clfs.strat: Estimates Stratified Current Leukaemia-Free Survival (CLFS)...
In currentSurvival: Estimation of CCI and CLFS Functions
clfs.strat R Documentation
Estimates Stratified Current Leukaemia-Free Survival (CLFS) and Common Leukaemia-Free Survival (LFS) Functions
Description
This is an internal function and is not usually called by user.
This function estimates the stratified current leukaemia-free survival (CLFS), i.e. the probability that a patient is alive and in any disease remission after achieving the first disease remission. Optionally, this function estimates the stratified common leukaemia-free survival (LFS) function. Moreover, statistical test can be applied to compare the risk groups. Only patients who achieved at least one disease remission during their treatment course are used for the estimation of the CLFS and LFS functions.
Usage
clfs.strat(data, stratf = NULL, maxx = NULL, com.est = TRUE,
conf.int = FALSE, conf.int.level = NULL,
no.iter = NULL, points = NULL, fig = TRUE,
pvals = FALSE, pval.test = NULL)
Arguments
data
a matrix with ascending times from therapy initiation to occurrence of individual events (in days, i.e. positive integer values), total follow-up times from therapy initiation to data cut-off date (in days), and censoring indicators; the size of the data matrix is n times (2*r+2), where n is the number of patients and r is the maximum number of disease remissions achieved by patients; the data matrix consists of the following columns:
data[,1] is the time from therapy initiation to achievement of the first disease remission
data[,2] is the time from therapy initiation to loss of the first disease remission
data[,3] is the time from therapy initiation to achievement of the second disease remission
...
data[,2*r-1] is the time from therapy initiation to achievement of the rth disease remission
data[,2*r] is the time from therapy initiation to loss of the rth disease remission
data[,2*r+1] is the follow-up time (time from the therapy initiation to death or to the date of last contact with a patient)
data[,2*r+2] is the censoring indicator (1..patient died, 0..patient is censored)
stratf
stratification factor (maximum number of stratification levels is 8 because of figure clarity)
maxx
maximum follow-up time calculated from the achievement of the first disease remission in days (defining time period for which the point estimates will be computed and curves will be plotted). Setting maxx smaller than the maximum follow-up time enables creating plots without fluctuating curve ends that may be caused by small number of patients. The default value is the maximum follow-up time except the time from therapy initiation to achievement of the first disease remission (i.e. max(data[,2*r+1]-data[,1])).
com.est
a logical value indicating whether common cumulative incidence function should be estimated. The default value is TRUE.
conf.int
a logical value indicating whether confidence interval for the function(s) should be estimated. The default value is FALSE.
conf.int.level
two-sided confidence interval level (must be in range 0.9 and 0.99). The default value is 0.95.
no.iter
a number of bootstrap iterations for confidence interval computation (must be in range between 10 and 10,000). The default value is 100.
points
time points in which the point estimates will be computed (in months). The default values are 0, 12, 24, ..., floor(maxx/(365/12)).
fig
a logical value indicating whether a figure should be plotted. The default value is TRUE.
pvals
a logical value indicating whether p-values for the comparison of stratified curves at pre-defined time points should be computed. The default value is FALSE.
pval.test
a type of a test that will be used for the computation of p-values. Possible values are “naive”, “log”, “loglog”. The default value is “loglog”.
Value
a list containing the following elements:
no.risk
numbers of patients at risk at the defined time points
pest
a matrix of point estimates (accompanied with confidence intervals) at the defined time points
pest.day
a matrix of point estimates (accompanied with confidence intervals) at each day of the follow-up time
pval
p-values for the comparison of point estimates at the defined time points
summary
summary of input data
Author(s)
Eva Janousova, Tomas Pavlik
Institute of Biostatistics and Analyses
Masaryk University, Brno, Czech Republic
janousova@iba.muni.cz
References
Pavlik T., Janousova E., Pospisil Z., et al. (2011). Estimation of current cumulative incidence of leukaemia-free patients and current leukaemia-free survival in chronic myeloid leukaemia in the era of modern pharmacotherapy. BMC Med Res Methodol 11:140.
