Home » Topics » Nutrition and Anthropometry » Using igrowup SPSS syntax
Using igrowup SPSS syntax [message #17458] |
Fri, 22 March 2019 19:14 |
BLM
Messages: 3 Registered: March 2019
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Please help! I merged DHS PR and KR data and have been trying to get the prevalence for stunting, underweight, and wasting in children using the 2015-2016 Malawi data. I keep getting error whenever I run the igrowup syntax provided by WHO. Once ran, I do not get any data in the variables assessing stunting, wasting etc. What am I doing wrong? Please see the syntax below. Thank you!!!
set header on.
set printback=on length=None Width=132.
get file="C:\Users\Dr. Love\Desktop\ZPR_KIDS.sav".
title "ZPR_KIDS using WHO Child Growth Standards".
* Typical DHS Household variables.
compute casenum=$casenum.
compute weight2=hc2/10.
compute sex=hc27.
compute agemos=hc1.
compute length=hc3/10.
compute lorh=-99.
missing values lorh (-99).
* Note that although DHS has a variable (hc15) to measure lying or standing height(lorh).
* DHS regards it as unreliable, so we will use age, or else length, to determine this.
string oedema (A1).
Compute oedema='n'.
* delete the above if oedema is in dataset.
* oedema is not in DHS datasets as of this writing.
COMPUTE wgting = hv005/1000000.
COMMENT * using RENAME allows value labels to transfer.
RENAME VARIABLES (hv024=REGION).
RENAME VARIABLES (hv025=URBANR).
* .
missing values hc16 (98,99).
* if day of birth is missing, assumes the 15th.
if (missing(hc16)) hc16=15.
* compute days from day interviewed - day born.
compute agedays3=(yrmoda(hc19,hc18,hc17)-yrmoda(hc31,hc30,hc16)).
* if negative age, impute it from months old.
if((yrmoda(hc19,hc18,hc17)-yrmoda(hc31,hc30,hc16))<0) agedays3=agemos*30.4375.
* .
* if missing daysold, impute from months old.
if(missing(agedays3) )agedays3=agemos*30.4375.
* agedays3 will be used later to compute exact month cutoffs, and should not be rounded.
* .
compute agedays2=rnd(agedays3).
compute dateborn=(date.dmy(hc16,hc30,hc31)).
compute datevis=(date.dmy(hc17,hc18,hc19)).
formats dateborn, datevis(adate12).
* .
* HV103 is "slept last night at house" 1=yes.
* HV103 adjusts for orphans.
* hc13 is "reason not measured" 0=measured.
* .
select if hv103=1.
select if hc13=0.
* ================== Length & Height adjustments===========================.
* take what they call length or height and create one lenhei2 variable_____________________.
* lenhei2 is the proper length/height measurement adjusted for.
* set all lengths as ok and then change those that are not ok.
compute lenhei2=length.
compute uselngth=-99.
missing values uselngth (-99).
if (missing(lenhei2)) uselngth=-99.
* if standing under 2 or lying over 2.
if (lorh=2 and agedays2<731) lenhei2=length+.7.
if (lorh=1 and agedays2>=731) lenhei2=length-.7.
if (lorh=2 and agedays2<731)uselngth=1.
if (lorh=1 and agedays2>=731) uselngth=2.
if (lorh=1 and agedays2<731)uselngth=1.
if (lorh=2 and agedays2>=731) uselngth=2.
* if missing the recumbent indicator but have age, we assume they have it right.
if (missing(lorh) and agedays2<731) uselngth=1.
if (missing(lorh) and agedays2>=731) uselngth=2.
if (missing(lorh) and missing(agedays2) and agemos<24) uselngth=1.
if (missing(lorh) and missing(agedays2) and agemos>=24) uselngth=2.
if (missing(agedays2) and lorh=2) uselngth=2.
if (missing(agedays2) and lorh=1) uselngth=1.
* if age missing and indicator missing, use length of child to figure.
if (missing(agedays2) and missing(lorh) and length<87) uselngth=1.
if (missing(agedays2) and missing(lorh) and length>=87) uselngth=2.
* ========= check inputs and create outputs for dbf file ANTHRO check =======.
frequencies variables=sex, lorh.
descriptives variables=weight2, length, lenhei2,agedays2,agedays3,agemos /statistics=mean stddev min max.
* if not done already, need age in days to compare to norms.
*next 3 statements keep only what we need (+ bit more, 61 mo), sort, save, and drop unneeded vars.
select if (agedays2 < (61*30.4375) or missing(agedays2)).
*sort to get ready to match to haz norm chart.
sort cases by sex, agedays2.
xsave outfile="C:\Users\Dr. Love\Desktop\ZPR_KIDSNEW.sav"/keep casenum, hv001,hv002,hvidx, wgting, region,urbanr,
weight2,sex,agemos,length,lorh, oedema,
lenhei2,uselngth,agedays2,agedays3,dateborn,datevis, ha33.
execute.
* ============================ HAZ ==================================.
* lookup z formula for Height for Age using l, m, s variables.
MATCH FILES FILE="C:\Users\Dr. Love\Desktop\ZPR_KIDS.sav"
/table="C:\Users\Dr. Love\Desktop\ZPR_KIDSNEW\hazlms.sav" /by sex, agedays2.
execute.
compute zhaz=(((lenhei2/m)**l)-1)/(s*l).
xsave outfile="C:\Users\Dr. Love\Desktop\ZPR_KIDSNEW.sav" /drop = l,m,s.
execute.
* ============================= BMI Z ===================================.
* lookup z formula for BMI for Age using l, m, s variables.
MATCH FILES FILE="C:\Users\Dr. Love\Desktop\ZPR_KIDS.sav" /table="C:\Users\Dr. Love\Desktop\ZPR_KIDS\BMIlms.sav" /by sex, agedays2.
execute.
* make sure weight has been given right var name.
compute BMI= weight2*10000/(lenhei2*lenhei2).
compute zBMI=(((BMI/m)**l)-1)/(s*l).
compute sd3pos=m*((1+l*s*3)**(1/l)).
compute sd23pos=sd3pos- m*((1+l*s*2)**(1/l)).
if (zBMI>3) zBMI=3+((BMI-sd3pos)/sd23pos).
compute sd3neg=m*((1+l*s*(-3))**(1/l)).
compute sd23neg= m*((1+l*s*(-2))**(1/l))-sd3neg.
if (zBMI<-3) zBMI=(-3)-((sd3neg-BMI)/sd23neg).
if (oedema='y' or oedema='Y') zbmi=-4.44.
* this makes sure oedemas aren't put in the high or low prevalence categories.
* but are still counted for denominator.
* zbmi = -4.44 with oedema will be adjusted later.
xsave outfile="C:\Users\Dr. Love\Desktop\ZPR_KIDS.sav" /drop = l,m,s.
execute.
* ======================== WAZ =====================================.
* lookup z formula for Weight to Age using l, m, s variables.
sort cases by sex, agedays2.
MATCH FILES FILE="C:\Users\Dr. Love\Desktop\ZPR_KIDS.sav" /table="C:\Users\Dr. Love\Desktop\ZPR_KIDS\wazlms.sav" /by sex, agedays2.
execute.
compute zwaz=(((weight2/m)**l)-1)/(s*l).
compute sd3pos=m*((1+l*s*3)**(1/l)).
compute sd23pos=sd3pos- m*((1+l*s*2)**(1/l)).
if (zwaz>3) zwaz=3+((weight2-sd3pos)/sd23pos).
compute sd3neg=m*((1+l*s*(-3))**(1/l)).
compute sd23neg= m*((1+l*s*(-2))**(1/l))-sd3neg.
if (zwaz<-3) zwaz=(-3)-((sd3neg-weight2)/sd23neg).
if (oedema='y' or oedema='Y') zwaz=-4.44.
if (missing(agedays2) and (oedema='y' or oedema='Y') ) zwaz=-4.44.
* this allows oedemas to be be set at < -3 sd for prevalences.
