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rms (version 4.1-3)

nomogram: Draw a Nomogram Representing a Regression Fit

Description

Draws a partial nomogram that can be used to manually obtain predicted values from a regression model that was fitted with rms. The nomogram does not have lines representing sums, but it has a reference line for reading scoring points (default range 0--100). Once the reader manually totals the points, the predicted values can be read at the bottom. Non-monotonic transformations of continuous variables are handled (scales wrap around), as are transformations which have flat sections (tick marks are labeled with ranges). If interactions are in the model, one variable is picked as the axis variable, and separate axes are constructed for each level of the interacting factors (preference is given automatically to using any discrete factors to construct separate axes) and levels of factors which are indirectly related to interacting factors (see DETAILS). Thus the nomogram is designed so that only one axis is actually read for each variable, since the variable combinations are disjoint. For categorical interacting factors, the default is to construct axes for all levels. The user may specify coordinates of each predictor to label on its axis, or use default values. If a factor interacts with other factors, settings for one or more of the interacting factors may be specified separately (this is mandatory for continuous variables). Optional confidence intervals will be drawn for individual scores as well as for the linear predictor. If more than one confidence level is chosen, multiple levels may be displayed using different colors or gray scales. Functions of the linear predictors may be added to the nomogram.

print.nomogram prints axis information stored in an object returned by nomogram. This is useful in producing tables of point assignments by levels of predictors. It also prints how many linear predictor units there are per point and the number of points per unit change in the linear predictor.

legend.nomabbrev draws legends describing abbreviations used for labeling tick marks for levels of categorical predictors.

Usage

nomogram(fit, ..., adj.to, lp=TRUE, lp.at=NULL,
         fun=NULL, fun.at=NULL, fun.lp.at=NULL, funlabel="Predicted Value",
         interact=NULL, kint=NULL,  conf.int=FALSE, 
         conf.lp=c("representative", "all", "none"),
         est.all=TRUE, abbrev=FALSE, minlength=4, maxscale=100, nint=10, 
         vnames=c("labels","names"),
         varname.label=TRUE, varname.label.sep="=",
         omit=NULL, verbose=FALSE)

## S3 method for class 'nomogram': print(x, dec=0, \dots)

## S3 method for class 'nomogram': plot(x, lplabel="Linear Predictor", fun.side, col.conf=c(1, 0.3), conf.space=c(.08,.2), label.every=1, force.label=FALSE, xfrac=.35, cex.axis=.85, cex.var=1, col.grid=NULL, varname.label=TRUE, varname.label.sep="=", ia.space=.7, tck=NA, tcl=-0.25, lmgp=.4, naxes, points.label='Points', total.points.label='Total Points', total.sep.page=FALSE, total.fun, cap.labels=FALSE, ...)

legend.nomabbrev(object, which, x, y, ncol=3, ...)

