g$surv, xlab='Time', type='l',
ylab=expression(S(t)))
f <- psm(Surv(d.time,death) ~ age,
dist="loglogistic", y=TRUE)
r <- resid(f, 'cens') # note abbreviation
survplot(npsurv(r ~ 1), conf='none')
# plot Kaplan-Meier estimate of
# survival function of standardized residuals
survplot(npsurv(r ~ cut2(age, g=2)), conf='none')
# both strata should be n(0,1)
lines(r) # add theoretical survival function
#More simply:
survplot(r, age, g=2)
options(datadist=NULL)
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