* then set to missing later before calculating means.
* zwaz is set to missing later.
execute.
* =========================== WHZ using length ============================.
* ======== interpolate length =======.
* determine if length is of 2 decimals significance.
* since the LMS charts are only to one, such as 87 point 2.
* the interp variable =1 if we need to interpolate.
if(uselngth=1)length2=lenhei2.
compute interp=0.
if (abs(length2 - (rnd(length2*10))/10) >.001)interp=1.
* if it does then interpolate on lms table.
* first we will find the lower level on LMS chart.
DO IF interp=1.
compute lenlow=trunc(length2*10)/10.
ELSE IF interp=0.
compute lenlow=rnd(length2*10)/10.
* above makes double sure it will match lms chart.
END IF.
* next we will find the upper level on LMS chart.
DO IF interp=1.
compute lenhigh=rnd((length2+.05)*10)/10.
ELSE IF interp=0.
compute lenhigh=rnd(length2*10)/10.
END IF.
* we will be doing many calculations with length2 .
* so we will remember the original values here.
compute length9=length2.
* next we will get the LMS numbers for lenlow and lenhigh.
* ===============lenlow LMS calculations============.
compute length2=lenlow.
sort cases by sex, length2.
xsave outfile="C:\Users\Dr. Love\Desktop\ZPR_KIDS.sav" /drop = l,m,s.
execute.
* lookup z formula for Weight for Length using l, m, s variables.
MATCH FILES FILE="C:\Users\Dr. Love\Desktop\ZPR_KIDS.sav" /table="C:\Users\Dr. Love\Desktop\ZPR_KIDS\wfllms.sav" /by sex, length2.
execute.
* do the lengths--> zscore for lenlow where ll=lenlow.
compute zwhzll=(((weight2/m)**l)-1)/(s*l).
compute sd3pos=m*((1+l*s*3)**(1/l)).
compute sd23pos=sd3pos- m*((1+l*s*2)**(1/l)).
if (zwhzll>3) zwhzll=3+((weight2-sd3pos)/sd23pos).
compute sd3neg=m*((1+l*s*(-3))**(1/l)).
compute sd23neg= m*((1+l*s*(-2))**(1/l))-sd3neg.
if (zwhzll<-3) zwhzll=-3-((sd3neg-weight2)/sd23neg).
execute.
* ===============lenhigh LMS calculations============.
compute length2=lenhigh.
sort cases by sex, length2.
xsave outfile="C:\Users\Dr. Love\Desktop\ZPR_KIDS.sav" /drop = l,m,s.
execute.
* lookup z formula for Weight for Length using l, m, s variables.
MATCH FILES FILE="C:\Users\Dr. Love\Desktop\ZPR_KIDS\tempx.sav" /table="C:\Users\Dr. Love\Desktop\ZPR_KIDS\wfllms.sav" /by sex, length2.
execute.
* do the lengths--> zscore for lenhigh where lh=lenhigh.
compute zwhzlh=(((weight2/m)**l)-1)/(s*l).
compute sd3pos=m*((1+l*s*3)**(1/l)).
compute sd23pos=sd3pos- m*((1+l*s*2)**(1/l)).
if (zwhzlh>3) zwhzlh=3+((weight2-sd3pos)/sd23pos).
compute sd3neg=m*((1+l*s*(-3))**(1/l)).
compute sd23neg= m*((1+l*s*(-2))**(1/l))-sd3neg.
if (zwhzlh<-3) zwhzlh=-3-((sd3neg-weight2)/sd23neg).
* =========== calculations for height used =====.
* use criteria for when height used, height2 is height properly measured.
if (uselngth=2) height2=lenhei2.
* we will be doing many calculations with height2 .
* so we will remember the original value here.
compute height9=height2.
* determine if height is of 2 decimals significance.
* since the LMS charts are only to one, such as 87 point 2.
* the interph variable =1 if we need to interpolate.
compute interph=0.
.
if (abs(height2 - (rnd(height2*10))/10) >.001)interph=1.
* if it does then interpolate on lms table.
* first we will find the lower level on LMS chart.
DO IF interph=1.
compute hgtlow=trunc(height2*10)/10.
ELSE IF interph=0.
compute hgtlow=rnd(height2*10)/10.
END IF.
* next we will find the upper level on LMS chart.
DO IF interph=1.
compute hgthigh=rnd((height2+.05)*10)/10.
ELSE IF interph=0.
compute hgthigh=rnd(height2*10)/10.
END IF.
* ===================WHZ using hgtlow ===================.
compute height2=hgtlow.
sort cases by sex, height2.
xsave outfile="C:\Users\Dr. Love\Desktop\ZPR_KIDS\tempxx.sav" /drop = l,m,s.
execute.
* lookup z formula for Weight for Height using l, m, s variables.
MATCH FILES FILE="C:\Users\Dr. Love\Desktop\ZPR_KIDS\tempxx.sav" /table="C:\Users\Dr. Love\Desktop\ZPR_KIDS\wfhlms.sav" /by sex, height2.
execute.
* do the heights where hl=hgtlow.
if (height2>0) zwhzhl=(((weight2/m)**l)-1)/(s*l).
if (height2>0) sd3pos=m*((1+l*s*3)**(1/l)).
if (height2>0) sd23pos=sd3pos- m*((1+l*s*2)**(1/l)).
if (height2>0 and zwhzhl>3) zwhzhl=3+((weight2-sd3pos)/sd23pos).
if (height2>0) sd3neg=m*((1+l*s*(-3))**(1/l)).
if (height2>0) sd23neg= m*((1+l*s*(-2))**(1/l))-sd3neg.
if (height2>0 and zwhzhl<-3) zwhzhl=(-3)-((sd3neg-weight2)/sd23neg).
* ===================WHZ using hgthigh ===================.
compute height2=hgthigh.
sort cases by sex, height2.
xsave outfile="C:\Users\Dr. Love\Desktop\ZPR_KIDS\tempx.sav" /drop = l,m,s.
execute.
* lookup z formula for Weight for Height using l, m, s variables.
MATCH FILES FILE="C:\Users\Dr. Love\Desktop\ZPR_KIDS\tempx.sav" /table="C:\Users\Dr. Love\Desktop\ZPR_KIDS\wfhlms.sav" /by sex, height2.
execute.
* do the heights where hh=hgthigh.
if (height2>0) zwhzhh=(((weight2/m)**l)-1)/(s*l).
if (height2>0) sd3pos=m*((1+l*s*3)**(1/l)).
if (height2>0) sd23pos=sd3pos- m*((1+l*s*2)**(1/l)).
if (height2>0 and zwhzhh>3) zwhzhh=3+((weight2-sd3pos)/sd23pos).
if (height2>0) sd3neg=m*((1+l*s*(-3))**(1/l)).
if (height2>0) sd23neg= m*((1+l*s*(-2))**(1/l))-sd3neg.
if (height2>0 and zwhzhh<-3) zwhzhh=(-3)-((sd3neg-weight2)/sd23neg).
* =====now do interpolation and choose length or height =====.
* length9 is somewhere between lenlow and lenhigh.
* find the ratios with #s like 52,20 52,26 and 52,30.
compute abovel=length9-lenlow.
compute ratiol=abovel/.1.
* note that the greater the length, the less the z.
compute zwhz= zwhzll-((zwhzll-zwhzlh)*ratiol).
* now for height.
* height is defined only if uselngth=2 and.
* will replace the length calculations if defined.
compute aboveh=height9-hgtlow.
compute ratioh=aboveh/.1.
* note that the greater the height,the less the z.
if (uselngth=2) zwhz= zwhzhl-((zwhzhl-zwhzhh)*ratioh).
if (oedema='y' or oedema='Y') zwhz=-4.44.
xsave outfile="C:\Users\Dr. Love\Desktop\ZPR_KIDS\tempxx.sav" /drop = l,m,s.
execute.
