R/amaretto_htmlphenotypes.R
In broadinstitute/ImagingAMARETTO: ImagingAMARETTO: tools for interpreting multi-omics networks for relevance to clinical outcomes and radiographic and histopathology imaging-derived biomarkers
Defines functions
AMARETTO_HTMLCharacterisation
Documented in
AMARETTO_HTMLCharacterisation
#' @title AMARETTO_HTMLCharacterisation
#'
#' @param AMARETTOresults
#' @param annotation
#' @param report_address
#' @param survivalanalysis
#' @param phenotypeanalysis
#' @param idpatients
#' @param idvitalstatus
#' @param iddaystodeath
#' @param idfollowupdays
#' @param daystoyears
#' @param rightcensored
#' @param printsurv
#' @param NrCores
#'
#' @return A set of HTMLs, giving caracteristics of the communities
#'
#' @import survminer
#' @import tidyverse
#' @import survival
#' @import gtools
#' @import kableExtra
#' @import doParallel
#' @import foreach
#' @return
#' @export
#'
AMARETTO_HTMLCharacterisation<-function(AMARETTOresults, annotation, report_address="./",survivalanalysis=FALSE, phenotypeanalysis=FALSE, idpatients=NULL, idvitalstatus=NULL, iddaystodeath=NULL, idfollowupdays=NULL, daystoyears=FALSE, rightcensored=FALSE, parameters=NULL, typelist=NULL, NrCores=1){
full_path<-normalizePath(report_address)
mean_expression_modules <- t(AMARETTOresults$ModuleData)
mean_expression_modules <- rownames_to_column(as.data.frame(mean_expression_modules),"idpatients")
if (sum(annotation[,idpatients] %in% mean_expression_modules[,"idpatients"],na.rm=TRUE)==0){
stop("No overlap between patients ids")
} else {
print(paste0("Survival data will be calculated on ",length(annotation[,idpatients] %in% mean_expression_modules[,"idpatients"]), " patients."))
}
annotation <- suppressMessages(inner_join(annotation, mean_expression_modules %>% dplyr::rename(!!idpatients :="idpatients")))
if (survivalanalysis == TRUE){
daysdeath <- as.numeric(annotation[grep("dead", annotation[,idvitalstatus],ignore.case=TRUE),iddaystodeath])
dead <- annotation[grep("dead", annotation[,idvitalstatus],ignore.case=TRUE),idvitalstatus]
daysfollowup <- as.numeric(annotation[grep("alive", annotation[,idvitalstatus],ignore.case=TRUE),idfollowupdays])
alive <- annotation[grep("alive", annotation[,idvitalstatus],ignore.case=TRUE),idvitalstatus]
time<- c(daysfollowup,daysdeath)
status <- tolower(c(alive, dead))
if (daystoyears == TRUE){
time<-time/365
}
if (!rightcensored == FALSE){
if (is.numeric(rightcensored)){
status[time>rightcensored]<-"alive"
time[time>rightcensored]<-rightcensored
} else {
stop("The time point to censor the data is incorrect.")
