1 | LRBEBA3 ;DALOI/JAH/FHS - ORDERING AND RESULTING OUTPATIENT ;8/10/04
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2 | ;;5.2;LAB SERVICE;**291,359**;Sep 27, 1994
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3 | ;
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4 | BLDAR(LRBEDFN,LRODT,LRSN,LRBEAR,LRBEY,LRBETEST,LRBEPAN,LRBEDEL) ; Build LRBEAR array with
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5 | ; CIDC information
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6 | N LRBEODT,LRBEIEN,LRBETST,LRBETS,LRJ,N,NX,P,X,XX,REQX,OK
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7 | S LRBEAR(LRBEDFN,"DSS ID")=LROOS
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8 | S LRBEAR(LRBEDFN,"ORDGX")="O"
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9 | S LRBEAR(LRBEDFN,"DOS")=LRBECDT
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10 | S LRBEAR(LRBEDFN,"PAT")=$G(LRBEDFN)
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11 | S LRBEAR(LRBEDFN,"POS")=LROOS
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12 | S LRBEAR(LRBEDFN,"DEL")=LRBEDEL
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13 | S LRBEAR(LRBEDFN,"USR")=DUZ
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14 | S LRBEIEN=LRSN_","_LRODT_","
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15 | S LRBEAR(LRBEDFN,"ORDPRO")=$$GET1^DIQ(69.01,LRBEIEN,7,"I")
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16 | S:'+$G(LRSAMP) LRSAMP=$$GET1^DIQ(69.01,LRBEIEN,3,"I")
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17 | ;reset LRBETEST, LRBEY for panel tests
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18 | S LRBETS="" F S LRBETS=$O(^LRO(69,LRODT,1,LRSN,2,"B",LRBETS)) Q:'LRBETS D
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19 | .S LRJ=$O(^LRO(69,LRODT,1,LRSN,2,"B",LRBETS,0))
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20 | .Q:($P(^LRO(69,LRODT,1,LRSN,2,LRJ,0),U,9)="CA")
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21 | .I $G(ORIEN),$P(^LRO(69,LRODT,1,LRSN,2,LRJ,0),U,7)'=ORIEN Q
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22 | .I ($G(^LAB(60,LRBETS,12))),($D(^LAB(60,LRBETS,0))#2),'$L($P($G(^LAB(60,LRBETS,0)),U,5)) S LRBEPAN(LRBETS)=""
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23 | .S OK=0,N=0 F S N=$O(LRBETEST(N)) Q:'N I LRBETS=+LRBETEST(N) S OK=1
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24 | .I 'OK S N=$O(LRBETEST(""),-1),N=N+1,LRBETEST(N)=LRBETS_U_^LAB(60,LRBETS,0),LRBETEST(N,"P")=LRBETS_U_$$NLT^LRVER1(LRBETS)
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25 | .S NX=0 F S NX=$O(^LAB(60,LRBETS,2,NX)) Q:'NX D
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26 | ..S X=+^LAB(60,LRBETS,2,NX,0)
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27 | ..S XX=$P($P(^LAB(60,X,0),U,5),";",2),REQX=$P(^(0),U,17)
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28 | ..I XX,$D(LRBESB(XX)) S P(LRBETS,XX,X)=""
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29 | ..I XX,$D(LRBEPAN(LRBETS)),REQX S P(LRBETS,XX,X)="R"
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30 | ..;if XX null, then possibly another panel
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31 | ..I 'XX D PARRAY(X,LRBETS,.P)
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32 | .;reset LRBEY array;
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33 | .;1st subscript is panel test; 2nd subscript is data identifier of atomic test
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34 | .I $D(P(LRBETS)) D
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35 | ..;retain original LRBEY array node if atomic test exists as a separate accession
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36 | ..I '$D(^LRO(68,$G(LRAA),1,$G(LRAD),1,$G(LRAN),4,LRBETS,0)) K LRBEY(LRBETS)
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37 | ..S XX=0 F S XX=$O(P(LRBETS,XX)) Q:'XX D
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38 | ...S LRBEY(LRBETS,XX)=""
