This page is part of the Breast Cancer Data Logical Models and FHIR Profiles (v0.1.0: STU 1 Draft) based on FHIR R3. . For a full list of available versions, see the Directory of published versions
<StructureDefinition xmlns="http://hl7.org/fhir"> <id value="shr-core-Quantity-model"/> <text> <status value="generated"/> <div xmlns="http://www.w3.org/1999/xhtml"> <p><b>BC Quantity Logical Model</b></p> <p>A quantity with units, whose value may be bounded from above or below, as defined in FHIR. This definition is not fully consistent with CIMI V0.0.4 (whose definition of Quantity lacks a comparator, but includes numerical precision). Complex data types that appear frequently in FHIR have not been profiled, even if CIMI defines them differently. This choice means that the breast cancer profiles use the native FHIR datatype, rather than having to substitute a CIMI profile everywhere the native type is used.</p> </div> </text> <url value="http://hl7.org/fhir/us/breastcancer/StructureDefinition/shr-core-Quantity-model"/> <identifier> <system value="http://hl7.org/fhir/us/breastcancer"/> <value value="shr.core.Quantity"/> </identifier> <version value="0.1.0"/> <name value="QuantityModel"/> <title value="BC Quantity Logical Model"/> <status value="draft"/> <date value="2018-04-01T00:00:00+11:00"/> <publisher value="The HL7 Cancer Interoperability Group sponsored by Clinical Interoperability Council Work Group (CIC)"/> <contact> <telecom> <system value="url"/> <value value="http://standardhealthrecord.org"/> </telecom> </contact> <description value="A quantity with units, whose value may be bounded from above or below, as defined in FHIR. This definition is not fully consistent with CIMI V0.0.4 (whose definition of Quantity lacks a comparator, but includes numerical precision). Complex data types that appear frequently in FHIR have not been profiled, even if CIMI defines them differently. This choice means that the breast cancer profiles use the native FHIR datatype, rather than having to substitute a CIMI profile everywhere the native type is used."/> <kind value="logical"/> <abstract value="false"/> <type value="shr-core-Quantity-model"/> <baseDefinition value="http://hl7.org/fhir/StructureDefinition/Element"/> <derivation value="specialization"/> <snapshot> <element id="shr-core-Quantity-model"> <path value="shr-core-Quantity-model"/> <definition value="A quantity with units, whose value may be bounded from above or below, as defined in FHIR. This definition is not fully consistent with CIMI V0.0.4 (whose definition of Quantity lacks a comparator, but includes numerical precision). Complex data types that appear frequently in FHIR have not been profiled, even if CIMI defines them differently. This choice means that the breast cancer profiles use the native FHIR datatype, rather than having to substitute a CIMI profile everywhere the native type is used."/> <min value="0"/> <max value="*"/> <base> <path value="shr-core-Quantity-model"/> <min value="0"/> <max value="*"/> </base> <mustSupport value="false"/> <isModifier value="false"/> <isSummary value="false"/> </element> <element id="shr-core-Quantity-model.value"> <path value="shr-core-Quantity-model.value"/> <short value="Decimal representing a quantity with units, whose value may be bounded from above or below, as defined in FHIR."/> <definition value="Decimal representing a quantity with units, whose value may be bounded from above or below, as defined in FHIR. This definition is not fully consistent with CIMI V0.0.4 (whose definition of Quantity lacks a comparator, but includes numerical precision). Complex data types that appear frequently in FHIR have not been profiled, even if CIMI defines them differently. This choice means that the breast cancer profiles use the native FHIR datatype, rather than having to substitute a CIMI profile everywhere the native type is used."