}
}
status <- as.numeric(as.factor(status))
c_surv<-Surv(time, status)
#per module
cluster <- makeCluster(c(rep("localhost", NrCores)), type = "SOCK")
registerDoParallel(cluster,cores=NrCores)
p_survival<-foreach (i = 1:AMARETTOresults$NrModules, .packages = c('tidyverse','rmarkdown','gtools','survminer','survival')) %dopar% {
moduleNr <- paste0("Module_",i)
mean_dead <- annotation[grep("dead", annotation[,idvitalstatus],ignore.case=TRUE), moduleNr]
mean_alive <- annotation[grep("alive", annotation[,idvitalstatus],ignore.case=TRUE), moduleNr]
mean_expression <- c(mean_alive,mean_dead)
mean_expression_cut <- quantcut(mean_expression, q=2, na.rm=TRUE)
datasurvfit <- as.data.frame(cbind(time,status,mean_expression,mean_expression_cut)) %>% drop_na()
cox_reg <- coxph(Surv(time,status)~mean_expression,data=datasurvfit)
coxstats<- c(summary(cox_reg)$waldtest["pvalue"], summary(cox_reg)$conf.int[1], summary(cox_reg)$conf.int[3],summary(cox_reg)$conf.int[4])
c_meanexp <- survival::survfit(Surv(time,status) ~ factor(mean_expression_cut),data=datasurvfit)
kmstats <- c(survminer::surv_pvalue(c_meanexp,data=datasurvfit)$pval, summary(c_meanexp)$table[1,"median"], summary(c_meanexp)$table[2,"median"], summary(c_meanexp)$table[1,"0.95LCL"],
summary(c_meanexp)$table[2,"0.95LCL"], summary(c_meanexp)$table[1,"0.95UCL"], summary(c_meanexp)$table[2,"0.95UCL"])
modulemd<-paste0(full_path,"/AMARETTOhtmls/survival/modules/module",i,".rmd")
file.copy(system.file("templates/TemplateSurvivalModule.Rmd",package="AMARETTO"),modulemd)
rmarkdown::render(modulemd,output_file = paste0("module",i,".html"), params = list(
cox_reg=cox_reg,
c_meanexp=c_meanexp,
datasurvfit=datasurvfit,
i=i),quiet = TRUE)
file.remove(modulemd)
return(c(coxstats,kmstats))
}
stopCluster(cluster)
cat("The survival module htmls are finished.\n")
p_survival<-data.frame(matrix(unlist(p_survival),byrow=T,ncol=11),stringsAsFactors=FALSE)
colnames(p_survival) <- c("coxregwaldtestp","coxreg_coef","coxreg_LL","coxreg_UL","logranktestp","medianOS1","medianOS2","Lower95CI1","Upper95CI1","Lower95CI2","Upper95CI2")
rownames(p_survival) <- paste0("Module ",1:AMARETTOresults$NrModules)
p_survival[,"logranktestpadj"]<-p.adjust(p_survival[,"logranktestp"],method="BH")
p_survival[,"coxregwaldtestpadj"]<-p.adjust(p_survival[,"coxregwaldtestp"],method="BH")
rmarkdown::render(system.file("templates/TemplateSurvivalIndex.Rmd",package="AMARETTO"),output_file=paste0(full_path,"/AMARETTOhtmls/survival/survivalindex.html"), params = list(
p_survival=p_survival))
}
if (phenotypeanalysis == TRUE){
#cluster <- makeCluster(c(rep("localhost", NrCores)), type = "SOCK")
#registerDoParallel(cluster,cores=NrCores)
#foreach (i = 1:AMARETTOresults$NrModules, .packages = c('tidyverse','rmarkdown','kableExtra')) %dopar% {
for(i in 1:AMARETTOresults$NrModules) {
moduleNr <- paste0("Module_",i)
modulemd<-paste0(full_path,"/AMARETTOhtmls/phenotypes/modules/module",i,".rmd")
file.copy(system.file("templates/TemplatePhenotypesModule.Rmd",package="AMARETTO"),modulemd)
rmarkdown::render(modulemd,output_file = paste0("module",i,".html"), params = list(
parameters=parameters,
typelist=typelist,
annotation=annotation %>% select(!!idpatients,parameters,moduleNr),
i=i),quiet = TRUE)
file.remove(modulemd)
}
#stopCluster(cluster)
cat("The phenotype module htmls are finished.\n")
phenotypetable<-AMARETTO_PhenAssociation(AMARETTOresults, annotation = annotation, idpatients = "ID", parameters=parameters, typelist = typelist,printplots = FALSE)
rmarkdown::render(system.file("templates/TemplatePhenotypesIndex.Rmd",package="AMARETTO"),output_file=paste0(full_path,"/AMARETTOhtmls/phenotypes/phenotypesindex.html"), params = list(
p_survival=p_survival))
}
}
broadinstitute/ImagingAMARETTO documentation built on Dec. 3, 2019, 6:38 p.m.