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39 | ...S X=$O(P(LRBETS,XX,0))
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40 | ...I P(LRBETS,XX,X)="R" S LRBEY(LRBETS,XX,"R")=X
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41 | ;continue
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42 | S LRBETS="" F S LRBETS=$O(LRBETEST(LRBETS)) Q:LRBETS="" D
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43 | .S LRBETST=$P(LRBETEST(LRBETS),U,1)
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44 | .D BLDAR^LRBEBA2(LRBEDFN,LRODT,LRSN,LRBETS,LRSAMP,LRSPEC,LRBETST,.LRBEAR)
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45 | Q
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46 | ;
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47 | PARRAY(XTEST,PTEST,P) ;
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48 | N NX,X,XX,REQX
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49 | S NX=0 F S NX=$O(^LAB(60,XTEST,2,NX)) Q:'NX D
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50 | .S X=+^LAB(60,XTEST,2,NX,0)
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51 | .S XX=$P($P(^LAB(60,X,0),U,5),";",2),REQX=$P(^(0),U,17)
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52 | .I XX,$D(LRBESB(XX)) S P(PTEST,XX,X)=""
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53 | .I XX,$D(LRBEPAN(PTEST)),REQX S P(PTEST,XX,X)="R"
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54 | Q
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55 | ;
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56 | QRYADD(LRODT,LRSN,LRTS,LRBEDFN,LRBESMP,LRBESPC,LRBETS,LRBEX,LRBEXD) ; Query #69 for
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57 | ; default LRBEDGX and SC/EI
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58 | N LRBEA,LRDGX,LRDX,LRDGXD
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59 | S LRDGX=0
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60 | F S LRDGX=$O(^LRO(69,LRODT,1,LRSN,2,LRTS,2,LRDGX)) Q:LRDGX<1 D
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61 | .S LRDGXD=2
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62 | .S LRBEPTDT=$G(^LRO(69,LRODT,1,LRSN,2,LRTS,2,LRDGX,0)) Q:'LRBEPTDT
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63 | .S LRBEA=$P(LRBEPTDT,U,1)_"^^^"_$P(LRBEPTDT,U,4)_U_$P(LRBEPTDT,U,5)
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64 | .S LRBEA=LRBEA_U_$P(LRBEPTDT,U,2)_U_$P(LRBEPTDT,U,6)_U_$P(LRBEPTDT,U,8)
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65 | .S LRBEA=LRBEA_U_$P(LRBEPTDT,U,7)_U_$P(LRBEPTDT,U,3)
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66 | .I $P(LRBEPTDT,U,9)=1 S LRBEA=LRBEA_U_$P(LRBEPTDT,U,9),LRDGXD=1
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67 | .S LRBEX(LRBEDFN,"LRBEDGX",LRBESMP,LRBESPC,LRBETS,$P(LRBEA,U))=LRBEA
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68 | .S LRBEXD(LRBEDFN,"LRBEDGX",LRBESMP,LRBESPC,LRBETS,LRDGXD,$P(LRBEA,U))=LRBEA
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69 | Q
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70 | ;
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71 | ELIG(DFN) ; Display eligibility and disabilities
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72 | D ELIG^VADPT W !," Eligibility: "_$P(VAEL(1),"^",2)_$S(+VAEL(3):" SC%: "_$P(VAEL(3),"^",2),1:"")
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73 | W !," Disabilities: " F I=0:0 S I=$O(^DPT(DFN,.372,I)) Q:'I S I1=$S($D(^DPT(DFN,.372,I,0)):^(0),1:"") D:+I1
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74 | .S LRDIS=$S($P($G(^DIC(31,+I1,0)),"^")]""&($P($G(^(0)),"^",4)']""):$P(^(0),"^"),$P($G(^DIC(31,+I1,0)),"^",4)]"":$P(^(0),"^",4),1:""),LRCNT=$P(I1,"^",2)
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75 | .S LRDIS=$E(LRDIS,1,55)
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76 | .I LRDIS]"" W ?15,LRDIS_" - "_LRCNT_"%("_$S($P(I1,"^",3):"SC",1:"NSC")_")",!
