PERMIT SIR add prescription data

#PERL COMMANDS (IF USING RESEARCH EVENTS MEDICATION SOFTWARE)
cd research-events-medication-htn
npm install
node index.js -a resources\perl_input.txt && sort resources\perl_input.txt.done > resources\codesh.txt.done.sorted
#PERL NOT USED IN THIS INSTANCE DUE TO THE COMPLEXITY OF THE INSTRUCTIONS
##################################################################################################################################

#R COMMANDS

library(stringr)
library(plyr)
library(lubridate)
library(dplyr)
library(tidyr)
load("crea.repv10.rda")
load("PERMITmeddata28.rda")
meddata<-unique(meddata)
meddata$DAILY_DOSE<-signif(meddata$DAILY_DOSE,digits=2)
meddata$FAMILY<-ifelse(meddata$TYPE=="Doxycycline",paste("Antimicrobial"),paste(meddata$FAMILY))
meddata$TYPE<-ifelse(meddata$TYPE=="Aliskiren hemifumarate",paste("Aliskiren"),paste(meddata$TYPE))
meddata$TYPE<-ifelse(meddata$TYPE=="Amiloride hydrochloride",paste("Amiloride"),paste(meddata$TYPE))
meddata$TYPE<-ifelse(meddata$TYPE=="Hydrochlorothiazide",paste("Hydrochlorthiazide"),paste(meddata$TYPE))
meddata$TYPE<-ifelse(meddata$TYPE=="Trandopril",paste("Trandolapril"),paste(meddata$TYPE))

################################################################################################

#MAKE A MINIMAL LIST OF CREATININE MEASUREMENT DATES PER PATIENT (smalltab)
NSAID<-meddata[meddata$FAMILY=="NSAID",]
NSAID$EntryDate<-as.Date(NSAID$EntryDate,format="%d/%m/%Y")
NSAID$END_DATE<-as.Date(NSAID$END_DATE,format="%d/%m/%Y")
NSAID$check<-paste(NSAID$TYPE,NSAID$DAILY_DOSE,sep="")
smalltab<-crea.rep[crea.rep$PatientID %in% NSAID$PatientID,c("PatientID","event.date")]
smalltab<-unique(smalltab)
NSAID<-NSAID[order(NSAID$EntryDate,decreasing = TRUE), ]
###############################################################################################checked
#LOOP THROUGH TEST DATES AND MATCH TO PRESCRIPTIONS

for (i in 1:length(unique(smalltab$event.date))){
N<-NSAID[NSAID$EntryDate<=smalltab$event.date[i]&NSAID$END_DATE>=smalltab$event.date[i],c("EntryDate","PatientID","TYPE","check")]
N<-na.omit(N)
N<-N[order(N$TYPE,N$PatientID,N$EntryDate), ]
N<-N[!duplicated(N[c("PatientID","TYPE")],fromLast=TRUE),]

P<-N %>%
group_by(PatientID) %>%
summarise(outs=paste(na.omit(check),collapse="")) %>%
data.frame()
P$event.date<-smalltab$event.date[i]
P<-P[order(P$PatientID,P$event.date) , ]
write.table(P,file="NSAIDSd.txt",append=TRUE,row.names=FALSE,col.names=FALSE,sep=",") }

NS<-read.table("NSAIDSd.txt",header=FALSE,sep=",")
NS<-unique(NS)
colnames(NS) <- c("PatientID","NSAIDdesc","event.date")
NSAIDlist<-NS[!duplicated(NS$NSAIDdesc),c("NSAIDdesc")]

#write.csv(NSAIDlist,file="NSAIDlist0603.csv",row.names=FALSE) 
#ADDED NEW CODE NOTATION MANUALLY

