VistA-smart/p/C0SLAB.m

C0SLAB	  ; GPL - Smart Lab Processing ;4/15/12  17:05
	;;1.0;VISTA SMART CONTAINER;;Sep 26, 2012;Build 5
	;Copyright 2012 George Lilly.  
	;
	; This program is free software: you can redistribute it and/or modify
	; it under the terms of the GNU Affero General Public License as
	; published by the Free Software Foundation, either version 3 of the
	; License, or (at your option) any later version.
	;
	; This program is distributed in the hope that it will be useful,
	; but WITHOUT ANY WARRANTY; without even the implied warranty of
	; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
	; GNU Affero General Public License for more details.
	;
	; You should have received a copy of the GNU Affero General Public License
	; along with this program.  If not, see <http://www.gnu.org/licenses/>.
	;
	Q
	;
	; sample VistA NHIN lab result
	;
	;^TMP("C0STBL",32,"lab",8,"collected@value")=3110626.16
	;^TMP("C0STBL",32,"lab",8,"comment")="Report Released Date/Time: Jun 26, 2011@19:00"
	;^TMP("C0STBL",32,"lab",8,"comment@xml:space")="preserve"
	;^TMP("C0STBL",32,"lab",8,"facility@code")=100
	;^TMP("C0STBL",32,"lab",8,"facility@name")="VOE OFFICE INSTITUTION"
	;^TMP("C0STBL",32,"lab",8,"groupName@value")="CH 0626 47"
	;^TMP("C0STBL",32,"lab",8,"high@value")=" 101"
	;^TMP("C0STBL",32,"lab",8,"id@value")="CH;6889372.84;67003"
	;^TMP("C0STBL",32,"lab",8,"interpretation@value")="H"
	;^TMP("C0STBL",32,"lab",8,"labOrderID@value")=336
	;^TMP("C0STBL",32,"lab",8,"localName@value")="FBLDGLU"
	;^TMP("C0STBL",32,"lab",8,"loinc@value")="14771-0"
	;^TMP("C0STBL",32,"lab",8,"low@value")="69 "
	;^TMP("C0STBL",32,"lab",8,"orderID@value")=807
	;^TMP("C0STBL",32,"lab",8,"result@value")=178
	;^TMP("C0STBL",32,"lab",8,"resulted@value")=3110626.190006
	;^TMP("C0STBL",32,"lab",8,"sample@value")="SERUM"
	;^TMP("C0STBL",32,"lab",8,"specimen@code")="0X500"
	;^TMP("C0STBL",32,"lab",8,"specimen@name")="SERUM"
	;^TMP("C0STBL",32,"lab",8,"status@value")="completed"
	;^TMP("C0STBL",32,"lab",8,"test@value")="FASTING BLOOD GLUCOSE"
	;^TMP("C0STBL",32,"lab",8,"type@value")="CH"
	;^TMP("C0STBL",32,"lab",8,"units@value")="MG/DL"
	;^TMP("C0STBL",32,"lab",8,"vuid@value")=4656342
	;
	; sample Smart lab result triples
	;
	;G("loinc:29571-7","dcterms:identifier")="29571-7"
	;G("loinc:29571-7","dcterms:title")="Phe DBS Ql"
	;G("loinc:29571-7","rdf:type")="sp:Code"
	;G("loinc:29571-7","sp:system")="http://loinc.org/codes/"
	;G("loinc:38478-4","dcterms:identifier")="38478-4"
	;G("loinc:38478-4","dcterms:title")="Biotinidase DBS Ql"
	;G("loinc:38478-4","rdf:type")="sp:Code"
	;G("loinc:38478-4","sp:system")="http://loinc.org/codes/"
	;G("qqWZZIew993","rdf:type")="sp:Attribution"
	;G("qqWZZIew993","sp:startDate")="2007-04-21"
