D.index: Function to compute the D index
In bhklab/survcomp: Performance Assessment and Comparison for Survival Analysis
Description
Usage
Arguments
Details
Value
Author(s)
References
See Also
Examples
Description
Function to compute the D index for a risk prediction, i.e. an estimate of the log hazard ratio comparing two equal-sized prognostic groups. This is a natural measure of separation between two independent survival distributions under the proportional hazards assumption.
Usage
1
2
Arguments
x
a vector of risk predictions.
surv.time
a vector of event times.
surv.event
a vector of event occurrence indicators.
weights
weight of each sample.
strat
stratification indicator.
alpha
apha level to compute confidence interval.
method.test
Statistical test to use in order to compute the p-values related to a D. index, see summary.coxph for more details.
na.rm
TRUE if missing values should be removed.
...
additional parameters to be passed to the coxph function.
Details
The D index is computed using the Cox model fitted on the scaled rankits of the risk scores instead of the risk scores themselves. The scaled rankits are the expected standard Normal order statistics scaled by kappa = sqrt(8/pi). See (Royston and Sauerbrei, 2004) for details.
Note that the value D reported in (Royston and Sauerbrei, 2004) is given
Value
d.index
The d.index value is the robust hazard ratio (coefficient exponentiated).
coef
D index as reported in (Royston and Sauerbrei, 2004), ie. coefficient fitted in the cox regression model.
se
standard error of the estimate.
lower
lower bound for the confidence interval.
upper
upper bound for the confidence interval.
p.value
p-value for the statistical test if the estimate if different from 0.5.
n
number of samples used for the estimation.
coxm
coxph.object fitted on the survival data and z (see below).
data
list of data used to compute the index (x, z, surv.time and surv.event). The item z contains the scaled rankits which are the expected standard Normal order statistics scaled by kappa.
Author(s)
Benjamin Haibe-Kains
References
Royston, P. and Sauerbrei, W. (2004) "A new measure of prognostic separation in survival data", Statistics in Medicine, 23, pages 723–748.
See Also
coxph, coxph.object, normOrder
Examples
1
2
3
4
5
6
7
8
9
set.seed(12345)
age <- rnorm(100, 50, 10)
stime <- rexp(100)
cens <- runif(100,.5,2)
sevent <- as.numeric(stime <= cens)
stime <- pmin(stime, cens)
strat <- sample(1:3, 100, replace=TRUE)
weight <- runif(100, min=0, max=1)
D.index(x=age, surv.time=stime, surv.event=sevent, weights=weight, strat=strat)
bhklab/survcomp documentation built on Dec. 26, 2021, 6:41 a.m.
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Description Usage Arguments Details Value Author(s) References See Also Examples
Description
Function to compute the D index for a risk prediction, i.e. an estimate of the log hazard ratio comparing two equal-sized prognostic groups. This is a natural measure of separation between two independent survival distributions under the proportional hazards assumption.
Usage
1 2 |
Arguments
x |
a vector of risk predictions. |
surv.time |
a vector of event times. |
surv.event |
a vector of event occurrence indicators. |
weights |
weight of each sample. |
strat |
stratification indicator. |
alpha |
apha level to compute confidence interval. |
method.test |
Statistical test to use in order to compute the p-values related to a D. index, see summary.coxph for more details. |
na.rm |
|
... |
additional parameters to be passed to the |
Details
The D index is computed using the Cox model fitted on the scaled rankits of the risk scores instead of the risk scores themselves. The scaled rankits are the expected standard Normal order statistics scaled by kappa = sqrt(8/pi). See (Royston and Sauerbrei, 2004) for details.
Note that the value D reported in (Royston and Sauerbrei, 2004) is given
Value
d.index |
The d.index value is the robust hazard ratio (coefficient exponentiated). |
coef |
D index as reported in (Royston and Sauerbrei, 2004), ie. coefficient fitted in the cox regression model. |
se |
standard error of the estimate. |
lower |
lower bound for the confidence interval. |
upper |
upper bound for the confidence interval. |
p.value |
p-value for the statistical test if the estimate if different from 0.5. |
n |
number of samples used for the estimation. |
coxm |
|
data |
list of data used to compute the index ( |
Author(s)
Benjamin Haibe-Kains
References
Royston, P. and Sauerbrei, W. (2004) "A new measure of prognostic separation in survival data", Statistics in Medicine, 23, pages 723–748.
See Also
coxph, coxph.object, normOrder
Examples
1 2 3 4 5 6 7 8 9 | set.seed(12345)
age <- rnorm(100, 50, 10)
stime <- rexp(100)
cens <- runif(100,.5,2)
sevent <- as.numeric(stime <= cens)
stime <- pmin(stime, cens)
strat <- sample(1:3, 100, replace=TRUE)
weight <- runif(100, min=0, max=1)
D.index(x=age, surv.time=stime, surv.event=sevent, weights=weight, strat=strat)
|
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