Arguments

fit
a regression model fit that was created with rms, and (usually) with options(datadist = "object.name") in effect.
...
settings of variables to use in constructing axes. If datadist was in effect, the default is to use pretty(total range, nint) for continuous variables, and the class levels for discrete ones. For legend.nomabb
adj.to
If you didn't define datadist for all predictors, you will have to define adjustment settings for the undefined ones, e.g. adj.to= list(age = 50, sex = "female").
lp
Set to FALSE to suppress creation of an axis for scoring $X\beta$.
lp.at
If lp=TRUE, lp.at may specify a vector of settings of $X\beta$. Default is to use pretty(range of linear predictors, nint).
fun
an optional function to transform the linear predictors, and to plot on another axis. If more than one transformation is plotted, put them in a list, e.g. list(function(x) x/2, function(x) 2*x). Any function values equal to
fun.at
function values to label on axis. Default fun evaluated at lp.at. If more than one fun was specified, using a vector for fun.at will cause all functions to be evaluated at the same argumen
fun.lp.at
If you want to evaluate one of the functions at a different set of linear predictor values than may have been used in constructing the linear predictor axis, specify a vector or list of vectors of linear predictor values at which to evalu
funlabel
label for fun axis. If more than one function was given but funlabel is of length one, it will be duplicated as needed. If fun is a list of functions for which you specified names (see the final example below), thes
interact
When a continuous variable interacts with a discrete one, axes are constructed so that the continuous variable moves within the axis, and separate axes represent levels of interacting factors. For interactions between two continuous variables
kint
for models such as the ordinal models with multiple intercepts, specifies which one to use in evaluating the linear predictor. Default is to use fit$interceptRef if it exists, or 1.
conf.int
confidence levels to display for each scoring. Default is FALSE to display no confidence limits. Setting conf.int to TRUE is the same as setting it to c(0.7, 0.9), with the line segment bet
conf.lp
default is "representative" to group all linear predictors evaluated into deciles, and to show, for the linear predictor confidence intervals, only the mean linear predictor within the deciles along with the median standard error
est.all
To plot axes for only the subset of variables named in ..., set est.all = FALSE. Note: This option only works when zero has a special meaning for the variables that are omitted from the graph.
abbrev
Set to TRUE to use the abbreviate function to abbreviate levels of categorical factors, both for labeling tick marks and for axis titles. If you only want to abbreviate certain predi
minlength
applies if abbrev = TRUE. Is the minimum abbreviation length passed to the abbreviate function. If you set minlength = 1, the letters of the alphabet are used to label
maxscale
default maximum point score is 100
nint
number of intervals to label for axes representing continuous variables. See pretty.
vnames
By default, variable labels are used to label axes. Set vnames = "names" to instead use variable names.
omit
vector of character strings containing names of variables for which to suppress drawing axes. Default is to show all variables.
verbose
set to TRUE to get printed output detailing how tick marks are chosen and labeled for function axes. This is useful in seeing how certain linear predictor values cannot be solved for using inverse linear interpolation on the (req
x
an object created by nomogram, or the x coordinate for a legend
dec
number of digits to the right of the decimal point, for rounding point scores in print.nomogram. Default is to round to the nearest whole number of points.
lplabel
label for linear predictor axis. Default is "Linear Predictor".
fun.side
a vector or list of vectors of side parameters for the axis function for labeling function values. Values may be 1 to position a tick mark label below the axis (the default), or 3 for above the axis. If for example a
col.conf
colors corresponding to conf.int.
conf.space
a 2-element vector with the vertical range within which to draw confidence bars, in units of 1=spacing between main bars. Four heights are used within this range (8 for the linear predictor if more than 16 unique values were evaluated), cycli
label.every
Specify label.every = i to label on every ith tick mark.
force.label
set to TRUE to force every tick mark intended to be labeled to have a label plotted (whether the labels run into each other or not)
xfrac
fraction of horizontal plot to set aside for axis titles
cex.axis
character size for tick mark labels
cex.var
character size for axis titles (variable names)
col.grid
If left unspecified, no vertical reference lines are drawn. Specify a vector of length one (to use the same color for both minor and major reference lines) or two (corresponding to the color for the major and minor divisions, respectively) co
varname.label
In constructing axis titles for interactions, the default is to add (interacting.varname = level) on the right. Specify varname.label = FALSE to instead use "(level)".
varname.label.sep
If varname.label = TRUE, you can change the separator to something other than = by specifying this parameter.
ia.space
When multiple axes are draw for levels of interacting factors, the default is to group combinations related to a main effect. This is done by spacing the axes for the second to last of these within a group only 0.7 (by default) of the wa
tck
see tck under par
tcl
length of tick marks in nomogram
lmgp
spacing between numeric axis labels and axis (see par for mgp)
naxes
maximum number of axes to allow on one plot. If the nomogram requires more than one page, the Points axis will be repeated at the top of each page when necessary.
points.label
a character string giving the axis label for the points scale
total.points.label
a character string giving the axis label for the total points scale
total.sep.page
set to TRUE to force the total points and later axes to be placed on a separate page
total.fun
a user-provided function that will be executed before the total points axis is drawn. Default is not to execute a function. This is useful e.g. when total.sep.page = TRUE and you wish to use locator to find the coor
cap.labels
logical: should the factor labels have their first letter capitalized?
object
the result returned from nomogram
which
a character string giving the name of a variable for which to draw a legend with abbreviations of factor levels
y
y-coordinate to pass to the legend function. This is the upper left corner of the legend box. You can omit y if x is a list with named elements x and y. To use the mouse to locate
ncol
the number of columns to form in drawing the legend.

Value

  • a list of class "nomogram" that contains information used in plotting the axes. If you specified abbrev = TRUE, a list called abbrev is also returned that gives the abbreviations used for tick mark labels, if any. This list is useful for making legends and is used by legend.nomabbrev (see the last example). The returned list also has components called total.points, lp, and the function axis names. These components have components x (at argument vector given to axis), y (pos for axis), and x.real, the x-coordinates appearing on tick mark labels. An often useful result is stored in the list of data for each axis variable, namely the exact number of points that correspond to each tick mark on that variable's axis.

Details

A variable is considered to be discrete if it is categorical or ordered or if datadist stored values for it (meaning it had <11< code=""> unique values). A variable is said to be indirectly related to another variable if the two are related by some interaction. For example, if a model has variables a, b, c, d, and the interactions are a:c and c:d, variable d is indirectly related to variable a. The complete list of variables related to a is c, d. If an axis is made for variable a, several axes will actually be drawn, one for each combination of c and d specified in interact.

Note that with a caliper, it is easy to continually add point scores for individual predictors, and then to place the caliper on the upper Points axis (with extrapolation if needed). Then transfer these points to the Total Points axis. In this way, points can be added without without writing them down.

Confidence limits for an individual predictor score are really confidence limits for the entire linear predictor, with other predictors set to adjustment values. If lp = TRUE, all confidence bars for all linear predictor values evaluated are drawn. The extent to which multiple confidence bars of differing widths appear at the same linear predictor value means that precision depended on how the linear predictor was arrived at (e.g., a certain value may be realized from a setting of a certain predictor that was associated with a large standard error on the regression coefficients for that predictor).