/> <alias value="decimal"/> <min value="0"/> <max value="1"/> <base> <path value="shr-core-Quantity-model.value"/> <min value="0"/> <max value="1"/> </base> <type> <code value="decimal"/> </type> <mustSupport value="false"/> <isModifier value="false"/> <isSummary value="false"/> </element> <element id="shr-core-Quantity-model.comparator"> <path value="shr-core-Quantity-model.comparator"/> <short value="Comparator"/> <definition value="Comparator"/> <min value="0"/> <max value="1"/> <base> <path value="shr-core-Quantity-model.comparator"/> <min value="0"/> <max value="1"/> </base> <type> <code value="http://hl7.org/fhir/us/breastcancer/StructureDefinition/shr-core-Comparator-model"/> </type> <mustSupport value="false"/> <isModifier value="false"/> <isSummary value="false"/> </element> <element id="shr-core-Quantity-model.units"> <path value="shr-core-Quantity-model.units"/> <short value="Code for the unit of measure of the quantity."/> <definition value="Code for the unit of measure of the quantity."/> <min value="0"/> <max value="1"/> <base> <path value="shr-core-Quantity-model.units"/> <min value="0"/> <max value="1"/> </base> <type> <code value="http://hl7.org/fhir/us/breastcancer/StructureDefinition/shr-core-Units-model"/> </type> <mustSupport value="false"/> <isModifier value="false"/> <isSummary value="false"/> </element> </snapshot> <differential> <element id="shr-core-Quantity-model"> <path value="shr-core-Quantity-model"/> <definition value="A quantity with units, whose value may be bounded from above or below, as defined in FHIR. This definition is not fully consistent with CIMI V0.0.4 (whose definition of Quantity lacks a comparator, but includes numerical precision). Complex data types that appear frequently in FHIR have not been profiled, even if CIMI defines them differently. This choice means that the breast cancer profiles use the native FHIR datatype, rather than having to substitute a CIMI profile everywhere the native type is used."/> <min value="0"/> <max value="*"/> <base> <path value="shr-core-Quantity-model"/> <min value="0"/> <max value="*"/> </base> <mustSupport value="false"/> <isModifier value="false"/> <isSummary value="false"/> </element> <element id="shr-core-Quantity-model.value"> <path value="shr-core-Quantity-model.value"/> <short value="Decimal representing a quantity with units, whose value may be bounded from above or below, as defined in FHIR."/> <definition value="Decimal representing a quantity with units, whose value may be bounded from above or below, as defined in FHIR. This definition is not fully consistent with CIMI V0.0.4 (whose definition of Quantity lacks a comparator, but includes numerical precision). Complex data types that appear frequently in FHIR have not been profiled, even if CIMI defines them differently. This choice means that the breast cancer profiles use the native FHIR datatype, rather than having to substitute a CIMI profile everywhere the native type is used."/> <alias value="decimal"/> <min value="0"/> <max value="1"/> <base> <path value="shr-core-Quantity-model.value"/> <min value="0"/> <max value="1"/> </base> <type> <code value="decimal"/> </type> <mustSupport value="false"/> <isModifier value="false"/> <isSummary value="false"/> </element> <element id="shr-core-Quantity-model.comparator"> <path value="shr-core-Quantity-model.comparator"/> <short value="Comparator"/> <definition value="Comparator"/> <min value="0"/> <max value="1"/> <base> <path value="shr-core-Quantity-model.comparator"/> <min value="0"/> <max value="1"/> </base> <type> <code value="http://hl7.org/fhir/us/breastcancer/StructureDefinition/shr-core-Comparator-model"/> </type> <mustSupport value="false"/> <isModifier value="false"/> <isSummary value="false"/> </element> <element id="shr-core-Quantity-model.units"> <path value="shr-core-Quantity-model.units"/> <short value="Code for the unit of measure of the quantity."/> <definition value="Code for the unit of measure of the quantity."/> <min value="0"/> <max value="1"/> <base> <path value="shr-core-Quantity-model.units"/> <min value="0"/> <max value="1"/> </base> <type> <code value="http://hl7.org/fhir/us/breastcancer/StructureDefinition/shr-core-Units-model"/> </type> <mustSupport value="false"/> <isModifier value="false"/> <isSummary value="false"/> </element> </differential> </StructureDefinition>