NS2<-read.csv("NSAIDlist0603.csv")
NS<-merge(NS,NS2,all.x=TRUE)
NS$PatientID<-as.factor(NS$PatientID)
crea.rep$PatientID<-as.factor(crea.rep$PatientID)
NS<-NS[,c("NSAIDs","PatientID","event.date")]
names(NS)<-c("NSAIDs_CAT","PatientID","event.date")
NS$event.date<-as.Date(NS$event.date,format="%Y-%d-%m")
crea.rep<-merge(crea.rep,NS,all.x=TRUE)
crea.rep$NSAIDs<-ifelse(is.na(crea.rep$NSAIDs),0,crea.rep$NSAIDs)
crea.rep$NSAIDs_CAT<-ifelse(is.na(crea.rep$NSAIDs_CAT),paste("0"),paste(crea.rep$NSAIDs_CAT))
#####################################################################################################CHECKED
#Angiotensin Receptor Blockers
ARB<-meddata[meddata$FAMILY=="ARBs",]
ARB$EntryDate<-as.Date(ARB$EntryDate,format="%d/
%m/%Y")
ARB$END_DATE<-as.Date(ARB$END_DATE,format="%d/%m/%Y")
ARB$check<-paste(ARB$TYPE,ARB$DAILY_DOSE,sep="")
smalltab<-crea.rep[crea.rep$PatientID %in% ARB$PatientID,c("PatientID","event.date")]
smalltab<-unique(smalltab)
ARB<-ARB[order(ARB$TYPE,ARB$EntryDate,decreasing = TRUE), ]

for (i in 1:length(unique(smalltab$event.date))){
N<-ARB[ARB$EntryDate<=smalltab$event.date[i]&ARB$END_DATE>=smalltab$event.date[i],c("EntryDate","PatientID","TYPE","check")]
N<-na.omit(N)
N<-N[order(N$TYPE,N$PatientID,N$EntryDate), ]
N<-N[!duplicated(N[c("PatientID","TYPE")],fromLast=TRUE),]

P<-N %>%
group_by(PatientID) %>%
summarise(outs=paste(na.omit(check),collapse="")) %>%
data.frame()
P$event.date<-smalltab$event.date[i]
P<-P[order(P$PatientID,P$event.date) , ]
write.table(P,file="ARBSd28.txt",append=TRUE,row.names=FALSE,col.names=FALSE,sep=",") }


NS<-read.table("ARBSd28.txt",header=FALSE,sep=",")
NS<-unique(NS)
colnames(NS) <- c("PatientID","ARBdesc","event.date")
ARBlist<-NS[!duplicated(NS$ARBdesc),c("ARBdesc")]

#write.csv(ARBlist,file="ARBlist0603.csv",row.names=FALSE) 
#ADDED NEW CODE NOTATION MANUALLY

NS2<-read.csv("ARBlist0603.csv")
NS<-merge(NS,NS2,all.x=TRUE)
NS<-NS[,c("ARBs","PatientID","event.date")]
names(NS)<-c("ARBs_CAT","PatientID","event.date")
NS$PatientID<-as.factor(NS$PatientID)
NS$event.date<-as.Date(NS$event.date,format="%Y-%d-%m")
crea.rep<-merge(crea.rep,NS,all.x=TRUE) 
crea.rep$ARBs_CAT<-ifelse(is.na(crea.rep$ARBs_CAT),paste("0"),paste(crea.rep$ARBs_CAT))
#################################################################################################CHECKED
#ALDOSTERONE ANTAGONISTS
AA<-meddata[meddata$FAMILY=="ALD_ANT",]
AA$EntryDate<-as.Date(AA$EntryDate,format="%d/%m/%Y")
AA$END_DATE<-as.Date(AA$END_DATE,format="%d/%m/%Y")
AA$check<-paste(AA$TYPE,AA$DAILY_DOSE,sep="")
crea.rep$event.date<-as.Date(crea.rep$event.date,"%d%m%Y")
smalltab<-crea.rep[crea.rep$PatientID %in% AA$PatientID,c("PatientID","event.date")]
smalltab<-unique(smalltab)
AA<-AA[order(AA$TYPE,AA$EntryDate,decreasing = TRUE), ]

for (i in 1:length(unique(smalltab$event.date))){
N<-AA[AA$EntryDate<=smalltab$event.date[i]&AA$END_DATE>=smalltab$event.date[i],c("EntryDate","PatientID","TYPE","check")]
N<-na.omit(N)
N<-N[order(N$TYPE,N$PatientID,N$EntryDate), ]
N<-N[!duplicated(N[c("PatientID","TYPE")],fromLast=TRUE),]