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77 | K LRDIS,LRCNT,I,I1,VAEL
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78 | Q
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79 | ;
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80 | BALROW(LRODT,LRSN,LRTEST) ; CIDC LROW
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81 | N LRBEA,LRBEB,LRBEAT,LRBET,LRBESN,LRBETS,LRBETST,LRBEQT,LRBEOT,LRBEVAL
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82 | S LRBEVAL=$D(^XUSEC("PROVIDER",DUZ)) Q:'LRBEVAL
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83 | S LRBEVAL=$$CIDC^IBBAPI(DFN) Q:'LRBEVAL
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84 | I '$D(DFN) S LRBEDFN=$$GET1^DIQ(63,LRDFN_",",.03,"I")
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85 | S:$G(LRSN)="" LRSN=1
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86 | D SLROT^LRBEBA3(.LRXST,.LRTEST,.LRBEOT) S:$G(LRSS)="" LRSS="CH"
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87 | S LRBEAT=1,LRBEY=$$SBA^LRBEBA31(LRDFN,.LRBEX,.LRBEQT,.LRBEOT)
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88 | Q
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89 | ;
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90 | AQ1 ; Ask question from LRORD1
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91 | N LRBEVAL
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92 | S LRBEVAL=$D(^XUSEC("PROVIDER",DUZ)) Q:'LRBEVAL
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93 | S LRBEVAL=$$CIDC^IBBAPI(DFN) Q:'LRBEVAL
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94 | K LRBEODT D DT^LRX S LRBEODT=%
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95 | S:$G(LRSS)="" LRSS="CH"
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96 | S LRBEAT=1,LRBEY=$$SBA^LRBEBA31(LRDFN,.LRBEX,.LRBEQT,.LROT)
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97 | Q
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98 | ;
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99 | AQ2 ; from LROW2A
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100 | N LRBEVAL
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101 | S LRBEVAL=$$CIDC^IBBAPI(DFN) Q:'LRBEVAL
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102 | D SACC^LRBEBA2(LRODT,LRSN,LRTN,LRSSP,LRSPEC,$P(LRTEST(LRI),U,1),.LRBEX)
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103 | Q
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104 | ;
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105 | SVST(ENUM,ETYP,LRODT,LRSN) ; Set the Encounter # in #69
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106 | S ^LRO(69,LRODT,1,LRSN,ETYP)=ENUM
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107 | Q
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108 | ;
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109 | BALROR(LRORD) ; CIDC LRORD
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110 | N LRBEA,LRBEAT,LRBEB,LRBET,LRBESN,LRBETS,LRBETST,LRBEQT,LRBEODT
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111 | N LRBEOT,LRBEVAL,LRBEZ,LRBETN
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112 | S LRBEVAL=$D(^XUSEC("PROVIDER",DUZ)) Q:'LRBEVAL
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113 | S LRBEVAL=$$CIDC^IBBAPI(DFN) Q:'LRBEVAL
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114 | I '$D(DFN) S LRBEDFN=$$GET1^DIQ(63,LRDFN_",",.03,"I")
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115 | S LRBEAT=1,LRBEY=$$SBA^LRBEBA31(LRDFN,.LRBEX,.LRBEQT,.LROT)
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116 | Q
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117 | ;
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118 | SLROT(LRXST,LRTEST,LRBEOT) ;LROT array
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119 | N LRBEA,LRBESMP,LRBESPC
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120 | S LRBESMP="" F S LRBESMP=$O(LRXST(LRBESMP)) Q:LRBESMP="" D