	;G("qqWZZIew994","rdf:type")="sp:NarrativeResult"
	;G("qqWZZIew994","sp:value")="Normal"
	;G("qqWZZIew995","dcterms:title")="Biotinidase DBS Ql"
	;G("qqWZZIew995","rdf:type")="sp:CodedValue"
	;G("qqWZZIew995","sp:code")="loinc:38478-4"
	;G("qqWZZIew997","rdf:type")="sp:Attribution"
	;G("qqWZZIew997","sp:startDate")="2007-09-08"
	;G("qqWZZIew998","rdf:type")="sp:NarrativeResult"
	;G("qqWZZIew998","sp:value")="Normal"
	;G("qqWZZIew999","dcterms:title")="Phe DBS Ql"
	;G("qqWZZIew999","rdf:type")="sp:CodedValue"
	;G("qqWZZIew999","sp:code")="loinc:29571-7"
	;G("smart:99912345/lab_results/3d9b39249193","rdf:type")="sp:LabResult"
	;G("smart:99912345/lab_results/3d9b39249193","sp:belongsTo")="smart:99912345"
	;G("smart:99912345/lab_results/3d9b39249193","sp:labName")="qqWZZIew995"
	;G("smart:99912345/lab_results/3d9b39249193","sp:narrativeResult")="qqWZZIew994"
	;G("smart:99912345/lab_results/3d9b39249193","sp:specimenCollected")="qqWZZIew993"
	;G("smart:99912345/lab_results/426c7adc4f54","rdf:type")="sp:LabResult"
	;G("smart:99912345/lab_results/426c7adc4f54","sp:belongsTo")="smart:99912345"
	;G("smart:99912345/lab_results/426c7adc4f54","sp:labName")="qqWZZIew999"
	;G("smart:99912345/lab_results/426c7adc4f54","sp:narrativeResult")="qqWZZIew998"
	;G("smart:99912345/lab_results/426c7adc4f54","sp:specimenCollected")="qqWZZIew997"
	;
	;
	;  another Smart example, this one with sp:quantitativeResult
	;
	;G("loinc:786-4","dcterms:identifier")="786-4"
	;G("loinc:786-4","dcterms:title")="MCHC RBC Auto-mCnc"
	;G("loinc:786-4","rdf:type")="sp:Code"
	;G("loinc:786-4","sp:system")="http://loinc.org/codes/"
	;G("nodeID:4439","rdf:type")="sp:ValueAndUnit"
	;G("nodeID:4439","sp:unit")="g/dL"
	;G("nodeID:4439","sp:value")=36.6
	;G("nodeID:4613","rdf:type")="sp:ValueAndUnit"
	;G("nodeID:4613","sp:unit")="g/dL"
	;G("nodeID:4613","sp:value")=32
	;G("nodeID:4672","rdf:type")="sp:Attribution"
	;G("nodeID:4672","sp:startDate")="2005-03-10"
	;G("nodeID:4866","rdf:type")="sp:ValueAndUnit"
	;G("nodeID:4866","sp:unit")="g/dL"
	;G("nodeID:4866","sp:value")=36
	;G("nodeID:4871","dcterms:title")="MCHC RBC Auto-mCnc"
	;G("nodeID:4871","rdf:type")="sp:CodedValue"
	;G("nodeID:4871","sp:code")="loinc:786-4"
	;G("nodeID:5221","rdf:type")="sp:QuantitativeResult"
	;G("nodeID:5221","sp:normalRange")="nodeID:5282"
	;G("nodeID:5221","sp:valueAndUnit")="nodeID:4439"
	;G("nodeID:5282","rdf:type")="sp:ValueRange"
	;G("nodeID:5282","sp:maximum")="nodeID:4866"
	;G("nodeID:5282","sp:minimum")="nodeID:4613"
	;G("smart:1540505/lab_results/2fc100850766","rdf:type")="sp:LabResult"
	;G("smart:1540505/lab_results/2fc100850766","sp:belongsTo")="smart:1540505"
	;G("smart:1540505/lab_results/2fc100850766","sp:labName")="nodeID:4871"