P<-N %>%
group_by(PatientID) %>%
summarise(outs=paste(na.omit(check),collapse="")) %>%
data.frame()
P$event.date<-smalltab$event.date[i]
P<-P[order(P$PatientID,P$event.date) , ]
write.table(P,file="AA.txt",append=TRUE,row.names=FALSE,col.names=FALSE,sep=",") }

NS<-read.table("AA.txt",header=FALSE,sep=",")
NS<-unique(NS)
colnames(NS) <- c("PatientID","AAdesc","event.date")
AAlist<-NS[!duplicated(NS$AAdesc),c("AAdesc")]

#write.csv(AAlist,file="AAlist.csv",row.names=FALSE) 
#ADDED NEW CODE NOTATION MANUALLY

NS2<-read.csv("AAlist0603.csv")
NS<-merge(NS,NS2,all.x=TRUE)
NS<-NS[,c("Ald_Ant","PatientID","event.date")]
crea.rep<-merge(crea.rep,NS,all.x=TRUE)
crea.rep$Ald_Ant<-ifelse(is.na(crea.rep$Ald_Ant),0,crea.rep$Ald_Ant)
##############################################################################################
#THIAZIDE DIURETICS
#SOME DOSES APPEAR TO BE ZERO SO CHECK THIS OUT

#THIS IS ONLY A PROBLEM FOR ONE INSTRUCTION AND ONE DRUG

THI<-meddata[meddata$FAMILY=="DIUR_THI",]
THI$DAILY_DOSE<-signif(THI$DAILY_DOSE,digits=2)
THI$EntryDate<-as.Date(THI$EntryDate,format="%d/%m/%Y")
THI$END_DATE<-as.Date(THI$END_DATE,format="%d/%m/%Y")
THI$check<-paste(THI$TYPE,THI$DAILY_DOSE,sep="")
smalltab<-crea.rep[crea.rep$PatientID %in% THI$PatientID,c("PatientID","event.date")]
smalltab<-unique(smalltab)
THI<-THI[order(THI$TYPE,THI$EntryDate,decreasing = TRUE), ]

for (i in 1:length(unique(smalltab$event.date))){
N<-THI[THI$EntryDate<=smalltab$event.date[i]&THI$END_DATE>=smalltab$event.date[i],c("EntryDate","PatientID","TYPE","check")]
N<-na.omit(N)
N<-N[order(N$TYPE,N$PatientID,N$EntryDate), ]
N<-N[!duplicated(N[c("PatientID","TYPE")],fromLast=TRUE),]

P<-N %>%
group_by(PatientID) %>%
summarise(outs=paste(na.omit(check),collapse="")) %>%
data.frame()
P$event.date<-smalltab$event.date[i]
P<-P[order(P$PatientID,P$event.date) , ]
write.table(P,file="THI.txt",append=TRUE,row.names=FALSE,col.names=FALSE,sep=",") }

NS<-read.table("THI.txt",header=FALSE,sep=",")
NS<-unique(NS)
colnames(NS) <- c("PatientID","THIdesc","event.date")
THIlist<-NS[!duplicated(NS$THIdesc),c("THIdesc")]
#write.csv(THIlist,file="THIlist.csv",row.names=FALSE) 
#ADDED NEW CODE NOTATION MANUALLY
#

NS2<-read.csv("THIlist.csv")
NS<-merge(NS,NS2,all.x=TRUE)
NS<-NS[,c("Thiazide_Diuretics","PatientID","event.date")]
names(NS)<-c("Thiazide_Diuretics_CAT","PatientID","event.date")
NS$PatientID<-as.factor(NS$PatientID)
crea.rep<-merge(crea.rep,NS,all.x=TRUE)
crea.rep$Thiazide_Diuretics_CAT<-ifelse(is.na(crea.rep$Thiazide_Diuretics_CAT),0,crea.rep$Thiazide_Diuretics_CAT)

