| Type: | Package |
| Title: | Assessing Heterogeneity in the Utility of a Surrogate Marker |
| Version: | 1.0 |
| Date: | 2021-11-10 |
| Author: | Layla Parast |
| Maintainer: | Layla Parast <parast@austin.utexas.edu> |
| Description: | Provides a function to assess and test for heterogeneity in the utility of a surrogate marker with respect to a baseline covariate. The main function can be used for either a continuous or discrete baseline covariate. More details will be available in the future in: Parast, L., Cai, T., Tian L (2021). "Testing for Heterogeneity in the Utility of a Surrogate Marker." Biometrics, In press. |
| License: | GPL-2 | GPL-3 [expanded from: GPL] |
| Imports: | stats, Rsurrogate, graphics |
| NeedsCompilation: | no |
| Packaged: | 2021-11-10 14:41:40 UTC; parast |
| Depends: | R (≥ 3.5.0) |
| Repository: | CRAN |
| Date/Publication: | 2021-11-10 16:10:02 UTC |
Estimates residual treatment effect when W is discrete.
Description
Estimates residual treatment effect when W is discrete.
Usage
delta.s.estimate.w(sone, szero, yone, yzero, wone, wzero, w.all, weight.perturb = NULL)
Arguments
sone |
sone |
szero |
szero |
yone |
yone |
yzero |
yzero |
wone |
wone |
wzero |
wzero |
w.all |
w.all |
weight.perturb |
perturbation weights |
Value
Returns a vector of length equal to the length of w.all with the estimated residual treatment effect for each w value
Example data
Description
Example data
Usage
data("example.data")Format
A list with 6 elements representing 2000 observations from a treatment group and 1500 observations from a control group:
y1the primary outcome in the treatment group
y0the primary outcome in the control group
s1the surrogate marker in the treatment group
s0the surrogate marker in the control group
w1the baseline covariate of interest in the treatment group
w0the baseline covariate of interest in the control group
Examples
data(example.data)
names(example.data)
Assess and test for heterogeneity in the utility of a surrogate
Description
This function assesses and tests for heterogeneity in the utility of a surrogate with respect to a continuous or discrete baseline covariate. The method is nonparametric and focuses on estimation of the proportion of the treatment effect that is explained by the surrogate marker. Inference information is provided including a confidence band for the proportion and results from formal testing for heterogeneity. When the baseline covariate is continuous, two tests are performed - an omnibus test and a trend test; when the baseline covariate is discrete, only one test is performed - an omnibus test.
Usage
hetsurr.fun(y1, y0, s1, s0, w1, w0, wf.grd = NULL, h0 = NULL, h1 = NULL, h2 = NULL,
h3 = NULL, h4 = NULL, var.want = FALSE, type = "cont", test.want = FALSE, c.adj = 1)
Arguments
y1 |
the primary outcome in the treatment group |
y0 |
the primary outcome in the control group |
s1 |
the surrogate marker in the treatment group |
s0 |
the surrogate marker in the control group |
w1 |
the baseline covariate of interest in the treatment group |
w0 |
the baseline covariate of interest in the control group |
wf.grd |
the grid of the baseline covariate where estimates are wanted; if this is not specified, this will bet set equal to 50 equally spaced points between the 10th and 90th percentile of the union of w1 and w0 values (if continuous) or the set of unique categories (if discrete) |
h0 |
bandwidth; if not specific, this is set to a value of appropriate order |
h1 |
bandwidth; if not specific, this is set to a value of appropriate order |
h2 |
bandwidth; if not specific, this is set to a value of appropriate order |
h3 |
bandwidth; if not specific, this is set to a value of appropriate order |
h4 |
bandwidth; if not specific, this is set to a value of appropriate order |
var.want |
TRUE or FALSE; indicates whether variance estimate are wanted, default is FALSE |
type |
"cont" or "discrete"; indicates the form of the baseline covariate w, default is "cont" |
test.want |
TRUE or FALSE; indicates whether testing results are wanted, default is FALSE |
c.adj |
a multiplicative adjustment for the bandwidth; default is 1 |
Details
This function calculates the treatment effect, Delta, the residual treatment effect, Delta_S, and the proportion of treatment effect explained R_S, as a function of the baseline covariate (if continuous) or stratified by category (if discrete). The estimation approach is nonparametric. Variance estimates can be requested including a confidence band for R_S. Results from formal testing for heterogeneity can also be requested. When the baseline covariate is continuous, two tests are performed - an omnibus test and a trend test; when the baseline covariate is discrete, only one test is performed - an omnibus test.
Value
w.values |
values of the baseline covariate at which estimates are provided |
delta.w |
estimated treatment effect, Delta, at each w value |
delta.w.s |
estimated residual treatment effect, Delta_S, at each w value |
R.w.s |
estimated proportion of treatment effect explained, R_S, at each w value |
se.delta.w |
estimated standard error of Delta |
se.delta.w.s |
estimated standard error of Delta.S |
se.R.w.s |
estimated standard error of R.S |
conf.delta.w.lower |
lower bound of the confidence intervals for Delta |
conf.delta.w.upper |
upper bound of the confidence intervals for Delta |
conf.delta.w.s.lower |
lower bound of the confidence intervals for Delta.S |
conf.delta.w.s.upper |
upper bound of the confidence intervals for Delta.S |
conf.R.w.s.lower |
lower bound of the confidence intervals for R.S |
conf.R.w.s.upper |
upper bound of the confidence intervals for R.S |
band.R.w.s.lower |
lower bound of the confidence band for R.S |
band.R.w.s.upper |
upper bound of the confidence band for R.S |
omnibus.test.statistic |
test statistic from omnibus test; for a continuous baseline covariate only |
omnibus.p.value |
p-value from omnibus test, testing for evidence of heterogeneity; for a continuous baseline covariate only |
trend.test.statistic |
test statistic from the trend test; for a continuous baseline covariate only |
trend.p.value |
p-value from trend test, testing for evidence of heterogeneity; for a continuous baseline covariate only |
test.statistic |
p-value from the test testing for evidence of heterogeneity; for a discrete baseline covariate only |
p.value |
p-value from the test testing for evidence of heterogeneity; for a discrete baseline covariate only |
Author(s)
Layla Parast
References
Parast, L., Cai, T., Tian L (2021). Testing for Heterogeneity in the Utility of a Surrogate Marker. Biometrics, In press.