* ================ convert Z scores to 2 decimals =====================.
compute zwhz=(rnd(zwhz*100))/100.
compute zhaz=(rnd(zhaz*100))/100.
compute zwaz=(rnd(zwaz*100))/100.
compute zbmi=(rnd(zbmi*100))/100.
* ======================== Flags for missing values ====================.
compute whzflag=0.
compute hazflag=0.
compute wazflag=0.
compute bmiflag=0.
compute whznoage=0.
if (zwhz < -5 or zwhz >5 ) whzflag =1.
if (zhaz < -6 or zhaz >6 ) hazflag =1.
if (zwaz < -6 or zwaz >5 ) wazflag =1.
if (zbmi < -5 or zbmi >5) bmiflag=1.
if ((zwhz < -5 or zwhz >5) and (zhaz < -6 or zhaz >6 )) flag4 =1.
if ((zwhz < -5 or zwhz >5 ) and (zwaz < -6 or zwaz >5 )) flag5 =1.
if ((zhaz < -6 or zhaz >6 ) and (zwaz < -6 or zwaz >5 )) flag6 =1.
if ((zwhz < -5 or zwhz >5) and (zhaz < -6 or zhaz >6 ) and (zwaz < -6 or zwaz >5 ) ) flag7 =1.
if ((bmiflag=1) and (whzflag=0) and (hazflag=0) and (wazflag=0)) flag8=1.
* no BMI flags set as 1-7.
if (zwhz < -5 or zwhz >5 ) flagnew =1.
if (zhaz < -6 or zhaz >6 ) flagnew =2.
if (zwaz < -6 or zwaz >5 ) flagnew =3.
if ((zwhz < -5 or zwhz >5) and (zhaz < -6 or zhaz >6 )) flagnew =4.
if ((zwhz < -5 or zwhz >5 ) and (zwaz < -6 or zwaz >5 )) flagnew =5.
if ((zhaz < -6 or zhaz >6 ) and (zwaz < -6 or zwaz >5 )) flagnew =6.
if ((zwhz < -5 or zwhz >5) and (zhaz < -6 or zhaz >6 ) and (zwaz < -6 or zwaz >5 ) ) flagnew =7.
if ((bmiflag=1) and (whzflag=0) and (hazflag=0) and (wazflag=0)) flagnew=8.
* ==================declare flagged values missing=========================.
if (zwhz < -5 or zwhz >5 ) zwhz =999.99.
if (zhaz < -6 or zhaz >6 ) zhaz =999.99.
if (zwaz < -6 or zwaz >5 ) zwaz =999.99.
if (zbmi < -5 or zbmi >5) zbmi=999.99.
MISSING VALUES zwhz,zhaz,zwaz,zbmi (999.99).
* we copy the zscores to oedema copies for special oedema adjustments later.
compute oedzbmi=zbmi.
compute oedzwhz=zwhz.
compute oedzwaz=zwaz.
Missing values oedzwhz,oedzwaz,oedzbmi (999.99).
* we want to see how many valid whz scores are there with no age.
if(missing(agedays2) and (zwhz >=-5 and zwhz <=5)) whznoage=1.
* count flags.
* ============================================================ ===========.
WEIGHT BY wgting.
* we convert these to standard DHS variables.
compute hcw5=zhaz*100.
compute hcw8=zwaz*100.
compute hcw11=zwhz*100.
compute hbmi=zbmi*100.
* putting children back in categories, if we are initially given months only, use months here.
* if given daysold or calculating from day month of birth, then use agedays2 calculation below.
* compute hcw1=agemos.
compute hcw1=trunc((agedays3/30.4375)).
if (missing(hcw1) and missing(agemos)) whznoage=1.
frequencies variables=whzflag,hazflag,wazflag,flag4,flag5,flag6,flag7,fl ag8,bmiflag,flagnew,whznoage.
* inlcude the next select if only if you need to have make sure all kids have ages <60 mo.
* select if (hcw1<60).
* include next 2 lines if all z score values must be present for each counted child.
* count hwmissed=hcw1,hcw5,hcw8,hcw11(missing).
* select if (hcwmissed eq 0).
IF (hcw11 > 100) whplus1 = 1.
IF (hcw11 <= 100) whplus1= 2 .
IF (hcw11 > 200) whplus2 = 1.
IF (hcw11 <= 200) whplus2= 2 .
IF (hcw11 > 300) whplus3 = 1.
IF (hcw11 <= 300) whplus3= 2 .
IF (hcw11 < -200) whmin2 = 1 .
IF (hcw11 >= -200) whmin2 = 2 .
IF (hcw11 < -300) whmin3 = 1 .
IF (hcw11 >=-300) whmin3 = 2 .
IF (hbmi < -200) bmimin2 = 1 .
IF (hbmi >= -200) bmimin2 = 2 .
IF (hbmi < -300) bmimin3 = 1 .
IF (hbmi >=-300) bmimin3 = 2 .
IF (hbmi > 100) bmiplus1 = 1 .
IF (hbmi <= 100) bmiplus1 = 2 .
IF (hbmi > 200) bmiplus2 = 1 .
IF (hbmi <= 200) bmiplus2 = 2 .
IF (hbmi > 300) bmiplus3 = 1 .
IF (hbmi <=300) bmiplus3 = 2 .
IF (hcw5 < -200) hamin2 = 1 .
IF (hcw5 >= -200) hamin2 = 2 .
IF (hcw5 < -300) hamin3 = 1 .
IF (hcw5 >=-300) hamin3 = 2 .
IF (hcw8 < -200) wamin2 = 1 .
IF (hcw8 >= -200) wamin2 = 2 .
IF (hcw8 < -300) wamin3 = 1 .
IF (hcw8 >=-300) wamin3 = 2 .
*Now that prevalences are done, we declare oedema z's of -4.44 as missing.
*get rid of zbmi=-4.44 with oedema so it is not calculated in mean zbmi.
*so we can use these z variables for means, & the oedz's for prevalences & N.
If (zbmi=-4.44 and (oedema='y' or oedema='Y'))zbmi=888.
If (zwhz=-4.44 and (oedema='y' or oedema='Y'))zwhz=888.
If (zwaz=-4.44 and (oedema='y' or oedema='Y'))zwaz=888.
MISSING VALUES zbmi (999.99, 888).
MISSING VALUES zwhz,zwaz (999.99, 888).
IF (whznoage=1) ageclass=0.
IF (hcw1 >= 0 and hcw1 <6) ageclass = 1 .
IF (hcw1 >= 6 and hcw1 <12) ageclass = 2 .
IF (hcw1 >= 12 and hcw1 <24) ageclass = 3 .
IF (hcw1 >= 24 and hcw1 <36) ageclass = 4 .
IF (hcw1 >=36 and hcw1 <48) ageclass = 5 .
IF (hcw1 >=48 and hcw1 <60) ageclass = 6 .
compute wthtsd=zwhz.
compute htagesd=zhaz.
compute wtagesd=zwaz.
compute bmisd=zbmi.
VARIABLE LABELS
whmin2 "wt/ht -2SD"
/whmin3 "wt/ht -3SD"
/whplus1 "wt/ht +1SD"
/whplus2 "wt/ht +2SD"
/whplus3 "wt/ht +3SD"
/hamin2 "ht/age -2SD"
/hamin3 "ht/age -3SD"
/wamin2 "wt/age -2SD"
/wamin3 "wt/age -3SD"
/bmimin2 "bmi/age -2SD"
/bmimin3 "bmi/age -3SD"
/bmiplus1 "bmi/age +1SD"
/bmiplus2 "bmi/age +2SD"
/bmiplus3 "bmi/age +3SD"
/bmisd "bmi/age SD"
/ wthtsd "wt/ht SD"
/ htagesd "ht/age SD"
/ wtagesd "wt/age SD".