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121 | .S LRBEA="" F S LRBEA=$O(LRXST(LRBESMP,LRBEA)) Q:LRBEA="" D
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122 | ..S LRBESPC=$P(LRXST(LRBESMP,LRBEA),U,1)
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123 | ..S LRBEOT(LRBESMP,LRBESPC,LRBEA)=$P(LRTEST(LRBEA),U,1)
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124 | Q
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125 | ;
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126 | MICRO1(LRODT,LRSN,LRTST,LRCNT) ;get CIDC data for microbiology
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127 | ;called from LRCAPPH1
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128 | N LRBETM
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129 | N AA,DX,DXCNT,FINAL,GOPRO,GEPRO,MOD,ORD,N,X
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130 | S FINAL=$$FINAL^LRBEBA3(LRODT,LRSN,LRTST)
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131 | I $P(FINAL,U)=0 K ^TMP("LRPXAPI",$J,"PROCEDURE",LRCNT) Q
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132 | ;continue if micro test completed
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133 | S DXCNT=+$O(^TMP("LRBEDX",$J,999),-1)
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134 | S LRBETM=$P($G(^LRO(69,LRODT,1,LRSN,3)),U) I 'LRBETM S LRBETM=LRODT
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135 | S LRBETM=$$PCETM^LRBEBAO(LRBETM)
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136 | S ^TMP("LRPXAPI",$J,"PROCEDURE",LRCNT,"EVENT D/T")=LRBETM
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137 | S AA=$P($P(FINAL,";",2),U,4)
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138 | S GOPRO=$$GOPRO^LRBEBA2(LRODT,LRSN)
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139 | S GEPRO=$$GEPRO^LRBEBA2(AA)
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140 | S ^TMP("LRPXAPI",$J,"PROVIDER",1,"NAME")=GOPRO
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141 | S ^TMP("LRPXAPI",$J,"PROVIDER",1,"PRIMARY")=1
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142 | S ^TMP("LRPXAPI",$J,"PROCEDURE",LRCNT,"ORD PROVIDER")=GOPRO
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143 | S ^TMP("LRPXAPI",$J,"PROCEDURE",LRCNT,"ENC PROVIDER")=GEPRO
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144 | S ORD=$P($P(FINAL,";",2),U,7)
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145 | S ^TMP("LRPXAPI",$J,"PROCEDURE",LRCNT,"ORD REFERENCE")=ORD
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146 | S ^TMP("LRBEDX",$J,"ID")=LRODT_U_LRSN
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147 | S N=0 F S N=$O(^LRO(69,LRODT,1,LRSN,2,LRTST,2,N)) Q:'N Q:N>4 D
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148 | .S X=^LRO(69,LRODT,1,LRSN,2,LRTST,2,N,0)
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149 | .S DXCNT=DXCNT+1,^TMP("LRBEDX",$J,DXCNT)=X
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150 | .I N=1 S ^TMP("LRPXAPI",$J,"PROCEDURE",LRCNT,"DIAGNOSIS")=$P(X,U,1)
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151 | .I N>1 S ^TMP("LRPXAPI",$J,"PROCEDURE",LRCNT,"DIAGNOSIS "_N)=$P(X,U,1)
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152 | Q
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153 | ;
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154 | MICRO2(LRODT,LRSN) ;setup more CIDC data for microbiology
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155 | ;called from LRCAPPH1
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156 | N DXCNT,EI,EIX,X
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157 | S X=$G(^TMP("LRBEDX",$J,"ID"))
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158 | I ($P(X,U)'=LRODT)!($P(X,U,2)'=LRSN) Q
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159 | S DXCNT=+$O(^TMP("LRBEDX",$J,999),-1)
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160 | Q:'DXCNT
