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an_cox_table1.do
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an_cox_table1.do
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********************************************************************************
*
* Do-file: an_cox_table1.do
*
* Project: SGTF CFR
*
* Programmed by: Daniel Grint
* Adapted from household classification (Kevin)
*
* Data used: output/cr_analysis_dataset.dta
*
* Data created:
*
* Other output: Table 1 Cox study population
*
********************************************************************************
*
* Purpose: This do-file creates table 1 for 28-day risk analysis
*
********************************************************************************
* Open a log file
cap log close
log using ./logs/an_cox_table1, replace t
clear
use ./output/cr_analysis_new.dta
********************************************************************************
* PROGRAMS TO AUTOMATE TABULATIONS
*
********************************************************************************
* All below code from K Baskharan
* Generic code to output one row of table
cap prog drop generaterow
program define generaterow
syntax, variable(varname) condition(string)
cou
local overalldenom=r(N)
sum `variable' if `variable' `condition'
**K Wing additional code to aoutput variable category labels**
local level=substr("`condition'",3,.)
local lab: label `variable'Lab `level'
file write tablecontent (" `lab'") _tab
/*this is the overall column*/
cou if `variable' `condition'
local rowdenom = r(N)
local colpct = 100*(r(N)/`overalldenom')
file write tablecontent %9.0gc (`rowdenom') (" (") %3.1f (`colpct') (")") _tab
/*this loops through groups*/
forvalues i=0/1{
cou if sgtf == `i'
local rowdenom = r(N)
cou if sgtf == `i' & `variable' `condition'
local pct = 100*(r(N)/`rowdenom')
file write tablecontent %9.0gc (r(N)) (" (") %3.1f (`pct') (")") _tab
}
file write tablecontent _n
end
* Output one row of table for co-morbidities and meds
* This puts it all on the same row, is rohini's edit
cap prog drop generaterow2
program define generaterow2
syntax, variable(varname) condition(string)
cou
local overalldenom=r(N)5
cou if `variable' `condition'
local rowdenom = r(N)
local colpct = 100*(r(N)/`overalldenom')
file write tablecontent %9.0gc (`rowdenom') (" (") %3.1f (`colpct') (")") _tab
forvalues i=0/1{
cou if sgtf == `i'
local rowdenom = r(N)
cou if sgtf == `i' & `variable' `condition'
local pct = 100*(r(N)/`rowdenom')
file write tablecontent %9.0gc (r(N)) (" (") %3.1f (`pct') (")") _tab
}
file write tablecontent _n
end
********************************************************************************
/* Explanatory Notes
defines a program (SAS macro/R function equivalent), generate row
the syntax row specifies two inputs for the program:
a VARNAME which is your variable
a CONDITION which is a string of some condition you impose
the program counts if variable and condition and returns the counts
column percentages are then automatically generated
this is then written to the text file 'tablecontent'
the number followed by space, brackets, formatted pct, end bracket and then tab
the format %3.1f specifies length of 3, followed by 1 dp.
*/
********************************************************************************
* Generic code to output one section (varible) within table (calls above)
cap prog drop tabulatevariable
prog define tabulatevariable
syntax, variable(varname) min(real) max(real) [missing]
local lab: variable label `variable'
file write tablecontent ("`lab'") _n
forvalues varlevel = `min'/`max'{
generaterow, variable(`variable') condition("==`varlevel'")
}
if "`missing'"!="" generaterow, variable(`variable') condition("== 12")
end
********************************************************************************
/* Explanatory Notes
defines program tabulate variable
syntax is :
- a VARNAME which you stick in variable
- a numeric minimum
- a numeric maximum
- optional missing option, default value is .
forvalues lowest to highest of the variable, manually set for each var
run the generate row program for the level of the variable
if there is a missing specified, then run the generate row for missing vals
*/
********************************************************************************
* Generic code to qui summarize a continous variable
cap prog drop summarizevariable
prog define summarizevariable
syntax, variable(varname)
local lab: variable label `variable'
file write tablecontent ("`lab'") _n
qui summarize `variable', d
file write tablecontent ("Mean (SD)") _tab
file write tablecontent %3.1f (r(mean)) (" (") %3.1f (r(sd)) (")") _tab
forvalues i=0/1{
qui summarize `variable' if sgtf == `i', d
file write tablecontent %3.1f (r(mean)) (" (") %3.1f (r(sd)) (")") _tab
}
file write tablecontent _n
qui summarize `variable', d
file write tablecontent ("Median (IQR)") _tab
file write tablecontent %3.1f (r(p50)) (" (") %3.1f (r(p25)) ("-") %3.1f (r(p75)) (")") _tab