VALUE LABELS sex 1 "male" 2 "female"
/whmin3 1 "less 3SD" 2 "OK"
/whmin2 1 "less 2SD" 2 "OK"
/hamin2 1 "less 2SD" 2 "OK"
/hamin3 1 "less 3SD" 2 "OK"
/wamin2 1 "less 2SD" 2 "OK"
/wamin3 1 "less 3SD" 2 "OK"
/whplus1 1 "gtr 1SD" 2 "OK"
/whplus2 1 "gtr 2SD" 2 "OK"
/whplus3 1 "gtr 3SD" 2 "OK"
/bmimin2 1 "less 2SD" 2 "OK"
/bmimin3 1 "less 3SD" 2 "OK"
/bmiplus1 1 "gtr 1SD" 2 "OK"
/bmiplus2 1 "gtr 2SD" 2 "OK"
/bmiplus3 1 "gtr 3SD" 2 "OK"
/ageclass 0 "no age" 1 "0-5 mo." 2 "6-11 mo." 3 "12-23 mo."
4 "24-35 mo." 5 "36-47 mo." 6 "48-59 mo." 7 "60-71 mo."
8 "72-83 mo." 9 "84-95 mo." 10 "96-107 mo."
11 "108-119 mo." 12 "120-131 mo.".
CROSSTABS
/TABLES=ageclass by wamin3,wamin2,hamin3,hamin2,whmin3,whmin2,whplus1,whplus2,wh plus3,bmimin3,bmimin2,bmiplus1,bmiplus2,bmiplus3
/ageclass by wamin3,wamin2,hamin3,hamin2,whmin3,whmin2,whplus1,whplus2,wh plus3,bmimin3,bmimin2,bmiplus1,bmiplus2,bmiplus3 by sex
/region,urbanr by wamin3,wamin2,hamin3,hamin2,whmin3,whmin2,whplus1,whplus2,wh plus3,bmimin3,bmimin2,bmiplus1,bmiplus2,bmiplus3
/FORMAT= AVALUE NOINDEX BOX LABELS TABLES
/CELLS= COUNT ROW .
MEANS
Tables= wtagesd, htagesd, wthtsd, bmisd by sex by ageclass
/tables= wtagesd, htagesd, wthtsd, bmisd by ageclass
/tables= wtagesd, htagesd, wthtsd, bmisd by region,urbanr.
set header off.
*We now will do prevalences using cutoff scores, which may.
*give slightly different %'s than crosstabs above due to .
*the way SPSS rounds to the nearest whole N on weighted crosstabs.
select if (sex=1 or sex=2).
SET Printback=Off Length=None Width=132.
* select if (ageclass>0).
* ================== weight/age tables ====================================.
SORT CASES BY ageclass (A) .
Temporary.
Select if (ageclass >0).
Report
/FORMAT= CHWRAP(ON) BRKSPACE(-1) SUMSPACE(0) AUTOMATIC
PREVIEW(OFF) CHALIGN(BOTTOM) CHDSPACE(0)
UNDERSCORE(ON) ONEBREAKCOL(OFF)
PAGE(1) MISSING'.' LENGTH(1, 99999)ALIGN(LEFT) TSPACE(0) FTSPACE(0)
MARGINS(1,61)
/TITLE=
LEFT 'ZPR_KIDS using WHO Child Growth Standards'
/VARIABLES
oedzwaz 'wt/ageSD' 'N' (RIGHT) (OFFSET(0)) (8)
$dummy01 (DUMMY) 'wt/ageSD' '< -3' (RIGHT) (OFFSET(0)) (8)
$dummy02 (DUMMY) 'wt/ageSD' '< -2' (RIGHT) (OFFSET(0)) (8)
wtagesd 'wt/ageSD' 'Mean' (RIGHT) (OFFSET(0)) (8)
$dummy03 (DUMMY) 'wt/ageSD' 'StdDev' (RIGHT) (OFFSET(0)) (8)
/BREAK (TOTAL)
/SUMMARY VALIDN(oedzwaz) ADD( PLT(-3)(oedzwaz)) ($dummy01(PCT)(1)) ADD(
PLT(-2)(oedzwaz)) ($dummy02(PCT)(1)) MEAN(wtagesd) ADD(STDDEV(wtagesd))
($dummy03(F)(2)) 'Grand Total' (1)
/BREAK ageclass (LABELS) (LEFT) (OFFSET(0)) (SKIP(0))(11)
/SUMMARY VALIDN(oedzwaz) SKIP(0) ADD( PLT(-3)(oedzwaz))
($dummy01(PCT)(1)) ADD( PLT(-2)(oedzwaz)) ($dummy02(PCT)(1))
MEAN(wtagesd) ADD(STDDEV(wtagesd)) ($dummy03(F)(2)).
SORT CASES BY sex (A) ageclass (A) .
* ====================.
Temporary.
Select if (ageclass > 0).
Report
/FORMAT= CHWRAP(ON) BRKSPACE(-1) SUMSPACE(0) AUTOMATIC
PREVIEW(OFF) CHALIGN(BOTTOM) CHDSPACE(0)
UNDERSCORE(ON) ONEBREAKCOL(OFF)
PAGE(1) MISSING'.' LENGTH(1, 99999)ALIGN(LEFT) TSPACE(0) FTSPACE(0)
MARGINS(1,71)
/TITLE=
LEFT 'ZPR_KID using WHO Child Growth Standards'
/VARIABLES
oedzwaz 'wt/ageSD' 'N' (RIGHT) (OFFSET(0)) (8)
$dummy01 (DUMMY) 'wt/ageSD' '< -3' (RIGHT) (OFFSET(0)) (8)
$dummy02 (DUMMY) 'wt/ageSD' '< -2' (RIGHT) (OFFSET(0)) (8)
wtagesd 'wt/age SD' 'Mean' (RIGHT) (OFFSET(0)) (8)
$dummy03 (DUMMY) 'wt/ageSD' 'StdDev' (RIGHT) (OFFSET(0)) (8)
/BREAK sex (LABELS) (LEFT) (OFFSET(0)) (SKIP(1))(8)
/SUMMARY VALIDN(oedzwaz) SKIP(1) ADD( PLT(-3)(oedzwaz))
($dummy01(PCT)(1)) ADD( PLT(-2)(oedzwaz)) ($dummy02(PCT)(1))
MEAN(wtagesd) ADD(STDDEV(wtagesd)) ($dummy03(F)(2)) 'Subtotal sex' (1)
/BREAK ageclass (LABELS) (LEFT) (OFFSET(0)) (SKIP(0))(11)
/SUMMARY VALIDN(oedzwaz) SKIP(0) ADD( PLT(-3)(oedzwaz))
($dummy01(PCT)(1)) ADD( PLT(-2)(oedzwaz)) ($dummy02(PCT)(1))
MEAN(wtagesd) ADD(STDDEV(wtagesd)) ($dummy03(F)(2)).
* ================== height/age tables =================================.
SORT CASES BY ageclass (A) .
Temporary.
Select if (ageclass > 0).
Report
/FORMAT= CHWRAP(ON) BRKSPACE(-1) SUMSPACE(0) AUTOMATIC
PREVIEW(OFF) CHALIGN(BOTTOM) CHDSPACE(1)
UNDERSCORE(ON) ONEBREAKCOL(OFF)
PAGE(1) MISSING'.' LENGTH(1, 99999)ALIGN(LEFT) TSPACE(0) FTSPACE(0)
MARGINS(1,61)
/TITLE= LEFT 'ZPR_KID using WHO Child Growth Standards'
/VARIABLES
htagesd 'ht/ageSD' 'N' (RIGHT) (OFFSET(0)) (8)
$dummy01 (DUMMY) 'ht/ageSD' '< -3' (RIGHT) (OFFSET(0)) (8)
$dummy02 (DUMMY) 'ht/ageSD' '< -2' (RIGHT) (OFFSET(0)) (8)
$dummy03 (DUMMY) 'ht/ageSD' 'Mean' (RIGHT) (OFFSET(0)) (8)
$dummy04 (DUMMY) 'ht/ageSD' 'StdDev' (RIGHT) (OFFSET(0)) (8)
/BREAK (TOTAL)
/SUMMARY VALIDN(htagesd) ADD( PLT(-3)(htagesd)) ($dummy01(PCT)(1)) ADD(
PLT(-2)(htagesd)) ($dummy02(PCT)(1)) ADD(MEAN(htagesd)) ($dummy03(F)(2))
ADD(STDDEV(htagesd)) ($dummy04(F)(2)) 'Grand Total' (1)
/BREAK ageclass (LABELS) (LEFT) (OFFSET(0)) (SKIP(0))(11)
/SUMMARY VALIDN(htagesd) SKIP(0) ADD( PLT(-3)(htagesd)) ($dummy01(PCT)
(1)) ADD( PLT(-2)(htagesd)) ($dummy02(PCT)(1)) ADD(MEAN(htagesd)) ($dummy03
(F)(2)) ADD(STDDEV(htagesd)) ($dummy04(F)(2)).