################################################################################### CHECKED
LOOP<-meddata[meddata$FAMILY=="Loop Diuretics",]
LOOP$EntryDate<-as.Date(LOOP$EntryDate,format="%d/%m/%Y")
LOOP$END_DATE<-as.Date(LOOP$END_DATE,format="%d/%m/%Y")
LOOP$check<-paste(LOOP$TYPE,LOOP$DAILY_DOSE,sep="")
smalltab<-crea.rep[crea.rep$PatientID %in% LOOP$PatientID,c("PatientID","event.date")]
smalltab<-unique(smalltab)
LOOP<-LOOP[order(LOOP$TYPE,LOOP$EntryDate,decreasing = TRUE), ]

for (i in 1:length(unique(smalltab$event.date))){
N<-LOOP[LOOP$EntryDate<=smalltab$event.date[i]&LOOP$END_DATE>=smalltab$event.date[i],c("EntryDate","PatientID","TYPE","check")]
N<-na.omit(N)
N<-N[order(N$TYPE,N$PatientID,N$EntryDate), ]
N<-N[!duplicated(N[c("PatientID","TYPE")],fromLast=TRUE),]

P<-N %>%
group_by(PatientID) %>%
summarise(outs=paste(na.omit(check),collapse="")) %>%
data.frame()
P$event.date<-smalltab$event.date[i]
P<-P[order(P$PatientID,P$event.date) , ]
write.table(P,file="LOOP.txt",append=TRUE,row.names=FALSE,col.names=FALSE,sep=",") }

NS<-read.table("LOOP.txt",header=FALSE,sep=",")
NS<-unique(NS)
colnames(NS) <- c("PatientID","LOOPdesc","event.date")

#CREATE LIST OF UNIQUE COMBINATIONS OF DRUGS
#LOOPlist<-NS[!duplicated(NS$LOOPdesc),c("LOOPdesc")]
#write.csv(LOOPlist,file="LOOPlist.csv",row.names=FALSE) 
#ADDED NEW CODE NOTATION MANUALLY

NS2<-read.csv("LOOPlist.csv")
NS<-merge(NS,NS2,all.x=TRUE)
NS<-NS[,c("Loop_Diuretics","PatientID","event.date"]
names(NS)<-c("Loop_Diuretics_CAT","PatientID","event.date")
crea.rep<-merge(crea.rep,NS,all.x=TRUE)
crea.rep$Loop_Diuretics_CAT<-ifelse(is.na(crea.rep$Loop_Diuretics_CAT),0,crea.rep$Loop_Diuretics_CAT)
################################################################################### CHECKED
IMM<-meddata[meddata$FAMILY=="Immunosuppressants",]
IMM$EntryDate<-as.Date(IMM$EntryDate,format="%d/%m/%Y")
IMM$END_DATE<-as.Date(IMM$END_DATE,format="%d/%m/%Y")
IMM$check<-paste(IMM$TYPE,IMM$DAILY_DOSE,sep="")
smalltab<-crea.rep[crea.rep$PatientID %in% IMM$PatientID,c("PatientID","event.date")]
smalltab<-unique(smalltab)
IMM<-IMM[order(IMM$TYPE,IMM$EntryDate,decreasing = TRUE), ]

for (i in 1:length(unique(smalltab$event.date))){
N<-IMM[IMM$EntryDate<=smalltab$event.date[i]&IMM$END_DATE>=smalltab$event.date[i],c("EntryDate","PatientID","TYPE","check")]
N<-na.omit(N)
N<-N[order(N$TYPE,N$PatientID,N$EntryDate), ]
N<-N[!duplicated(N[c("PatientID","TYPE")],fromLast=TRUE),]

P<-N %>%
group_by(PatientID) %>%
summarise(outs=paste(na.omit(check),collapse="")) %>%
data.frame()
P$event.date<-smalltab$event.date[i]
P<-P[order(P$PatientID,P$event.date) , ]
write.table(P,file="IMMd.txt",append=TRUE,row.names=FALSE,col.names=FALSE,sep=",") }

NS<-read.table("IMMd.txt",header=FALSE,sep=",")
NS<-unique(NS)
colnames(NS) <- c("PatientID","IMMdesc","event.date")
#IMMlist2<-NS[!duplicated(NS$IMMdesc),c("IMMdesc")]