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161 | S DXCNT=0 F S DXCNT=$O(^TMP("LRBEDX",$J,DXCNT)) Q:'DXCNT D
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162 | .S X=^TMP("LRBEDX",$J,DXCNT)
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163 | .S ^TMP("LRPXAPI",$J,"DX/PL",DXCNT,"DIAGNOSIS")=$P(X,U,1)
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164 | .I $P(X,U,2)'="" S ^TMP("LRPXAPI",$J,"DX/PL",DXCNT,"PL SC")=$P(X,U,2),EIX("SC")=$G(EIX("SC"))+$P(X,U,2)
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165 | .I $P(X,U,3)'="" S ^TMP("LRPXAPI",$J,"DX/PL",DXCNT,"PL CV")=$P(X,U,3),EIX("CV")=$G(EIX("CV"))+$P(X,U,3)
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166 | .I $P(X,U,4)'="" S ^TMP("LRPXAPI",$J,"DX/PL",DXCNT,"PL AO")=$P(X,U,4),EIX("AO")=$G(EIX("AO"))+$P(X,U,4)
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167 | .I $P(X,U,5)'="" S ^TMP("LRPXAPI",$J,"DX/PL",DXCNT,"PL IR")=$P(X,U,5),EIX("IR")=$G(EIX("IR"))+$P(X,U,5)
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168 | .I $P(X,U,6)'="" S ^TMP("LRPXAPI",$J,"DX/PL",DXCNT,"PL EC")=$P(X,U,6),EIX("EC")=$G(EIX("EC"))+$P(X,U,6)
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169 | .I $P(X,U,7)'="" S ^TMP("LRPXAPI",$J,"DX/PL",DXCNT,"PL MST")=$P(X,U,7),EIX("MST")=$G(EIX("MST"))+$P(X,U,7)
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170 | .I $P(X,U,8)'="" S ^TMP("LRPXAPI",$J,"DX/PL",DXCNT,"PL HNC")=$P(X,U,8),EIX("HNC")=$G(EIX("HNC"))+$P(X,U,8)
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171 | .I $P(X,U,9) S ^TMP("LRPXAPI",$J,"DX/PL",DXCNT,"PRIMARY")=$P(X,U,9)
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172 | F EI="SC","CV","AO","IR","EC","MST","HNC" D
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173 | .I $G(EIX(EI))>1 S EIX(EI)=1
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174 | .I $G(EIX(EI))'="" S ^TMP("LRPXAPI",$J,"ENCOUNTER",1,EI)=EIX(EI)
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175 | Q
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176 | ;
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177 | FINAL(LRODT,LRSN,LRTST) ;is microbiology test complete/final?
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178 | ;called from MICRO1 only
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179 | ;returns 1_";"_<0-node of order>, if test completed
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180 | ; otherwise returns 0
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181 | N AA,AI,AY,NODEO,NODEA,NOKILL,RETURN,TST,TT,X
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182 | S RETURN=0,NODEA=""
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183 | S NODEO=$G(^LRO(69,LRODT,1,LRSN,2,LRTST,0))
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184 | S TST=$P(NODEO,U),AY=$P(NODEO,U,3),AA=$P(NODEO,U,4),AI=$P(NODEO,U,5)
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185 | I TST,AA,AI,AY S NODEA=$G(^LRO(68,AA,1,AY,1,AI,4,TST,0))
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186 | ;does complete date exist?
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187 | I $P(NODEA,U,5) S RETURN=1_";"_NODEO
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188 | I RETURN'=0 D
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189 | .S $P(^LRO(69,LRODT,1,LRSN,2,LRTST,0),U,12)=1
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190 | .S NOKILL=0
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191 | .S TT=0 F S TT=$O(^LRO(69,LRODT,1,LRSN,2,TT)) Q:'TT D
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192 | ..S NODEO=^LRO(69,LRODT,1,LRSN,2,TT,0),AA=$P(NODEO,U,4)
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193 | ..I AA,$P(NODEO,U,12)'=1,$P($G(^LRO(68,AA,0)),U,2)="MI" S NOKILL=1
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194 | .I NOKILL=0 S ^LRO(69,"AA",LRCEX,LROA)=""
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195 | Q RETURN
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