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Program 1.sas
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/* Generated Code (IMPORT) */
/* Source File: cardio.csv */
/* Source Path: /home/u62330021/SAS PROJECT BSTA661 */
/* Code generated on: 9/19/22, 5:09 PM */
%web_drop_table(CVD);
options validvarname=v7;
FILENAME REFFILE '/home/u62330021/SAS PROJECT BSTA661/cardio.csv';
PROC IMPORT DATAFILE=REFFILE
DBMS=CSV
OUT=CVD;
GETNAMES=YES;
*replace;
delimiter=';'; *important step, the file is delimited using ;
RUN;
PROC CONTENTS DATA=CVD;
RUN;
%web_open_table(CVD);
*frequency/;
PROC FREQ data = CVD;
weight CARDIO_DISEASE;
tables HEIGHT*CARDIO_DISEASE;
run;
*histogram;
proc sgplot data=CVD;
histogram glucose/ group = gender transparency=0.5;
run;
*recode into categories ;
DATA CVD2;
SET CVD;
*HEIGHT = .;
IF (HEIGHT <= 94) THEN HEIGHT = 1;
IF (HEIGHT > 94 AND HEIGHT <= 133) THEN HEIGHT = 2;
IF (HEIGHT > 133 AND HEIGHT <= 172) THEN HEIGHT = 3;
IF (HEIGHT > 172 AND HEIGHT <= 211) THEN HEIGHT = 4;
IF (HEIGHT > 211 AND HEIGHT <= 250) THEN HEIGHT = 5;
RUN;
PROC FREQ DATA = CVD2;
tables HEIGHT*CARDIO_DISEASE;
RUN;
*10 categories USE THIS ONE 10/3;
*RECORD VARAIBLES INTOCATEGORIES: BMI FROM WEIGHT
HEIGHT AND SBP/DBP AND AGE;
* make a format for BP and BMI variable;
proc format ;
value BP
1 = "Normal"
2 = "Elevated"
3 = "High Blood Pressure (Hypertension STG 1)"
4 = "High Blood Pressure (Hypertension STG 2)"
5 = "Hypertensive Crisis" ;
value BMI
0 = "Underweight"
1 = "Normal"
2 = "Overweight"
3 = "Obese Range";
VALUE CVD
0 = "No"
1 = "Yes" ;
VALUE AGE
1 = "<30"
2 = "30-37"
3 = "37-44"
4 = "44-51"
5 = "51-58"
6 = "58-65";
RUN;
DATA CVD3;
SET CVD ;
drop AP_HIGH AP_LOW;
format BP BP.;
format BMI BMI.;
format CVD CVD. ;
*format AGE AGE. ;
*HEIGHT = .;
*height in meters;
H2_cm = HEIGHT; *squared height in CM;
HiM = H2_cm / 100; *converting from cm to m;
BMI = ((WEIGHT)/(((HiM * HiM)))) ; *converting weight and height to BMI;
*SYSTOLE BP;
SBP = AP_HIGH;
DBP = AP_LOW ;
*BP = CAT(SBP/DBP);
BP=.;
CVD = CARDIO_DISEASE;
*SBP/DBP;
*TALK ABOUT SBP/DBP RECODE LIMITATION IN CAT 4 AND 5;
IF (SBP < 120) AND (DBP < 80) THEN BP = 1;
IF (120 =< SBP <= 129) AND (DBP < 80) THEN BP = 2;
IF (130 <= SBP <= 139) OR (80 <= DBP <= 89) THEN BP = 3;
IF (SBP => 140) OR (DBP => 90) THEN BP = 4;
IF (SBP > 180) OR (DBP > 120) THEN BP = 5;
IF (BMI < 18.5) THEN BMI = 0;
IF (18.5 < BMI <= 24.9) THEN BMI = 1;
IF (24.9 < BMI <= 29.9) THEN BMI = 2;
IF (29.9 < BMI) THEN BMI = 3;
/*
IF (HEIGHT <= 74.5) THEN HEIGHT = 1;
IF (74.5 < HEIGHT <= 94) THEN HEIGHT = 2;
IF (94 < HEIGHT <= 113.5) THEN HEIGHT = 3;
IF (113.5 < HEIGHT <= 133) THEN HEIGHT = 4;
IF (133 < HEIGHT <= 152.5) THEN HEIGHT = 5;
IF (152.5 < HEIGHT <= 172) THEN HEIGHT = 6;
IF (172 < HEIGHT <= 191.5) THEN HEIGHT = 7;
IF (191.5 < HEIGHT <= 211) THEN HEIGHT = 8;
IF (211 < HEIGHT <= 230.5) THEN HEIGHT = 9;
IF (230.5 < HEIGHT <= 250) THEN HEIGHT = 10;
*/
IF (AGE <= 30) THEN AGE = 1;
IF (30 < AGE <= 37) THEN AGE = 2;
IF (37 < AGE <= 44) THEN AGE = 3;
IF (44 < AGE <= 51) THEN AGE = 4;
IF (51 < AGE <= 58) THEN AGE = 5;
IF (58 < AGE <= 65) THEN AGE = 6;
HH="Normal";
*IF (HEIGHT GE 180) THEN HH="Tall";
IF (GENDER = 1) AND (HEIGHT GE 176) THEN HH="Tall";
IF (GENDER = 2) AND (HEIGHT GE 185) THEN HH="Tall";
*For sake of argument, we take Tall to be 2sig from mean of avg height of data;
RUN;
*summary statistics for cvd3;
proc univariate data=CVD3;
*class gender cvd;
var height bmi sbp dbp age glucose cholesterol CVD;
run;
proc sgplot data = CVD3;
histogram BMI AGE;
run;
proc univariate data = CVD3;
*class gender;
var bmi bp sbp dbp age height weight;
histogram BMI sbp dbp age height weight/ kernal overlay/ nrows=5 odstitle="Height";
ods select histogram;
run;
* vars histogram;
proc univariate data = CVD3;
*class gender;
var bmi bp sbp dbp age height weight;
histogram BMI sbp dbp age height weight/ nrows=5 odstitle="Height";
ods select histogram;
run;
proc univariate data = CVD;
*class gender;
var age ;
histogram age / nrows=5 odstitle="Age";
ods select histogram;
run;
*summary statistics for cvd;
proc univariate data=CVD;
class gender;
var weight;
run;
proc univariate data=CVD;
class gender;
var height;
run;
proc univariate data=CVD;
class gender;
var age;
run;
proc univariate data=CVD;
var height ap_high ap_low age weight;
run;
proc iml;
use Sashelp.class;
summary class gender var height;
*use this for the analysis;
proc logistic descending data=CVD3 ;
class HEIGHT BP(REF="3") AGE BMI(REF= "Overweight") SMOKE(REF="0") ALCOHOL(REF = "0") PHYSICAL_ACTIVITY(REF="1");
model CVD(REF="No") = HEIGHT AGE BP BMI ALCOHOL SMOKE CHOLESTEROL PHYSICAL_ACTIVITY GLUCOSE GENDER/ selection = backward lackfit ;
run;
proc logistic descending data= CVD3 ;
class HH(REF="Normal") BP(REF="High Blood Pressure (Hypertension STG 1)") AGE BMI(REF= "Overweight") SMOKE(REF="0") ALCOHOL(REF = "0") PHYSICAL_ACTIVITY(REF="1") GENDER / param=ref;
freq count;
model CVD(REF="Yes") = HH AGE BP BMI ALCOHOL SMOKE CHOLESTEROL PHYSICAL_ACTIVITY GLUCOSE GENDER/ selection = backward lackfit ;
output out = prob PREDPROBS=I;
run;