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Defines functions AMARETTO_HTMLCharacterisation
Documented in AMARETTO_HTMLCharacterisation
#' @title AMARETTO_HTMLCharacterisation
#'
#' @param AMARETTOresults
#' @param annotation
#' @param report_address
#' @param survivalanalysis
#' @param phenotypeanalysis
#' @param idpatients
#' @param idvitalstatus
#' @param iddaystodeath
#' @param idfollowupdays
#' @param daystoyears
#' @param rightcensored
#' @param printsurv
#' @param NrCores
#'
#' @return A set of HTMLs, giving caracteristics of the communities
#'
#' @import survminer
#' @import tidyverse
#' @import survival
#' @import gtools
#' @import kableExtra
#' @import doParallel
#' @import foreach
#' @return
#' @export
#'
AMARETTO_HTMLCharacterisation<-function(AMARETTOresults, annotation, report_address="./",survivalanalysis=FALSE, phenotypeanalysis=FALSE, idpatients=NULL, idvitalstatus=NULL, iddaystodeath=NULL, idfollowupdays=NULL, daystoyears=FALSE, rightcensored=FALSE, parameters=NULL, typelist=NULL, NrCores=1){
full_path<-normalizePath(report_address)
mean_expression_modules <- t(AMARETTOresults$ModuleData)
mean_expression_modules <- rownames_to_column(as.data.frame(mean_expression_modules),"idpatients")
if (sum(annotation[,idpatients] %in% mean_expression_modules[,"idpatients"],na.rm=TRUE)==0){
stop("No overlap between patients ids")
} else {
print(paste0("Survival data will be calculated on ",length(annotation[,idpatients] %in% mean_expression_modules[,"idpatients"]), " patients."))
}
annotation <- suppressMessages(inner_join(annotation, mean_expression_modules %>% dplyr::rename(!!idpatients :="idpatients")))
if (survivalanalysis == TRUE){
daysdeath <- as.numeric(annotation[grep("dead", annotation[,idvitalstatus],ignore.case=TRUE),iddaystodeath])
dead <- annotation[grep("dead", annotation[,idvitalstatus],ignore.case=TRUE),idvitalstatus]
daysfollowup <- as.numeric(annotation[grep("alive", annotation[,idvitalstatus],ignore.case=TRUE),idfollowupdays])
alive <- annotation[grep("alive", annotation[,idvitalstatus],ignore.case=TRUE),idvitalstatus]
time<- c(daysfollowup,daysdeath)
status <- tolower(c(alive, dead))
if (daystoyears == TRUE){
time<-time/365
}
if (!rightcensored == FALSE){
if (is.numeric(rightcensored)){
status[time>rightcensored]<-"alive"
time[time>rightcensored]<-rightcensored
} else {
stop("The time point to censor the data is incorrect.")