On occasion, you may want to reverse the regression coefficients of a model to make the points scales reverse direction. For parametric survival models, which are stated in terms of increasing regression effects meaning longer survival (the opposite of a Cox model), just do something like fit$coefficients <- -fit$coefficients before invoking nomogram, and if you add function axes, negate the function arguments. For the Cox model, you also need to negate fit$center. If you omit lp.at, also negate fit$linear.predictors.

References

Banks J: Nomograms. Encylopedia of Statistical Sciences, Vol 6. Editors: S Kotz and NL Johnson. New York: Wiley; 1985.

Lubsen J, Pool J, van der Does, E: A practical device for the application of a diagnostic or prognostic function. Meth. Inform. Med. 17:127--129; 1978.

Wikipedia: Nomogram, http://en.wikipedia.org/wiki/Nomogram.

See Also

rms, plot.Predict, plot.summary.rms, axis, pretty, approx, latexrms, rmsMisc

Examples

Run this code
n <- 1000    # define sample size
set.seed(17) # so can reproduce the results
age            <- rnorm(n, 50, 10)
blood.pressure <- rnorm(n, 120, 15)
cholesterol    <- rnorm(n, 200, 25)
sex            <- factor(sample(c('female','male'), n,TRUE))


# Specify population model for log odds that Y=1
L <- .4*(sex=='male') + .045*(age-50) +
  (log(cholesterol - 10)-5.2)*(-2*(sex=='female') + 2*(sex=='male'))
# Simulate binary y to have Prob(y=1) = 1/[1+exp(-L)]
y <- ifelse(runif(n) < plogis(L), 1, 0)


ddist <- datadist(age, blood.pressure, cholesterol, sex)
options(datadist='ddist')


f <- lrm(y ~ lsp(age,50)+sex*rcs(cholesterol,4)+blood.pressure)
nom <- nomogram(f, fun=function(x)1/(1+exp(-x)),  # or fun=plogis
    fun.at=c(.001,.01,.05,seq(.1,.9,by=.1),.95,.99,.999),
    funlabel="Risk of Death")
#Instead of fun.at, could have specified fun.lp.at=logit of
#sequence above - faster and slightly more accurate
plot(nom, xfrac=.45)
print(nom)
nom <- nomogram(f, age=seq(10,90,by=10))
plot(nom, xfrac=.45)
g <- lrm(y ~ sex + rcs(age,3)*rcs(cholesterol,3))
nom <- nomogram(g, interact=list(age=c(20,40,60)), 
                conf.int=c(.7,.9,.95))
plot(nom, col.conf=c(1,.5,.2), naxes=7)


cens <- 15*runif(n)
h <- .02*exp(.04*(age-50)+.8*(sex=='Female'))
d.time <- -log(runif(n))/h
death <- ifelse(d.time <= cens,1,0)
d.time <- pmin(d.time, cens)


f <- psm(Surv(d.time,death) ~ sex*age, dist='lognormal')
med  <- Quantile(f)
surv <- Survival(f)  # This would also work if f was from cph
plot(nomogram(f, fun=function(x) med(lp=x), funlabel="Median Survival Time"))
nom <- nomogram(f, fun=list(function(x) surv(3, x),
                            function(x) surv(6, x)),
            funlabel=c("3-Month Survival Probability", 
                       "6-month Survival Probability"))
plot(nom, xfrac=.7)

nom <- nomogram(fit.with.categorical.predictors, abbrev=TRUE, minlength=1)
nom$x1$points   # print points assigned to each level of x1 for its axis
#Add legend for abbreviations for category levels
abb <- attr(nom, 'info')$abbrev$treatment
legend(locator(1), abb$full, pch=paste(abb$abbrev,collapse=''), 
       ncol=2, bty='n')  # this only works for 1-letter abbreviations
#Or use the legend.nomabbrev function:
legend.nomabbrev(nom, 'treatment', locator(1), ncol=2, bty='n')


#Make a nomogram with axes predicting probabilities Y>=j for all j=1-3
#in an ordinal logistic model, where Y=0,1,2,3
Y <- ifelse(y==0, 0, sample(1:3, length(y), TRUE))
g <- lrm(Y ~ age+rcs(cholesterol,4)*sex)
fun2 <- function(x) plogis(x-g$coef[1]+g$coef[2])
fun3 <- function(x) plogis(x-g$coef[1]+g$coef[3])
f <- Newlabels(g, c(age='Age in Years'))  
#see Design.Misc, which also has Newlevels to change 
#labels for levels of categorical variables
g <- nomogram(f, fun=list('Prob Y>=1'=plogis, 'Prob Y>=2'=fun2, 
                     'Prob Y=3'=fun3), 
         fun.at=c(.01,.05,seq(.1,.9,by=.1),.95,.99))
plot(g, lmgp=.2, cex.axis=.6)
options(datadist=NULL)

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