SORT CASES BY sex (A) ageclass (A) .
Temporary.
Select if (ageclass >0).
* =============.
Report
/FORMAT= CHWRAP(ON) BRKSPACE(-1) SUMSPACE(0) AUTOMATIC
PREVIEW(OFF) CHALIGN(BOTTOM) CHDSPACE(1)
UNDERSCORE(ON) ONEBREAKCOL(ON) INDENT(2)
PAGE(1) MISSING'.' LENGTH(1, 99999)ALIGN(LEFT) TSPACE(0) FTSPACE(0)
MARGINS(1,63) /TITLE= LEFT 'ZPR_KID using WHO Child Growth Standards' /VARIABLES
htagesd 'ht/ageSD' 'N' (RIGHT) (OFFSET(0)) (8)
$dummy01 (DUMMY) 'ht/ageSD' '< -3' (RIGHT) (OFFSET(0)) (8)
$dummy02 (DUMMY) 'ht/ageSD' '< -2' (RIGHT) (OFFSET(0)) (8)
$dummy03 (DUMMY) 'ht/ageSD' 'Mean' (RIGHT) (OFFSET(0)) (8)
$dummy04 (DUMMY) 'ht/ageSD' 'StdDev' (RIGHT) (OFFSET(0)) (8)
/BREAK sex (LABELS) (LEFT) (OFFSET(0)) (SKIP(1))(13)
/SUMMARY VALIDN(htagesd) SKIP(1) ADD( PLT(-3)(htagesd)) ($dummy01(PCT)(1
)) ADD( PLT(-2)(htagesd)) ($dummy02(PCT)(1)) ADD(MEAN(htagesd)) ($dummy03(F
)(2)) ADD(STDDEV(htagesd)) ($dummy04(F)(2)) 'Subtotal sex' (1)
/BREAK ageclass (LABELS) (LEFT) (OFFSET(0)) (SKIP(0))
/SUMMARY VALIDN(htagesd) SKIP(0) ADD( PLT(-3)(htagesd)) ($dummy01(PCT)
(1)) ADD( PLT(-2)(htagesd)) ($dummy02(PCT)(1)) ADD(MEAN(htagesd)) ($dummy03
(F)(2)) ADD(STDDEV(htagesd)) ($dummy04(F)(2)).
* ================== weight/height tables =================================.
SORT CASES BY ageclass (A) .
Temporary.
Select if (ageclass >= 0).
Report
/FORMAT= CHWRAP(ON) BRKSPACE(-1) SUMSPACE(0) AUTOMATIC
PREVIEW(OFF) CHALIGN(BOTTOM) CHDSPACE(1)
UNDERSCORE(ON) ONEBREAKCOL(OFF)
PAGE(1) MISSING'.' LENGTH(1, 99999)ALIGN(LEFT) TSPACE(0) FTSPACE(0)
MARGINS(1,91)
/TITLE=
LEFT 'ZPR_KID using WHO Child Growth Standards'
/VARIABLES
oedzwhz 'wt/ht SD' 'N' (RIGHT) (OFFSET(0)) (8)
$dummy01 (DUMMY) 'wt/ht SD' '< -3' (RIGHT) (OFFSET(0)) (8)
$dummy02 (DUMMY) 'wt/ht SD' '< -2' (RIGHT) (OFFSET(0)) (8)
$dummy03 (DUMMY) 'wt/ht SD' '> +1' (RIGHT) (OFFSET(0)) (8)
$dummy04 (DUMMY) 'wt/ht SD' '> +2' (RIGHT) (OFFSET(0)) (8)
$dummy05 (DUMMY) 'wt/ht SD' '> +3' (RIGHT) (OFFSET(0))(8)
wthtsd 'wt/ht SD' 'Mean' (RIGHT) (OFFSET(0)) (8)
$dummy06 (DUMMY) 'wt/ht SD' 'StdDev' (RIGHT) (OFFSET(0)) (8)
/BREAK (TOTAL)
/SUMMARY VALIDN(oedzwhz) ADD( PLT(-3)(oedzwhz)) ($dummy01(PCT)(1)) ADD(
PLT(-2)(oedzwhz)) ($dummy02(PCT)(1)) ADD( PGT(+1)(oedzwhz))
($dummy03(PCT)(1)) ADD( PGT(+2)(oedzwhz)) ($dummy04(PCT)(1)) ADD( PGT(
+3)(oedzwhz)) ($dummy05(PCT)(1)) MEAN(wthtsd) ADD(STDDEV(wthtsd))
($dummy06(F)(2)) 'Grand Total' (1)
/BREAK ageclass (LABELS) (LEFT) (OFFSET(0))(SKIP(0))(11)
/SUMMARY VALIDN(oedzwhz) SKIP(0) ADD( PLT(-3)(oedzwhz))
($dummy01(PCT)(1)) ADD( PLT(-2)(oedzwhz)) ($dummy02(PCT)(1)) ADD( PGT(
+1)(oedzwhz)) ($dummy03(PCT)(1)) ADD( PGT(+2)(oedzwhz)) ($dummy04(PCT)(1))
ADD( PGT(+3)(oedzwhz)) ($dummy05(PCT)(1)) MEAN(wthtsd)
ADD(STDDEV(wthtsd)) ($dummy06(F)(2)).
* .
SORT CASES BY sex (A) ageclass (A) .
Temporary.
Select if (ageclass >= 0).
Report
/FORMAT= CHWRAP(ON) BRKSPACE(-1) SUMSPACE(0) AUTOMATIC
PREVIEW(OFF) CHALIGN(BOTTOM) CHDSPACE(0)
UNDERSCORE(ON) ONEBREAKCOL(OFF)
PAGE(1) MISSING'.' LENGTH(1, 99999)ALIGN(LEFT) TSPACE(0) FTSPACE(0)
MARGINS(1,101)
/TITLE=
LEFT 'ZPR_KID using WHO Child Growth Standards'
/VARIABLES
oedzwhz 'wt/ht SD' 'N' (RIGHT) (OFFSET(0)) (8)
$dummy01 (DUMMY) 'wt/ht SD' '< -3' (RIGHT) (OFFSET(0)) (8)
$dummy02 (DUMMY) 'wt/ht SD' '< -2' (RIGHT) (OFFSET(0)) (8)
$dummy03 (DUMMY) 'wt/ht SD' '> +1' (RIGHT) (OFFSET(0)) (8)
$dummy04 (DUMMY) 'wt/ht SD' '> +2' (RIGHT) (OFFSET(0)) (8)
$dummy05 (DUMMY) 'wt/ht SD' '> +3' (RIGHT) (OFFSET(0)) (8)
wthtsd 'wt/ht SD' 'Mean' (RIGHT) (OFFSET(0)) (8)
$dummy06 (DUMMY) 'wt/ht SD' 'StdDev' (RIGHT) (OFFSET(0)) (8)
/BREAK sex (LABELS) (LEFT) (OFFSET(0)) (SKIP(1))(8)
/SUMMARY VALIDN(oedzwhz) SKIP(1) ADD( PLT(-3)(oedzwhz))
($dummy01(PCT)(1)) ADD( PLT(-2)(oedzwhz)) ($dummy02(PCT)(1)) ADD( PGT(
+1)(oedzwhz)) ($dummy03(PCT)(1)) ADD( PGT(+2)(oedzwhz)) ($dummy04(PCT)(1))
ADD( PGT(+3)(oedzwhz)) ($dummy05(PCT)(1)) MEAN(wthtsd)
ADD(STDDEV(wthtsd)) ($dummy06(F)(2)) 'Subtotal sex' (1)
/BREAK ageclass (LABELS) (LEFT) (OFFSET(0)) (SKIP(0))(11)
/SUMMARY VALIDN(oedzwhz) SKIP(0) ADD( PLT(-3)(oedzwhz))
($dummy01(PCT)(1)) ADD( PLT(-2)(oedzwhz)) ($dummy02(PCT)(1)) ADD( PGT(
+1)(oedzwhz)) ($dummy03(PCT)(1)) ADD( PGT(+2)(oedzwhz)) ($dummy04(PCT)(1))
ADD( PGT(+3)(oedzwhz)) ($dummy05(PCT)(1)) MEAN(wthtsd)
ADD(STDDEV(wthtsd)) ($dummy06(F)(2)).