}
}
status <- as.numeric(as.factor(status))
c_surv<-Surv(time, status)
#per module
cluster <- makeCluster(c(rep("localhost", NrCores)), type = "SOCK")
registerDoParallel(cluster,cores=NrCores)
p_survival<-foreach (i = 1:AMARETTOresults$NrModules, .packages = c('tidyverse','rmarkdown','gtools','survminer','survival')) %dopar% {
moduleNr <- paste0("Module_",i)
mean_dead <- annotation[grep("dead", annotation[,idvitalstatus],ignore.case=TRUE), moduleNr]
mean_alive <- annotation[grep("alive", annotation[,idvitalstatus],ignore.case=TRUE), moduleNr]
mean_expression <- c(mean_alive,mean_dead)
mean_expression_cut <- quantcut(mean_expression, q=2, na.rm=TRUE)
datasurvfit <- as.data.frame(cbind(time,status,mean_expression,mean_expression_cut)) %>% drop_na()
cox_reg <- coxph(Surv(time,status)~mean_expression,data=datasurvfit)
coxstats<- c(summary(cox_reg)$waldtest["pvalue"], summary(cox_reg)$conf.int[1], summary(cox_reg)$conf.int[3],summary(cox_reg)$conf.int[4])
c_meanexp <- survival::survfit(Surv(time,status) ~ factor(mean_expression_cut),data=datasurvfit)
kmstats <- c(survminer::surv_pvalue(c_meanexp,data=datasurvfit)$pval, summary(c_meanexp)$table[1,"median"], summary(c_meanexp)$table[2,"median"], summary(c_meanexp)$table[1,"0.95LCL"],
summary(c_meanexp)$table[2,"0.95LCL"], summary(c_meanexp)$table[1,"0.95UCL"], summary(c_meanexp)$table[2,"0.95UCL"])
modulemd<-paste0(full_path,"/AMARETTOhtmls/survival/modules/module",i,".rmd")
file.copy(system.file("templates/TemplateSurvivalModule.Rmd",package="AMARETTO"),modulemd)
rmarkdown::render(modulemd,output_file = paste0("module",i,".html"), params = list(
cox_reg=cox_reg,
c_meanexp=c_meanexp,
datasurvfit=datasurvfit,
i=i),quiet = TRUE)
file.remove(modulemd)
return(c(coxstats,kmstats))
}
stopCluster(cluster)
cat("The survival module htmls are finished.\n")
p_survival<-data.frame(matrix(unlist(p_survival),byrow=T,ncol=11),stringsAsFactors=FALSE)
colnames(p_survival) <- c("coxregwaldtestp","coxreg_coef","coxreg_LL","coxreg_UL","logranktestp","medianOS1","medianOS2","Lower95CI1","Upper95CI1","Lower95CI2","Upper95CI2")
rownames(p_survival) <- paste0("Module ",1:AMARETTOresults$NrModules)
p_survival[,"logranktestpadj"]<-p.adjust(p_survival[,"logranktestp"],method="BH")
p_survival[,"coxregwaldtestpadj"]<-p.adjust(p_survival[,"coxregwaldtestp"],method="BH")
rmarkdown::render(system.file("templates/TemplateSurvivalIndex.Rmd",package="AMARETTO"),output_file=paste0(full_path,"/AMARETTOhtmls/survival/survivalindex.html"), params = list(
p_survival=p_survival))
}
if (phenotypeanalysis == TRUE){
#cluster <- makeCluster(c(rep("localhost", NrCores)), type = "SOCK")
#registerDoParallel(cluster,cores=NrCores)
#foreach (i = 1:AMARETTOresults$NrModules, .packages = c('tidyverse','rmarkdown','kableExtra')) %dopar% {
for(i in 1:AMARETTOresults$NrModules) {
moduleNr <- paste0("Module_",i)
modulemd<-paste0(full_path,"/AMARETTOhtmls/phenotypes/modules/module",i,".rmd")
file.copy(system.file("templates/TemplatePhenotypesModule.Rmd",package="AMARETTO"),modulemd)
rmarkdown::render(modulemd,output_file = paste0("module",i,".html"), params = list(
parameters=parameters,
typelist=typelist,
annotation=annotation %>% select(!!idpatients,parameters,moduleNr),
i=i),quiet = TRUE)
file.remove(modulemd)
}
#stopCluster(cluster)
cat("The phenotype module htmls are finished.\n")
phenotypetable<-AMARETTO_PhenAssociation(AMARETTOresults, annotation = annotation, idpatients = "ID", parameters=parameters, typelist = typelist,printplots = FALSE)
rmarkdown::render(system.file("templates/TemplatePhenotypesIndex.Rmd",package="AMARETTO"),output_file=paste0(full_path,"/AMARETTOhtmls/phenotypes/phenotypesindex.html"), params = list(
p_survival=p_survival))
}
}
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