#write.csv(IMMlist2,file="IMMlist2.csv",row.names=FALSE) 
#ADDED NEW CODE NOTATION MANUALLY

NS2<-read.csv("IMMlist.csv")
NS<-merge(NS,NS2,all.x=TRUE)
NS<-NS[,c("Immunosuppressants","PatientID","event.date")]
names(NS)<-c("Immunosuppressants_CAT","PatientID","event.date")
crea.rep<-merge(crea.rep,NS,all.x=TRUE)
crea.rep$Immunosuppressants_CAT<-ifelse(is.na(crea.rep$Immunosuppressants_CAT),0,crea.rep$Immunosuppressants_CAT)
########################################################################################
ACEI<-meddata[meddata$FAMILY=="ACEI",]
ACEI$TYPE<-ifelse(ACEI$TYPE=="Trandopril",paste("Trandolapril"),paste(ACEI$TYPE))
ACEI$EntryDate<-as.Date(ACEI$EntryDate,format="%d/%m/%Y")
ACEI$END_DATE<-as.Date(ACEI$END_DATE,format="%d/%m/%Y")
ACEI$check<-paste(ACEI$TYPE,ACEI$DAILY_DOSE,sep="")
smalltab<-crea.rep[crea.rep$PatientID %in% ACEI$PatientID,c("PatientID","event.date")]
smalltab<-unique(smalltab)
ACEI<-ACEI[order(ACEI$TYPE,ACEI$EntryDate,decreasing = TRUE), ]

for (i in 1:length(unique(smalltab$event.date))){
N<-ACEI[ACEI$EntryDate<=smalltab$event.date[i]&ACEI$END_DATE>=smalltab$event.date[i],c("EntryDate","PatientID","TYPE","check")]
N<-na.omit(N)
N<-N[order(N$TYPE,N$PatientID,N$EntryDate), ]
N<-N[!duplicated(N[c("PatientID","TYPE")],fromLast=TRUE),]

P<-N %>%
group_by(PatientID) %>%
summarise(outs=paste(na.omit(check),collapse="")) %>%
data.frame()
P$event.date<-smalltab$event.date[i]
P<-P[order(P$PatientID,P$event.date) , ]
write.table(P,file="ACEId.txt",append=TRUE,row.names=FALSE,col.names=FALSE,sep=",") }

NS<-read.table("ACEId.txt",header=FALSE,sep=",")
NS<-unique(NS)
colnames(NS) <- c("PatientID","ACEIdesc","event.date")
#ACEIlist<-NS[!duplicated(NS$ACEIdesc),c("ACEIdesc")]

#write.csv(ACEIlist,file="ACEIlist.csv",row.names=FALSE) 
#ADDED NEW CODE NOTATION MANUALLY

NS2<-read.csv("ACEIlist.csv")
NS<-merge(NS,NS2,all.x=TRUE)
NS<-NS[,c("ACE_Inhibitors","PatientID","event.date")]
names(NS)<-c("ACE_Inhibitors_CAT","PatientID","event.date")
crea.rep<-merge(crea.rep,NS,all.x=TRUE)
crea.rep$ACE_Inhibitors_CAT<-ifelse(is.na(crea.rep$ACE_Inhibitors_CAT),0,crea.rep$ACE_Inhibitors_CAT)
###########################################################################
NEP<-meddata[meddata$FAMILY=="Other nephrotoxins",]
NEP$EntryDate<-as.Date(NEP$EntryDate,format="%d/%m/%Y")
NEP$END_DATE<-as.Date(NEP$END_DATE,format="%d/%m/%Y")
NEP$check<-paste(NEP$TYPE,NEP$DAILY_DOSE,sep="")
smalltab<-crea.rep[crea.rep$PatientID %in% NEP$PatientID,c("PatientID","event.date")]
smalltab<-unique(smalltab)
NEP<-NEP[order(NEP$TYPE,NEP$EntryDate,decreasing = TRUE), ]

for (i in 1:length(unique(smalltab$event.date))){
N<-NEP[NEP$EntryDate<=smalltab$event.date[i]&NEP$END_DATE>=smalltab$event.date[i],c("EntryDate","PatientID","TYPE","check")]
N<-na.omit(N)
N<-N[order(N$PatientID,N$EntryDate), ]
N<-N[!duplicated(N[c("PatientID","TYPE")],fromLast=TRUE),]