* ========================= BMI/age tables ====================.
SORT CASES BY ageclass (A) .
Temporary.
Select if (ageclass > 0).
Report
/FORMAT= CHWRAP(ON) BRKSPACE(-1) SUMSPACE(0) AUTOMATIC
PREVIEW(OFF) CHALIGN(BOTTOM) CHDSPACE(1)
UNDERSCORE(ON) ONEBREAKCOL(OFF)
PAGE(1) MISSING'.' LENGTH(1, 99999)ALIGN(LEFT) TSPACE(0) FTSPACE(0)
MARGINS(1,91)
/TITLE=
LEFT 'ZPR_KID using WHO Child Growth Standards'
/VARIABLES
oedzbmi 'BMIageSD' 'N' (RIGHT) (OFFSET(0)) (8)
$dummy01 (DUMMY) 'BMIageSD' '< -3' (RIGHT) (OFFSET(0)) (8)
$dummy02 (DUMMY) 'BMIageSD' '< -2' (RIGHT) (OFFSET(0)) (8)
$dummy03 (DUMMY) 'BMIageSD' '> +1' (RIGHT) (OFFSET(0)) (8)
$dummy04 (DUMMY) 'BMIageSD' '> +2' (RIGHT) (OFFSET(0)) (8)
$dummy05 (DUMMY) 'BMIageSD' '> +3' (RIGHT) (OFFSET(0)) (8)
bmisd 'bmi/age SD' 'Mean' (RIGHT) (OFFSET(0)) (8)
$dummy06 (DUMMY) 'BMIageSD' 'StdDev' (RIGHT) (OFFSET(0)) (8)
/BREAK (TOTAL)
/SUMMARY VALIDN(oedzbmi) ADD( PLT(-3)(oedzbmi)) ($dummy01(PCT)(1)) ADD(
PLT(-2)(oedzbmi)) ($dummy02(PCT)(1)) ADD( PGT(+1)(oedzbmi))
($dummy03(PCT)(1)) ADD( PGT(+2)(oedzbmi)) ($dummy04(PCT)(1)) ADD( PGT(
+3)(oedzbmi)) ($dummy05(PCT)(1)) MEAN(bmisd) ADD(STDDEV(bmisd))
($dummy06(F)(2)) 'Grand Total' (1)
/BREAK ageclass (LABELS) (LEFT) (OFFSET(0))(SKIP(0))(11)
/SUMMARY VALIDN(oedzbmi) SKIP(0) ADD( PLT(-3)(oedzbmi))
($dummy01(PCT)(1)) ADD( PLT(-2)(oedzbmi)) ($dummy02(PCT)(1)) ADD( PGT(
+1)(oedzbmi)) ($dummy03(PCT)(1)) ADD( PGT(+2)(oedzbmi)) ($dummy04(PCT)(1))
ADD( PGT(+3)(oedzbmi)) ($dummy05(PCT)(1)) MEAN(bmisd) ADD(STDDEV(bmisd))
($dummy06(F)(2)).
* .
SORT CASES BY sex (A) ageclass (A) .
Temporary.
Select if (ageclass > 0).
Report
/FORMAT= CHWRAP(ON) BRKSPACE(-1) SUMSPACE(0) AUTOMATIC
PREVIEW(OFF) CHALIGN(BOTTOM) CHDSPACE(0)
UNDERSCORE(ON) ONEBREAKCOL(OFF)
PAGE(1) MISSING'.' LENGTH(1, 99999)ALIGN(LEFT) TSPACE(0) FTSPACE(0)
MARGINS(1,101)
/TITLE=
LEFT 'ZPR_KID using WHO Child Growth Standards'
/VARIABLES
oedzbmi 'BMIageSD' 'N' (RIGHT) (OFFSET(0)) (8)
$dummy01 (DUMMY) 'BMIageSD' '< -3' (RIGHT) (OFFSET(0)) (8)
$dummy02 (DUMMY) 'BMIageSD' '< -2' (RIGHT) (OFFSET(0)) (8)
$dummy03 (DUMMY) 'BMIageSD' '> +1' (RIGHT) (OFFSET(0)) (8)
$dummy04 (DUMMY) 'BMIageSD' '> +2' (RIGHT) (OFFSET(0)) (8)
$dummy05 (DUMMY) 'BMIageSD' '> +3' (RIGHT) (OFFSET(0)) (8)
bmisd 'bmiageSD' 'Mean' (RIGHT) (OFFSET(0)) (8)
$dummy06 (DUMMY) 'bmiageSD' 'StdDev' (RIGHT) (OFFSET(0)) (8)
/BREAK sex (LABELS) (LEFT) (OFFSET(0)) (SKIP(1))(8)
/SUMMARY VALIDN(oedzbmi) SKIP(1) ADD( PLT(-3)(oedzbmi))
($dummy01(PCT)(1)) ADD( PLT(-2)(oedzbmi)) ($dummy02(PCT)(1)) ADD( PGT(
+1)(oedzbmi)) ($dummy03(PCT)(1)) ADD( PGT(+2)(oedzbmi)) ($dummy04(PCT)(1))
ADD( PGT(+3)(oedzbmi)) ($dummy05(PCT)(1)) MEAN(bmisd) ADD(STDDEV(bmisd))
($dummy06(F)(2)) 'Subtotal sex' (1)
/BREAK ageclass (LABELS) (LEFT) (OFFSET(0)) (SKIP(0))(11)
/SUMMARY VALIDN(oedzbmi) SKIP(0) ADD( PLT(-3)(oedzbmi))
($dummy01(PCT)(1)) ADD( PLT(-2)(oedzbmi)) ($dummy02(PCT)(1)) ADD( PGT(
+1)(oedzbmi)) ($dummy03(PCT)(1)) ADD( PGT(+2)(oedzbmi)) ($dummy04(PCT)(1))
ADD( PGT(+3)(oedzbmi)) ($dummy05(PCT)(1)) MEAN(bmisd) ADD(STDDEV(bmisd))
($dummy06(F)(2)).
* ================weight to age region tables =================.
SORT CASES BY region .
Temporary.
Select if (ageclass > 0).