	;G("smart:1540505/lab_results/2fc100850766","sp:quantitativeResult")="nodeID:5221"
	;G("smart:1540505/lab_results/2fc100850766","sp:specimenCollected")="nodeID:4672"
	;
LAB(GRTN,C0SARY)	; GRTN, passed by reference,
	; is the return name of the graph created. "" if none
	; C0SARY is passed in by reference and is the NHIN array of lab
	;
	I $O(C0SARY("lab",""))="" D  Q  ;
	. I $D(DEBUG) W !,"No Labs"
	S GRTN="" ; default to no labs
	N C0SGRF
	S C0SGRF="vistaSmart:"_ZPATID_"/lab_results"
	I $D(DEBUG) W !,"Processing ",C0SGRF
	D DELGRAPH^C0XF2N(C0SGRF) ; delete the old graph
	D INITFARY^C0XF2N("C0XFARY") ; which triple store to use
	N FARY S FARY="C0XFARY"
	D USEFARY^C0XF2N(FARY)
	D VOCINIT^C0XUTIL
	;
	D STARTADD^C0XF2N ; initialize to create triples
	;
	N ZI S ZI=""
	F  S ZI=$O(C0SARY("lab",ZI)) Q:ZI=""  D  ;
	. N LRN,ZR ; ZR is the local array for building the new triples
	. S LRN=$NA(C0SARY("lab",ZI)) ; base for values in this lab result
	. ;
	. N RSLTID ; unique Id for this lab result
	. S RSLTID=C0SGRF_"/"_$$LKY17^C0XF2N ; use a random number
	. ;
	. ; i don't like this because the same labs result gets a
	. ; different ID every time it's reported. Can't trace it back to VistA
	. ; I'd rather be using id@value ie "id@value")="CH;6889372.84;67003"
	. ; .. either that or store an OID with the lab result - but that
	. ; will have to wait for the redesign of file 60.. - gpl 4/16/2012
	. ;
	. N LOINC S LOINC=$G(@LRN@("loinc@value"))
	. I LOINC="" D  Q  ;
	. . I $D(DEBUG) W !,"NO LOINC VALUE, SKIPPING"
	. N LABTST S LABTST=$G(@LRN@("test@value"))
	. I $D(DEBUG) D  ;
	. . W !,"Processing Lab Result ",RSLTID
	. . W !,"test: ",LABTST
	. . W !,"loinc: ",LOINC
	. ;
	. ; first do the base result graph
	. ;
	. S ZR("rdf:type")="sp:LabResult"
	. S ZR("sp:belongsTo")=C0SGRF ; the subject for this patient's lab results
	. ; ie /vista/smart/99912345/lab_results
	. ;
	. N LABNAME S LABNAME=$$ANONS^C0XF2N ; new node for lab name
	. S ZR("sp:labName")=LABNAME
	. ;
	. N NARRSLT S NARRSLT=$$ANONS^C0XF2N ; new node for narrative result
	. S ZR("sp:narrativeResult")=NARRSLT
	. ;
	. N QNTRSLT S QNTRSLT=$$ANONS^C0XF2N ; new node for narrative result
	. S ZR("sp:quantitativeResult")=QNTRSLT
	. ;
	. N SPECCOLL S SPECCOLL=$$ANONS^C0XF2N ; new node for specimen collected
	. S ZR("sp:specimenCollected")=SPECCOLL
	. ;
	. D ADDINN^C0XF2N(C0SGRF,RSLTID,.ZR) ; addIfNotNull the triples
	. K ZR ; clean up
	. ;
	. ; create the narrative result graph
	. ;
	. N IVAL S IVAL=$G(@LRN@("interpretation@value"))'="" D  ; H OR L
	. I IVAL'=""
	. . S ZR("rdf:type")="sp:NarrativeResult"
	. . S ZR("sp:value")=$G(@LRN@("interpretation@value")) ; H or L
	. . I ZR("sp:value")="L" S ZR("sp:value")="abnormal"
