[623] | 1 | ECXLBB ;DALOI/KML - DSS BLOOD BANK EXTRACT ; 2/22/07 11:42am
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| 2 | ;;3.0;DSS EXTRACTS;**78,84,90,92,104**;Dec 22, 1997;Build 8
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| 3 | ;Per VHA Directive 97-033 this routine should not be modified. Medical Device # BK970021
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| 4 | ; access to the LAB DATA file (#63) is supported by
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| 5 | ; controlled subscription to IA 525 (global root ^LR)
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| 6 | ; access to the BLOOD PRODUCT (#66) is supported by IA 4510
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| 7 | BEG ;entry point from option
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| 8 | D SETUP I ECFILE="" Q
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| 9 | D ^ECXTRAC,^ECXKILL
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| 10 | Q
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| 11 | ;
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| 12 | START ; Entry point from tasked job
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| 13 | ; begin package specific extract
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| 14 | N ECTRSP,ECADMT,ECTODT,ECENCTR,ECPAT,ECLRDFN,ECXPHY,ECXPHYPC
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| 15 | N ECD,ECXDFN,ECARRY,EC66,ECERR,ECTRFDT,ECTRFTM,ECX,ECINOUT,ECXINST
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| 16 | ;variables ECFILE,EC23,ECXYM,ECINST,ECSD,ECSD1,ECED passed in
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| 17 | ; by taskmanager
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| 18 | ; ECED defined in ^ECXTRAC - it represents the end date of the extract
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| 19 | ; sort process. TRANSFUSION DATE should be within start and end dates
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| 20 | ; ECED and ECSD were assigned with input provided by the user interface
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| 21 | ; and ECSD1 = ECSD-.1
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| 22 | ; Read through the TRANSFUSION RECORD sub-file (63.017) of
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| 23 | ; the LAB DATA file (#63)
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| 24 | ;the global nodes containing transfusion record entries are constructed
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| 25 | ; by calculating the TRANSFUSION DATE/TIME (.01)
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| 26 | ; into its reverse date/time representation and then DINUM'd when
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| 27 | ;filing the record entry
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| 28 | ; ECD equals the reverse date/time of ECED+.3 and will need to be
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| 29 | ; reset for each DFN.
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| 30 | I $D(ZTQUEUED),$$S^%ZTLOAD S QFLG=1 Q ;quit if tasked and user sends stop request (QFLG assigned in ECXTRAC)
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| 31 | AUDRPT ; entry point for pre-extract audit report
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| 32 | S ECTODT=9999999-ECSD1,ECLRDFN=0
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| 33 | F S ECLRDFN=$O(^LR(ECLRDFN)) Q:'ECLRDFN S ECXDFN=$$GETDFN(ECLRDFN),ECERR=$$PAT(ECXDFN) S ECD=9999999-(ECED+.3) F S ECD=$O(^LR(ECLRDFN,1.6,ECD)) Q:ECERR Q:'ECD!(ECD>ECTODT) S EC0=^LR(ECLRDFN,1.6,ECD,0) D
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| 34 | .; ECARRY(1)=TRANSFUSION DATE AND TIME,
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| 35 | .; ECARRY(3)=COMPONENT, ECARRY(4)=COMPONENT ABBREVIATION
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| 36 | .; ECARRY(5)=UNITS POOLED, ECARRY(6)=TRANSFUSION REACTION,
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| 37 | .; ECARRY(7)=VOLUME TRANSFUSED, ECARRY(8)=TRANSFUSION REACTION TYPE
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| 38 | .; ECARRY(9)=REQUESTING PROVIDER, ECARRY(10)=REQUEST. PROV. PERSON CLASS
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| 39 | .; ECARRY(11)=UNIT MODIFIED, ECARRY(12)=UNIT MODIFICATION
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| 40 | .; ECARRY(13)=PRODUCTION DIVISION CODE
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| 41 | . S ECARRY(1)=$P(EC0,"^"),EC66=$G(^LAB(66,$P(EC0,"^",2),0))
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| 42 | . S ECARRY(3)=$E($P(EC66,"^"),1,15),ECARRY(4)=$P(EC66,"^",2)
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| 43 | . S ECARRY(5)=$S(+$P(EC0,"^",7)=0:1,1:+$P(EC0,"^",7))
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| 44 | . S ECARRY(6)=$S($P(EC0,"^",8)=1:"Y",1:"N"),ECARRY(7)=$P(EC0,"^",10)
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| 45 | . S ECARRY(8)=$E($P($G(^LAB(65.4,+$P(EC0,"^",11),0)),"^"),1,10)
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| 46 | . S (ECARRY(9),ECARRY(10),ECARRY(13))="" D GETRPRV
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| 47 | . S ECARRY(12)=$$UNITMOD(),ECARRY(11)=$S(ECARRY(12)'="":"Y",1:"N")