See Also
clfs
Examples
# This is an internal function and is not usually called by user.
currentSurvival documentation built on May 12, 2022, 9:06 a.m.
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| clfs.strat | R Documentation |
Estimates Stratified Current Leukaemia-Free Survival (CLFS) and Common Leukaemia-Free Survival (LFS) Functions
Description
This is an internal function and is not usually called by user.
This function estimates the stratified current leukaemia-free survival (CLFS), i.e. the probability that a patient is alive and in any disease remission after achieving the first disease remission. Optionally, this function estimates the stratified common leukaemia-free survival (LFS) function. Moreover, statistical test can be applied to compare the risk groups. Only patients who achieved at least one disease remission during their treatment course are used for the estimation of the CLFS and LFS functions.
Usage
clfs.strat(data, stratf = NULL, maxx = NULL, com.est = TRUE,
conf.int = FALSE, conf.int.level = NULL,
no.iter = NULL, points = NULL, fig = TRUE,
pvals = FALSE, pval.test = NULL)
Arguments
data |
a matrix with ascending times from therapy initiation to occurrence of individual events (in days, i.e. positive integer values), total follow-up times from therapy initiation to data cut-off date (in days), and censoring indicators; the size of the data matrix is n times (2*r+2), where n is the number of patients and r is the maximum number of disease remissions achieved by patients; the data matrix consists of the following columns: |
stratf |
stratification factor (maximum number of stratification levels is 8 because of figure clarity) |
maxx |
maximum follow-up time calculated from the achievement of the first disease remission in days (defining time period for which the point estimates will be computed and curves will be plotted). Setting maxx smaller than the maximum follow-up time enables creating plots without fluctuating curve ends that may be caused by small number of patients. The default value is the maximum follow-up time except the time from therapy initiation to achievement of the first disease remission (i.e. max(data[,2*r+1]-data[,1])). |
com.est |
a logical value indicating whether common cumulative incidence function should be estimated. The default value is TRUE. |
conf.int |
a logical value indicating whether confidence interval for the function(s) should be estimated. The default value is FALSE. |
conf.int.level |
two-sided confidence interval level (must be in range 0.9 and 0.99). The default value is 0.95. |
no.iter |
a number of bootstrap iterations for confidence interval computation (must be in range between 10 and 10,000). The default value is 100. |
points |
time points in which the point estimates will be computed (in months). The default values are 0, 12, 24, ..., floor(maxx/(365/12)). |
fig |
a logical value indicating whether a figure should be plotted. The default value is TRUE. |
pvals |
a logical value indicating whether p-values for the comparison of stratified curves at pre-defined time points should be computed. The default value is FALSE. |
pval.test |
a type of a test that will be used for the computation of p-values. Possible values are “naive”, “log”, “loglog”. The default value is “loglog”. |
Value
a list containing the following elements:
no.risk |
numbers of patients at risk at the defined time points |
pest |
a matrix of point estimates (accompanied with confidence intervals) at the defined time points |
pest.day |
a matrix of point estimates (accompanied with confidence intervals) at each day of the follow-up time |
pval |
p-values for the comparison of point estimates at the defined time points |
summary |
summary of input data |
Author(s)
Eva Janousova, Tomas Pavlik
Institute of Biostatistics and Analyses
Masaryk University, Brno, Czech Republic
janousova@iba.muni.cz
References
Pavlik T., Janousova E., Pospisil Z., et al. (2011). Estimation of current cumulative incidence of leukaemia-free patients and current leukaemia-free survival in chronic myeloid leukaemia in the era of modern pharmacotherapy. BMC Med Res Methodol 11:140.
See Also
clfs
Examples
# This is an internal function and is not usually called by user.
R Package Documentation
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