	. . I ZR("sp:value")="H" S ZR("sp:value")="abnormal"
	. . I ZR("sp:value")="HH" S ZR("sp:value")="critical"
	. . I ZR("sp:value")="LL" S ZR("sp:value")="critical"
	. . D ADDINN^C0XF2N(C0SGRF,NARRSLT,.ZR)
	. . K ZR
	. ;
	. ; create the quantitative result graph
	. ; 
	. S ZR("rdf:type")="sp:QuantitativeResult"
	. N NORMNM S NORMNM=$$ANONS^C0XF2N ; new node for normal range graph
	. N VUNM S VUNM=$$ANONS^C0XF2N ; new node for value and unit graph
	. N HASNORMAL S HASNORMAL=0
	. I $G(@LRN@("high@value"))'="" S HASNORMAL=1
	. I HASNORMAL S ZR("sp:normalRange")=NORMNM
	. S ZR("sp:valueAndUnit")=VUNM
	. D ADDINN^C0XF2N(C0SGRF,QNTRSLT,.ZR)
	. K ZR
	. ;
	. ; create the normal range graph
	. ;
	. I HASNORMAL D  ; 
	. . S ZR("rdf:type")="sp:ValueRange"
	. . N MAXNM S MAXNM=$$ANONS^C0XF2N ; new node for maximum graph
	. . N MINNM S MINNM=$$ANONS^C0XF2N ; new node for minimum graph
	. . S ZR("sp:maximum")=MAXNM
	. . S ZR("sp:minimum")=MINNM
	. . D ADDINN^C0XF2N(C0SGRF,NORMNM,.ZR)
	. . K ZR
	. . ;
	. . ; create the maximum graph
	. . ; 
	. . S ZR("rdf:type")="sp:ValueAndUnit"
	. . S ZR("sp:unit")=$G(@LRN@("units@value"))
	. . S ZR("sp:value")=$G(@LRN@("high@value"))
	. . D ADDINN^C0XF2N(C0SGRF,MAXNM,.ZR)
	. . K ZR
	. . ;
	. . ; create the minimum graph
	. . ; 
	. . S ZR("rdf:type")="sp:ValueAndUnit"
	. . S ZR("sp:unit")=$G(@LRN@("units@value"))
	. . S ZR("sp:value")=$G(@LRN@("low@value"))
	. . D ADDINN^C0XF2N(C0SGRF,MINNM,.ZR)
	. . K ZR
	. ;
	. ; create the value and unit graph
	. ;
	. S ZR("rdf:type")="sp:ValueAndUnit"
	. S ZR("sp:unit")=$G(@LRN@("units@value"))
	. I ZR("sp:unit")="" S ZR("sp:unit")="{unknown}" ; was $G(@LRN@("test@value")) gpl
	. S ZR("sp:value")=$G(@LRN@("result@value"))
	. D ADDINN^C0XF2N(C0SGRF,VUNM,.ZR)
	. K ZR
	. ;
	. ; create specimen collected graph
	. ; 
	. S ZR("rdf:type")="sp:Attribution"
	. S ZR("sp:startDate")=$$SPDATE^C0SUTIL($G(@LRN@("collected@value")))
	. D ADDINN^C0XF2N(C0SGRF,SPECCOLL,.ZR)
	. K ZR
	. ;
	. ; create lab name graph - this contains the test name and code
	. ;
	. I LOINC'="" D  ;
	. . S ZR("rdf:type")="sp:CodedValue"
	. . S ZR("dcterms:title")=LABTST
	. . N LOINCNM S LOINCNM="loinc:"_LOINC
	. . S ZR("sp:code")="loinc:"_LOINC
	. . D ADDINN^C0XF2N(C0SGRF,LABNAME,.ZR)
	. . K ZR
	. . S ZR("dcterms:identifier")=LOINC
	. . S ZR("dcterms:title")=LABTST
	. . S ZR("rdf:type")="sp:Code"
	. . S ZR("sp:system")="http://loinc.org/codes/"
	. . D ADDINN^C0XF2N(C0SGRF,LOINCNM,.ZR)
	. . K ZR
	. ;
	. ; that's all for now folks (there is more to do like reference ranges
	. ; and result values)
	. ;
	D BULKLOAD^C0XF2N(.C0XFDA)
	S GRTN=C0SGRF
	Q
	;
SAMPLE	; import sample lab tests to the triplestore
	N GN
	S GN=$NA(^rdf("lab_results"))
	D INSRDF^C0XF2N(GN,"/smart/lab/samples")
	Q
	;