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| 48 | . S (ECXPHY,ECXPHYPC)=""
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| 49 | . D GETDATA
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| 50 | . K ECARRY
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| 51 | Q
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| 52 | ;
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| 53 | UNITMOD() ; Get modification criteria from fields #.06 and #3 from file #66
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| 54 | N MODARY,MO,EC66A,MODSTR,STR3
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| 55 | S MODARY("DIVIDED")="D",MODARY("POOLED")="P",MODARY("WASHED")="W"
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| 56 | S MODARY("FROZEN")="F",MODARY("LEUKOCYTE POOR")="L"
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| 57 | S MODARY("REJUVENATED")="R",MODARY("DEGLYCEROLIZED")="G"
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| 58 | S MODARY("IRRADIATED")="I",MODARY("SEPARATED")="S"
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| 59 | ;if modification criteria is null determine value from description
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| 60 | S MODSTR=$S($P(EC66,U,6)'="":$P(EC66,U,6),1:$$CHKMOD($P(EC66,"^")))
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| 61 | ;get modification criteria for entries at field #3 in file #66
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| 62 | S MOD=0 F S MOD=$O(^LAB(66,$P(EC0,"^",2),3,MOD)) Q:'MOD D
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| 63 | .S EC66A=$G(^LAB(66,MOD,0)) I EC66A="" Q
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| 64 | .S STR3=$S($P(EC66A,U,6)'="":$P(EC66A,U,6),1:$$CHKMOD($P(EC66A,"^")))
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| 65 | .I STR3'="",MODSTR'[STR3 S MODSTR=MODSTR_STR3
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| 66 | Q MODSTR
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| 67 | ;
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| 68 | CHKMOD(MD) ;check if modifier is contained in string
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| 69 | N RES,MODX
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| 70 | I MD="" Q ""
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| 71 | S (RES,MODX)="" F S MODX=$O(MODARY(MODX)) Q:MODX="" D I RES'="" Q
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| 72 | .I MD[MODX S RES=MODARY(MODX)
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| 73 | Q RES
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| 74 | GETRPRV ; get requesting provider, requesting provider person class and
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| 75 | ; production division code
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| 76 | ; input: ECD =INVERTED DATE SUBSCRIPT
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| 77 | ; ECARRY(1)=TRANSFUSION DATE AND TIME
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| 78 | ; note: Accessioned data in file #68 is stored up to 90 days.
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| 79 | N ECXBNOD,ACC,ACCDT,ACCNODE,PERCLS
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| 80 | I ECARRY(1)="" Q ;there is no transfusion date
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| 81 | ;get BLOOD BANK record, field #1, in file #63 located on "BB" node
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| 82 | ;since there is a slight time lapse, $O will find the BB record
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| 83 | S ECXBNOD=$O(^LR(ECLRDFN,"BB",ECD)) I ECXBNOD="" Q
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| 84 | S ECXBNOD=^LR(ECLRDFN,"BB",ECXBNOD,0) I ECXBNOD="" Q
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| 85 | ;Compose accession number,originating from field #.06 subfile #63.01
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| 86 | ; ex. ACC=BB 0528 27
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| 87 | S ACC=$P(ECXBNOD,U,6),ACC=$TR($P(ACC," ",2,99)," ")
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| 88 | S ACCDT=$E(ECARRY(1),1,3)_$E(ACC,1,4),NUM=$E(ACC,5,99)
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| 89 | ;Get field #2 from file #68, field #1 from subfile #68.01 which is
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| 90 | ;subfile #68.02. Look at 29=blood bank ien, from 0th node, get fields
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| 91 | ;#6.5 PROVIDER and #26 DIV
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| 92 | I (ACCDT)=""!(NUM="") Q
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| 93 | ; identify bb accession area the patient was in to get the right DIV
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| 94 | S AREA=$$AREA
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| 95 | S ACCNODE=$G(^LRO(68,+AREA,1,ACCDT,1,NUM,0))
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| 96 | S ECARRY(9)=$P(ACCNODE,U,8) I ECARRY(9)'="" D
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| 97 | . S PERCLS=$$GET^XUA4A72(ECARRY(9),ACCDT)
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| 98 | . I +PERCLS>0 S ECARRY(10)=$P(PERCLS,U,7)
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| 99 | . S ECARRY(9)=2_ECARRY(9)