Report
/FORMAT= CHWRAP(ON) BRKSPACE(-1) SUMSPACE(0) AUTOMATIC
PREVIEW(OFF) CHALIGN(BOTTOM) CHDSPACE(0)
UNDERSCORE(ON) ONEBREAKCOL(OFF)
PAGE(1) MISSING'.' LENGTH(1, 99999)ALIGN(LEFT) TSPACE(0) FTSPACE(0)
MARGINS(1,77)
/TITLE=
LEFT 'ZPR_KID using WHO Child Growth Standards'
/VARIABLES
oedzwaz 'wt/ageSD' 'N' (RIGHT) (OFFSET(0)) (8)
$dummy01 (DUMMY) 'wt/ageSD' '< -3' (RIGHT) (OFFSET(0)) (8)
$dummy02 (DUMMY) 'wt/ageSD' '< -2' (RIGHT) (OFFSET(0)) (8)
$dummy03 (DUMMY) 'wt/ageSD' 'Mean' (RIGHT) (OFFSET(0)) (8)
$dummy04 (DUMMY) 'wt/ageSD' 'StdDev' (RIGHT) (OFFSET(0)) (8)
/BREAK region (LABELS) (LEFT) (OFFSET(0)) (SKIP(0))(26)
/SUMMARY VALIDN(oedzwaz) SKIP(0) ADD( PLT(-3)(oedzwaz)) ($dummy01(PCT)
(1)) ADD( PLT(-2)(oedzwaz)) ($dummy02(PCT)(1)) ADD(MEAN(wtagesd)) ($dummy03
(F)(2)) ADD(STDDEV(wtagesd)) ($dummy04(F)(2)).
SORT CASES BY urbanr .
Temporary.
Select if (ageclass > 0).
Report
/FORMAT= CHWRAP(ON) BRKSPACE(-1) SUMSPACE(0) AUTOMATIC
PREVIEW(OFF) CHALIGN(BOTTOM) CHDSPACE(0)
UNDERSCORE(ON) ONEBREAKCOL(OFF)
PAGE(1) MISSING'.' LENGTH(1, 99999)ALIGN(LEFT) TSPACE(0) FTSPACE(0)
MARGINS(1,78)
/TITLE=
LEFT 'ZPR_KID using WHO Child Growth Standards'
/VARIABLES
oedzwaz 'wt/ageSD' 'N' (RIGHT) (OFFSET(0)) (8)
$dummy01 (DUMMY) 'wt/ageSD' '< -3' (RIGHT) (OFFSET(0)) (8)
$dummy02 (DUMMY) 'wt/ageSD' '< -2' (RIGHT) (OFFSET(0)) (8)
$dummy03 (DUMMY) 'wt/ageSD' 'Mean' (RIGHT) (OFFSET(0)) (8)
$dummy04 (DUMMY) 'wt/ageSD' 'StdDev' (RIGHT) (OFFSET(0)) (8)
/BREAK urbanr (LABELS) (LEFT) (OFFSET(0)) (SKIP(0))(9)
/SUMMARY VALIDN(oedzwaz) SKIP(0) ADD( PLT(-3)(oedzwaz)) ($dummy01(PCT)
(1)) ADD( PLT(-2)(oedzwaz)) ($dummy02(PCT)(1)) ADD(MEAN(wtagesd)) ($dummy03
(F)(2)) ADD(STDDEV(wtagesd)) ($dummy04(F)(2)).
* ===================height to age region tables ========================.
SORT CASES BY region .
Temporary.
Select if (ageclass > 0).
Report
/FORMAT= CHWRAP(ON) BRKSPACE(-1) SUMSPACE(0) AUTOMATIC
PREVIEW(OFF) CHALIGN(BOTTOM) CHDSPACE(0)
UNDERSCORE(ON) ONEBREAKCOL(OFF)
PAGE(1) MISSING'.' LENGTH(1, 99999)ALIGN(LEFT) TSPACE(0) FTSPACE(0)
MARGINS(1,108)
/TITLE=
LEFT 'ZPR_KID using WHO Child Growth Standards'
/VARIABLES
htagesd 'ht/ageSD' 'N' (RIGHT) (OFFSET(0)) (8)
$dummy01 (DUMMY) 'ht/ageSD' '< -3' (RIGHT) (OFFSET(0)) (8)
$dummy02 (DUMMY) 'ht/ageSD' '< -2' (RIGHT) (OFFSET(0)) (8)
$dummy03 (DUMMY) 'ht/ageSD' 'Mean' (RIGHT) (OFFSET(0)) (8)
$dummy04 (DUMMY) 'ht/ageSD' 'StdDev' (RIGHT) (OFFSET(0)) (8)
/BREAK region (LABELS) (LEFT) (OFFSET(0)) (SKIP(0))(28)
/SUMMARY VALIDN(htagesd) SKIP(0) ADD( PLT(-3)(htagesd)) ($dummy01(PCT)
(1)) ADD( PLT(-2)(htagesd)) ($dummy02(PCT)(1)) ADD(MEAN(htagesd)) ($dummy03
(F)(2)) ADD(STDDEV(htagesd)) ($dummy04(F)(2)).
SORT CASES BY urbanr .
Temporary.
Select if (ageclass > 0).
Report
/FORMAT= CHWRAP(ON) BRKSPACE(-1) SUMSPACE(0) AUTOMATIC
PREVIEW(OFF) CHALIGN(BOTTOM) CHDSPACE(0)
UNDERSCORE(ON) ONEBREAKCOL(OFF)
PAGE(1) MISSING'.' LENGTH(1, 99999)ALIGN(LEFT) TSPACE(0) FTSPACE(0)
MARGINS(1,78)
/TITLE=
LEFT 'ZPR_KID using WHO Child Growth Standards'
/VARIABLES
htagesd 'ht/ageSD' 'N' (RIGHT) (OFFSET(0)) (8)
$dummy01 (DUMMY) 'ht/ageSD' '< -3' (RIGHT) (OFFSET(0)) (8)
$dummy02 (DUMMY) 'ht/ageSD' '< -2' (RIGHT) (OFFSET(0)) (8)
$dummy03 (DUMMY) 'ht/ageSD' 'Mean' (RIGHT) (OFFSET(0)) (8)
$dummy04 (DUMMY) 'ht/ageSD' 'StdDev' (RIGHT) (OFFSET(0)) (8)
/BREAK urbanr (LABELS) (LEFT) (OFFSET(0)) (SKIP(0))(9)
/SUMMARY VALIDN(htagesd) SKIP(0) ADD( PLT(-3)(htagesd)) ($dummy01(PCT)
(1)) ADD( PLT(-2)(htagesd)) ($dummy02(PCT)(1)) ADD(MEAN(htagesd)) ($dummy03
(F)(2)) ADD(STDDEV(htagesd)) ($dummy04(F)(2)).
* ============== weight to height region tables ===============.
SORT CASES BY region .
Temporary.
Select if (ageclass >= 0).
Report
/FORMAT= CHWRAP(ON) BRKSPACE(-1) SUMSPACE(0) AUTOMATIC
PREVIEW(OFF) CHALIGN(BOTTOM) CHDSPACE(0)
UNDERSCORE(ON) ONEBREAKCOL(OFF)
PAGE(1) MISSING'.' LENGTH(1, 99999)ALIGN(LEFT) TSPACE(0) FTSPACE(0)
MARGINS(1,108)
/TITLE=
LEFT 'ZPR_KID using WHO Child Growth Standards'
/VARIABLES
oedzwhz 'wt/ht SD' 'N' (RIGHT) (OFFSET(0)) (8)
$dummy01 (DUMMY) 'wt/ht SD' '< -3' (RIGHT) (OFFSET(0)) (8)
$dummy02 (DUMMY) 'wt/ht SD' '< -2' (RIGHT) (OFFSET(0)) (8)
$dummy03 (DUMMY) 'wt/ht SD' '> +1' (RIGHT) (OFFSET(0)) (8)
$dummy04 (DUMMY) 'wt/ht SD' '> +2' (RIGHT) (OFFSET(0)) (8)
$dummy05 (DUMMY) 'wt/ht SD' '> +3' (RIGHT) (OFFSET(0)) (8)
$dummy06 (DUMMY) 'wt/ht SD' 'Mean' (RIGHT) (OFFSET(0)) (8)
$dummy07 (DUMMY) 'wt/ht SD' 'StdDev' (RIGHT) (OFFSET(0))(8)
/BREAK region (LABELS) (LEFT) (OFFSET(0))(SKIP(0))(28)
/SUMMARY VALIDN(oedzwhz) SKIP(0) ADD( PLT(-3)(oedzwhz))
($dummy01(PCT)(1)) ADD( PLT(-2)( oedzwhz)) ($dummy02(PCT)(1)) ADD( PGT(
+1)(oedzwhz)) ($dummy03(PCT)(1)) ADD( PGT(+2)(oedzwhz)) ($dummy04(PCT)(1))
ADD( PGT(+3)(oedzwhz)) ($dummy05(PCT)(1)) ADD(MEAN(wthtsd))
($dummy06(F)(2)) ADD(STDDEV(wthtsd)) ($dummy07(F)(2)).