forvalues i=0/1{
qui summarize `variable' if sgtf == `i', d
file write tablecontent %3.1f (r(p50)) (" (") %3.1f (r(p25)) ("-") %3.1f (r(p75)) (")") _tab
}
file write tablecontent _n
end
********************************************************************************
* INVOKE PROGRAMS FOR TABLE 1
*
********************************************************************************
* DROP MISSING UTLA
noi di "DROPPING MISSING UTLA DATA"
drop if utla_group==""
* DROP IF NO DATA ON SGTF
noi di "DROPPING NO SGTF DATA"
drop if has_sgtf==0
noi di "SUBSETTING ON COX POPULATION"
keep if cox_pop==1
*Set up output file
cap file close tablecontent
file open tablecontent using ./output/table1_cox.txt, write text replace
file write tablecontent ("Table 1: Demographic and Clinical Characteristics") _n
file write tablecontent _tab ("Total") _tab ///
("non-VOC") _tab ///
("VOC") _n
* DEMOGRAPHICS (more than one level, potentially missing)
/*reminder of variables:
patient_id age ageCat hh_id hh_size hh_composition case_date case eth5 eth16 ethnicity_16 indexdate sex bmicat smoke imd region comorb_Neuro comorb_Immunosuppression shielding chronic_respiratory_disease chronic_cardiac_disease diabetes chronic_liver_disease cancer egfr_cat hypertension smoke_nomiss rural_urban
*/
*N
label define cox_popLab 1 "N"
label values cox_pop cox_popLab
tabulatevariable, variable(cox_pop) min(1) max(1)
file write tablecontent _n
*HOSPTIAL ADMISSION
tabulatevariable, variable(end_hosp_test) min(0) max(1)
file write tablecontent _n
*ICU ADMISSION
tabulatevariable, variable(end_icu_test) min(0) max(1)
file write tablecontent _n
*DIED
tabulatevariable, variable(cox_death) min(0) max(1)
file write tablecontent _n
*DEATH|HOSP
tabulatevariable, variable(end_death_hosp) min(0) max(1)
file write tablecontent _n
*TIME TO DEATH
summarizevariable, variable(cox_time_d)
file write tablecontent _n
*FOLLOW-UP TIME
summarizevariable, variable(cox_time)
file write tablecontent _n
*EPI WEEK
tabulatevariable, variable(start_week) min(1) max(8)
file write tablecontent _n
*SEX
tabulatevariable, variable(male) min(0) max(1)
file write tablecontent _n
*AGE
summarizevariable, variable(age)
file write tablecontent _n
tabulatevariable, variable(agegroup) min(0) max(7)
file write tablecontent _n
*ETHNICITY
tabulatevariable, variable(eth5) min(1) max(6)
file write tablecontent _n
*BMI
tabulatevariable, variable(obese4cat) min(1) max(4)
file write tablecontent _n
*SMOKING
tabulatevariable, variable(smoke_nomiss) min(1) max(3)
file write tablecontent _n
*COMORBIDITIES (3 CATEGORIES)
tabulatevariable, variable(comorb_cat) min(0) max(2)
file write tablecontent _n
*IMD
tabulatevariable, variable(imd) min(1) max(5)
file write tablecontent _n
*HOUSEHOLD SIZE
replace hh_total_cat = 5 if hh_total_cat==.
label define hh_total_catLab 5 "Missing", modify
tabulatevariable, variable(hh_total_cat) min(1) max(5)
file write tablecontent _n
*CARE HOME
tabulatevariable, variable(home_bin) min(0) max(1)
file write tablecontent _n
*REGION
tabulatevariable, variable(region) min(0) max(8)
file write tablecontent _n
*RURAL URBAN (five categories)
replace rural_urban5 = 6 if rural_urban5==.
label define rural_urban5Lab 6 "Missing", modify
tabulatevariable, variable(rural_urban5) min(1) max(6)
file write tablecontent _n
file write tablecontent _n _n
file close tablecontent
/* Histogram of time to death */
twoway (histogram cox_time_d if sgtf==0, color(red%30)) ///
(histogram cox_time_d if sgtf==1, color(blue%30)), ///
legend(order(1 "non-VOC" 2 "VOC" ))
graph export ./output/time_death_hist.svg, as(svg) replace
/* Histogram of date of death */
twoway (histogram died_date_ons if sgtf==0, color(red%30)) ///
(histogram died_date_ons if cox_death==1 & sgtf==0, color(blue%30)), ///
legend(order(1 "non-VOC" 2 "VOC" ))
graph export ./output/time_date_death_hist.svg, as(svg) replace
twoway (histogram died_date_ons if sgtf==1, color(red%30)) ///
(histogram died_date_ons if cox_death==1 & sgtf==1, color(blue%30)), ///
legend(order(1 "non-VOC" 2 "VOC" ))
graph export ./output/time_date_death_hist1.svg, as(svg) replace
/* Histogram of date of hospital and icu admission dates */
histogram covid_admission_date, color(red%30)
graph export ./output/hosp_hist.svg, as(svg) replace
twoway kdensity covid_admission_date if start_week==1 || ///
kdensity covid_admission_date if start_week==2 || ///
kdensity covid_admission_date if start_week==3 || ///
kdensity covid_admission_date if start_week==4 || ///
kdensity covid_admission_date if start_week==5 || ///
kdensity covid_admission_date if start_week==6 || ///
kdensity covid_admission_date if start_week==7 || ///
kdensity covid_admission_date if start_week==8, legend(off) xlabel(,format(%td))
graph export ./output/hosp_kden.svg, as(svg) replace
histogram icu_admission_date, color(red%30)
graph export ./output/icu_hist.svg, as(svg) replace
* Close log file
log close
clear
insheet using ./output/table1_cox.txt, clear
export excel using ./output/table1_cox.xlsx, replace