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| 100 | S DIV=$P($G(^LRO(68,+AREA,1,ACCDT,1,NUM,.4)),U)
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| 101 | I DIV'="" S ECARRY(13)=$$RADDIV^ECXDEPT(DIV)
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| 102 | Q
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| 103 | ;
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| 104 | AREA() ; resolve accession area's ien to use and validate
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| 105 | ; Accession number
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| 106 | ; Patient LRDFN
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| 107 | ; note: if there is only one accession area use '29'
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| 108 | N A,CNT,BBLIST,DFN,ACC,AREA,DATE,TDATE,ACCNODE
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| 109 | S (CNT,FLAG,A)=0,DFN=""
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| 110 | ; set the date from the "bb" node in file (#63)
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| 111 | S DATE=$P(ECXBNOD,U)
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| 112 | ; setup array for bb accession areas if more than one
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| 113 | F S A=$O(^LRO(68,A)) Q:'A I $P($G(^LRO(68,A,0)),"^",2)="BB" D
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| 114 | . S BBLIST(A)=""
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| 115 | . S CNT=CNT+1
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| 116 | I CNT'>1 Q 29
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| 117 | S AREA=0 F S AREA=$O(BBLIST(AREA)) Q:'AREA D Q:FLAG
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| 118 | . ; get additional accession information for validation
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| 119 | . S ACCNODE=$G(^LRO(68,AREA,1,$P(DATE,"."),1,NUM,0))
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| 120 | . S ACC=$G(^LRO(68,AREA,1,$P(DATE,"."),1,NUM,.2))
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| 121 | . S DFN=$P($G(ACCNODE),U)
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| 122 | . S TDATE=$P($G(^LRO(68,AREA,1,$P(DATE,"."),1,NUM,3)),U)
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| 123 | . I (DFN=ECLRDFN)&(ACC=$P(ECXBNOD,U,6))&(DATE=TDATE) S FLAG=1
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| 124 | Q AREA
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| 125 | ;
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| 126 | GETDATA ; gather rest of extract data that will be recorded in an
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| 127 | ; entry in file 727.829
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| 128 | S ECTRFDT=$$ECXDOB^ECXUTL(ECARRY(1)),ECTRFTM=$$ECXTIME^ECXUTL(ECARRY(1))
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| 129 | S ECX=$$INP^ECXUTL2(ECXDFN,ECARRY(1)),ECINOUT=$P(ECX,U),ECTRSP=$P(ECX,U,3),ECADMT=$P(ECX,U,4) ; [FLD #5]
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| 130 | ;
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| 131 | ;- Observation patient indicator (YES/NO)
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| 132 | S ECXOBS=$$OBSPAT^ECXUTL4(ECINOUT,ECTRSP)
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| 133 | ;- If no encounter number don't file record
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| 134 | S ECENCTR=$$ENCNUM^ECXUTL4(ECINOUT,ECPAT("SSN"),ECADMT,ECARRY(1),ECTRSP,ECXOBS,ECHEAD,,) ; [FLD #6]
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| 135 | Q:ECENCTR=""
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| 136 | ;get emergency response indicator (FEMA)
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| 137 | S ECXERI=ECPAT("ERI")
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| 138 | ;
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| 139 | S ECXSTR=$G(EC23)_"^"_ECINST_"^"_ECXDFN_"^"_ECPAT("SSN")_"^"_ECPAT("NAME")_"^"_ECINOUT_"^"_ECENCTR_"^"_ECTRFDT_"^"_ECTRFTM_"^"_ECARRY(3)_"^"_ECARRY(4)_"^"_ECARRY(5)_"^"_ECARRY(7)_"^"_ECARRY(6)_"^"_ECARRY(8)_"^BB"_ECARRY(13)_"^^"
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| 140 | I $G(ECXLOGIC)>2005 S ECXSTR=ECXSTR_U_ECXPHY_U_ECXPHYPC
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| 141 | I $G(ECXLOGIC)>2006 D
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| 142 | .S ECXSTR=ECXSTR_U_ECXERI_U_ECARRY(11)_U_ECARRY(12)_U_ECARRY(9)_U_ECARRY(10)_U_ECARRY(13)
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| 143 | I '$D(ECXRPT) D FILE(ECXSTR) Q
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| 144 | S ^TMP("ECXLBB",$J,ECXDFN,ECD)=ECXSTR ;temporary global array
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| 145 | ; used in ECXPLBB (pre-extract audit report)
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| 146 | Q
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| 147 | ;
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| 148 | GETDFN(ECXLRDFN) ;
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| 149 | ; INPUT - LRDFN
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| 150 | ; OUTPUT - DFN
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| 151 | ; Obtains DFN (Patient ID) from LRDFN (Lab Patient ID).