SORT CASES BY urbanr .
Temporary.
Select if (ageclass >= 0).
Report
/FORMAT= CHWRAP(ON) BRKSPACE(-1) SUMSPACE(0) AUTOMATIC
PREVIEW(OFF) CHALIGN(BOTTOM) CHDSPACE(0)
UNDERSCORE(ON) ONEBREAKCOL(OFF)
PAGE(1) MISSING'.' LENGTH(1, 99999)ALIGN(LEFT) TSPACE(0) FTSPACE(0)
MARGINS(1,89)
/TITLE=
LEFT 'ZPR_KID using WHO Child Growth Standards'
/VARIABLES
oedzwhz 'wt/ht SD' 'N' (RIGHT) (OFFSET(0)) (8)
$dummy01 (DUMMY) 'wt/ht SD' '< -3' (RIGHT) (OFFSET(0)) (8)
$dummy02 (DUMMY) 'wt/ht SD' '< -2' (RIGHT) (OFFSET(0)) (8)
$dummy03 (DUMMY) 'wt/ht SD' '> +1' (RIGHT) (OFFSET(0)) (8)
$dummy04 (DUMMY) 'wt/ht SD' '> +2' (RIGHT) (OFFSET(0)) (8)
$dummy05 (DUMMY) 'wt/ht SD' '> +3' (RIGHT) (OFFSET(0)) (8)
$dummy06 (DUMMY) 'wt/ht SD' 'Mean' (RIGHT) (OFFSET(0)) (8)
$dummy07 (DUMMY) 'wt/ht SD' 'StdDev' (RIGHT) (OFFSET(0))(8)
/BREAK urbanr (LABELS) (LEFT) (OFFSET(0)) (SKIP(0))(9)
/SUMMARY VALIDN(oedzwhz) SKIP(0) ADD( PLT(-3)(oedzwhz))
($dummy01(PCT)(1)) ADD( PLT(-2)(oedzwhz)) ($dummy02(PCT)(1)) ADD( PGT(
+1)(oedzwhz)) ($dummy03(PCT)(1)) ADD( PGT(+2)(oedzwhz)) ($dummy04(PCT)(1))
ADD( PGT(+3)(oedzwhz)) ($dummy05(PCT)(1)) ADD(MEAN(wthtsd))
($dummy06(F)(2)) ADD(STDDEV(wthtsd)) ($dummy07(F)(2)).
* ================ BMI to age region tables ====================.
SORT CASES BY region .
Temporary.
Select if (ageclass > 0).
Report
/FORMAT= CHWRAP(ON) BRKSPACE(-1) SUMSPACE(0) AUTOMATIC
PREVIEW(OFF) CHALIGN(BOTTOM) CHDSPACE(0)
UNDERSCORE(ON) ONEBREAKCOL(OFF)
PAGE(1) MISSING'.' LENGTH(1, 99999)ALIGN(LEFT) TSPACE(0) FTSPACE(0)
MARGINS(1,108)
/TITLE=
LEFT 'ZPR_KID using WHO Child Growth Standards'
/VARIABLES
oedzbmi 'bmiageSD' 'N' (RIGHT) (OFFSET(0)) (8)
$dummy01 (DUMMY) 'bmiageSD' '< -3' (RIGHT) (OFFSET(0)) (8)
$dummy02 (DUMMY) 'bmiageSD' '< -2' (RIGHT) (OFFSET(0)) (8)
$dummy03 (DUMMY) 'bmiageSD' '> +1' (RIGHT) (OFFSET(0)) (8)
$dummy04 (DUMMY) 'bmiageSD' '> +2' (RIGHT) (OFFSET(0)) (8)
$dummy05 (DUMMY) 'bmiageSD' '> +3' (RIGHT) (OFFSET(0)) (8)
bmisd 'bmiageSD' 'Mean' (RIGHT) (OFFSET(0)) (8)
$dummy06 (DUMMY) 'bmiageSD' 'StdDev' (RIGHT) (OFFSET(0)) (8)
/BREAK region (LABELS) (LEFT) (OFFSET(0)) (SKIP(0))(28)
/SUMMARY VALIDN(oedzbmi) SKIP(0) ADD( PLT(-3)(oedzbmi))
($dummy01(PCT)(1)) ADD( PLT(-2)(oedzbmi)) ($dummy02(PCT)(1)) ADD( PGT(
+1)(oedzbmi)) ($dummy03(PCT)(1)) ADD( PGT(+2)(oedzbmi)) ($dummy04(PCT)(1))
ADD( PGT(+3)(oedzbmi)) ($dummy05(PCT)(1)) MEAN(bmisd) ADD(STDDEV(bmisd))
($dummy06(F)(2)).
SORT CASES BY urbanr .
Temporary.
Select if (ageclass > 0).
Report
/FORMAT= CHWRAP(ON) BRKSPACE(-1) SUMSPACE(0) AUTOMATIC
PREVIEW(OFF) CHALIGN(BOTTOM) CHDSPACE(0)
UNDERSCORE(ON) ONEBREAKCOL(OFF)
PAGE(1) MISSING'.' LENGTH(1, 99999)ALIGN(LEFT) TSPACE(0) FTSPACE(0)
MARGINS(1,99)
/TITLE=
LEFT 'ZPR_KID using WHO Child Growth Standards'
/VARIABLES
oedzbmi 'BMIageSD' 'N' (RIGHT) (OFFSET(0)) (8)
$dummy01 (DUMMY) 'BMIageSD' '< -3' (RIGHT) (OFFSET(0)) (8)
$dummy02 (DUMMY) 'BMIageSD' '< -2' (RIGHT) (OFFSET(0)) (8)
$dummy03 (DUMMY) 'BMIageSD' '> +1' (RIGHT) (OFFSET(0)) (8)
$dummy04 (DUMMY) 'BMIageSD' '> +2' (RIGHT) (OFFSET(0)) (8)
$dummy05 (DUMMY) 'BMIageSD' '> +3' (RIGHT) (OFFSET(0)) (8)
$dummy06 (DUMMY) 'BMIageSD' 'Mean' (RIGHT) (OFFSET(0)) (8)
$dummy07 (DUMMY) 'BMIageSD' 'StdDev' (RIGHT) (OFFSET(0)) (8)
/BREAK urbanr (LABELS) (LEFT) (OFFSET(0)) (SKIP(0))(19)
/SUMMARY VALIDN(oedzbmi) SKIP(0) ADD( PLT(-3)(oedzbmi))
($dummy01(PCT)(1)) ADD( PLT(-2)(oedzbmi)) ($dummy02(PCT)(1)) ADD( PGT(
+1)(oedzbmi)) ($dummy03(PCT)(1)) ADD( PGT(+2)(oedzbmi)) ($dummy04(PCT)(1))
ADD( PGT(+3)(oedzbmi)) ($dummy05(PCT)(1)) ADD(MEAN(bmisd)) ($dummy06(F)(2))
ADD(STDDEV(bmisd)) ($dummy07(F)(2)).
* omit next two lines if you need to see intermediate results to debug.
XSAVE outfile="C:\Users\Dr. Love\Desktop\ZPR_KIDS_z.sav" /keep=casenum to zbmi,zwaz,zwhz,whzflag to whznoage.
ERASE FILE='C:\Users\Dr. Love\Desktop\ZPR_KIDS.sav'.
ERASE FILE='C:\Users\Dr. Love\Desktop\ZPR_KIDS\.sav'.
set header on.
set printback=on length=None Width=132.
execute.
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