Examples
data(example.data)
names(example.data)
#computationally intensive
het.ob = hetsurr.fun(y1=example.data$y1, y0=example.data$y0, s1=example.data$s1,
s0=example.data$s0, w1=example.data$w1, w0=example.data$w0, wf.grd = seq(0.25, 1.75,
length=50), var.want =FALSE, type = "cont")
het.ob = hetsurr.fun(y1=example.data$y1, y0=example.data$y0, s1=example.data$s1,
s0=example.data$s0, w1=example.data$w1, w0=example.data$w0, wf.grd = seq(0.25, 1.75,
length=50), var.want =TRUE, test.want = TRUE, type = "cont")
#reducing dimension of example data to provide a computationally faster example
het.ob = hetsurr.fun(y1=example.data$y1[1:500], y0=example.data$y0[1:500],
s1=example.data$s1[1:500], s0=example.data$s0[1:500], w1=example.data$w1[1:500],
w0=example.data$w0[1:500], wf.grd = seq(0.25, 1.75, length=5), var.want =FALSE,
type = "cont")
Constructs plots of the treatment effect, residual treatment effect, and proportion explained as a function of the continuous baseline covariate
Description
Constructs plots of the treatment effect, residual treatment effect, and proportion explained as a function of the continuous baseline covariate
Usage
hetsurr.plot(hetsurr.results, xlab.name = "Baseline Covariate", placement = "bottomleft")
Arguments
hetsurr.results |
This is a list produced by the hetsurr.fun function. |
xlab.name |
This is the label for the x-axis; default is "Baseline Covariate". |
placement |
This is the placement for the legend; default is "bottomleft". |
Value
Produces a plot with 3 panels.
Author(s)
Layla Parast
References
Parast, L., Cai, T., Tian L (2021). Testing for Heterogeneity in the Utility of a Surrogate Marker. Biometrics, In press.
Examples
data(example.data)
names(example.data)
#computationally intensive
het.ob = hetsurr.fun(y1=example.data$y1, y0=example.data$y0, s1=example.data$s1,
s0=example.data$s0, w1=example.data$w1, w0=example.data$w0, wf.grd = seq(0.25, 1.75,
length=50), var.want =TRUE, test.want = TRUE, type = "cont")
hetsurr.plot(het.ob)
#reducing dimension of example data to provide a computationally faster example
het.ob = hetsurr.fun(y1=example.data$y1[1:300], y0=example.data$y0[1:300],
s1=example.data$s1[1:300], s0=example.data$s0[1:300], w1=example.data$w1[1:300],
w0=example.data$w0[1:300], wf.grd = seq(0.25, 1.75, length=5), var.want =TRUE,
test.want = TRUE, type = "cont")
hetsurr.plot(het.ob)
Kernel function
Description
Kernel function
Usage
kf(x, h)
Arguments
x |
x |
h |
bandwidth |
Value
Returns value for the kernel at the given x
Estimates mu0(w)=E(Y0|W0=w)
Description
Estimates mu0(w)=E(Y0|W0=w)
Usage
mu0wy(w, hyw0,y0,w0)
Arguments
w |
w |
hyw0 |
bandwidth |
y0 |
y0 |
w0 |
w0 |
Value
Returns mu0(w) estimate for given w
Estimates mu10(w)
Description
Estimates mu10(w) which is the integral of mu1(s, w) with respect to dF0(s|w)
Usage
mu10(s1,w1,y1,w0,s0,w, hy2w1, hy2s1, hsw1)
Arguments
s1 |
s1 |
w1 |
w1 |
y1 |
y1 |
w0 |
w0 |
s0 |
s0 |
w |
w |
hy2w1 |
bandwidth |
hy2s1 |
bandwidth |
hsw1 |
bandwidth |
Value
Returns mu10(w) estimate for given w
Estimates mu1(s, w)=E(Y1|S1=s, W1=w)
Description
Estimates mu1(s, w)=E(Y1|S1=s, W1=w)
Usage
mu1swy(s1,w1,y1,s, w, hy2w1, hy2s1)
Arguments
s1 |
s1 |
w1 |
w1 |
y1 |
y1 |
s |
s |
w |
w |
hy2w1 |
bandwidth |
hy2s1 |
bandwidth |
Value
Returns mu1(s,w) estimate for given s and w
Estimates mu1(w)=E(Y1|W1=w)
Description
Estimates mu1(w)=E(Y1|W1=w)
Usage
mu1wy(w, hyw1,y1,w1)
Arguments
w |
w |
hyw1 |
bandwidth |
y1 |
y1 |
w1 |
w1 |
Value
Returns mu1(w) estimate for given w