P<-N %>%
group_by(PatientID) %>%
summarise(outs=paste(na.omit(check),collapse="")) %>%
data.frame()
P$event.date<-smalltab$event.date[i]
P<-P[order(P$PatientID,P$event.date) , ]
write.table(P,file="NEPHd.csv",append=TRUE,row.names=FALSE,col.names=FALSE,sep=",") }

NS<-read.table("NEPHd.csv",header=FALSE,sep=",")
NS<-unique(NS)
colnames(NS) <- c("PatientID","NEPdesc","event.date")
#NEPlist<-NS[!duplicated(NS$NEPdesc),c("NEPdesc")]

#write.csv(NEPlist,file="NEPlist.csv",row.names=FALSE) 
#ADDED NEW CODE NOTATION MANUALLY

NS2<-read.csv("NEPlist.csv")
NS<-merge(NS,NS2,all.x=TRUE)
NS<-NS[,c("Other_Nephrotoxins","PatientID","event.date")]
names(NS)<-c("Other_Nephrotoxins_CAT","PatientID","event.date")
crea.rep<-merge(crea.rep,NS,all.x=TRUE)
crea.rep$Other_Nephrotoxins_CAT<-ifelse(is.na(crea.rep$Other_Nephrotoxins_CAT),0,crea.rep$Other_Nephrotoxins_CAT)
########################################################################
ANT<-meddata[meddata$FAMILY=="Antimicrobial",]
ANT$EntryDate<-as.Date(ANT$EntryDate,format="%d/%m/%Y")
ANT$END_DATE<-as.Date(ANT$END_DATE,format="%d/%m/%Y")
ANT$check<-paste(ANT$TYPE,ANT$DAILY_DOSE,sep="")
smalltab<-crea.rep[crea.rep$PatientID %in% ANT$PatientID,c("PatientID","event.date")]
smalltab<-unique(smalltab)
ANT<-ANT[order(ANT$TYPE,ANT$EntryDate,decreasing = TRUE), ]

for (i in 1:length(unique(smalltab$event.date))){
N<-ANT[ANT$EntryDate<=smalltab$event.date[i]&ANT$END_DATE>=smalltab$event.date[i],c("EntryDate","PatientID","TYPE","check")]
N<-na.omit(N)
N<-N[order(N$TYPE,N$PatientID,N$EntryDate), ]
N<-N[!duplicated(N[c("PatientID","TYPE")],fromLast=TRUE),]

P<-N %>%
group_by(PatientID) %>%
summarise(outs=paste(na.omit(check),collapse="")) %>%
data.frame()
P$event.date<-smalltab$event.date[i]
P<-P[order(P$PatientID,P$event.date) , ]
write.table(P,file="ANTd.txt",append=TRUE,row.names=FALSE,col.names=FALSE,sep=",") }

NS<-read.table("ANTd.txt",header=FALSE,sep=",")
NS<-unique(NS)
colnames(NS) <- c("PatientID","ANTdesc","event.date")

#ANTlist<-NS[!duplicated(NS$ANTdesc),c("ANTdesc")]

#write.csv(ANTlist,file="ANTlist.csv",row.names=FALSE) 
#ADDED NEW CODE NOTATION MANUALLY

NS2<-read.csv("ANTlist.csv")
NS<-merge(NS,NS2,all.x=TRUE)
NS<-NS[,c("Antimicrobials","PatientID","event.date")]
names(NS)<-c("Antimicrobials_CAT","PatientID","event.date")
crea.rep<-merge(crea.rep,NS,all.x=TRUE)
crea.rep$Antimicrobials_CAT<-ifelse(is.na(crea.rep$Antimicrobials_CAT),0,crea.rep$Antimicrobials_CAT)

#CHECK FOR ANY REPEATED ROWS (should be one per patient per date):
crea.rep[(duplicated(crea.rep[c("PatientID","event.date")]) | duplicated(crea.rep[c("PatientID","event.date")], fromLast = TRUE)), ]