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| 152 | ; If no valid DFN exists, 0 is returned.
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| 153 | S ECXLRDFN=+$G(ECXLRDFN)
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| 154 | I $P($G(^LR(ECXLRDFN,0)),"^",2)'=2 Q 0
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| 155 | Q +$P(^LR(ECXLRDFN,0),"^",3)
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| 156 | ;
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| 157 | PAT(ECXDFN) ;get/set patient data
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| 158 | ; INPUT - ECXDFN = patient ien (DFN)
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| 159 | ; OUTPUT - ECPAT array:
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| 160 | ; ECPAT("SSN")
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| 161 | ; ECPAT("NAME")
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| 162 | ; returns 0 or 1 in ECXERR - 0=successful
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| 163 | ; 1=error condition
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| 164 | N X,OK,ECXERR
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| 165 | ;get data
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| 166 | S ECXERR=0
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| 167 | K ECXPAT S OK=$$PAT^ECXUTL3(ECXDFN,"","1;3",.ECPAT)
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| 168 | I 'OK S ECXERR=1
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| 169 | Q ECXERR
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| 170 | ;
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| 171 | FILE(ECODE) ;
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| 172 | ; Input - ECODE = extract record
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| 173 | ;
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| 174 | ; record the extract record at a global node in file 727.829
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| 175 | ; sequence #^year/month of extract^extract #^facility^patient dfn^SSN^
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| 176 | ; name^i/o pt indicator^encounter #^date of transfusion^time of
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| 177 | ; transfusion^component^component abbrev^# of units^volume in mm^
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| 178 | ; reaction^reaction type^feeder location^DSS product dept^DSS IP #
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| 179 | ; ordering physician^ordering physician pc^emergency response indicator
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| 180 | ; (FEMA)^unit modified^unit modification^requesting provider^request.
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| 181 | ; provider person class
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| 182 | ;note: DSS product dept and DSS IP # are dependent on the release of
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| 183 | ; ECX*3*61
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| 184 | N DA,DIK,EC7
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| 185 | S EC7=$O(^ECX(ECFILE,999999999),-1),EC7=EC7+1
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| 186 | S ECODE=EC7_"^"_ECODE
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| 187 | S ^ECX(ECFILE,EC7,0)=ECODE,ECRN=ECRN+1
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| 188 | S DA=EC7,DIK="^ECX("_ECFILE_"," D IX1^DIK K DIK,DA
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| 189 | Q
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| 190 | ;
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| 191 | ;
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| 192 | SETUP ;Set required input for ECXTRAC.
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| 193 | S ECHEAD="LBB"
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| 194 | D ECXDEF^ECXUTL2(ECHEAD,.ECPACK,.ECGRP,.ECFILE,.ECRTN,.ECPIECE,.ECVER)
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| 195 | Q
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| 196 | ;
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| 197 | LOCAL ; to extract nightly for local use not to be transmitted to TSI
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| 198 | ; should be queued with a 1D frequency
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| 199 | D SETUP,^ECXTLOCL,^ECXKILL Q
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| 200 | ;
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| 201 | QUE ; entry point for the background requeuing handled by ECXTAUTO
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| 202 | D SETUP,QUE^ECXTAUTO,^ECXKILL
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| 203 | Q
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| 204 | ;
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| 205 | ;ECXLBB
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