FHIR Cross-Version Extensions package for FHIR R4B from FHIR R3
0.0.1-snapshot-2 - informative International flag

FHIR Cross-Version Extensions package for FHIR R4B from FHIR R3 - Version 0.0.1-snapshot-2. See the Directory of published versions

ValueSet: Cross-version VS for R3.MeasmntPrinciple for use in FHIR R4B

Official URL: http://hl7.org/fhir/3.0/ValueSet/R3-measurement-principle-for-R4B Version: 0.0.1-snapshot-2
Standards status: Informative Maturity Level: 1 Responsible: Health Care Devices Computable Name: R3_measurement_principle_for_R4B

This cross-version ValueSet represents concepts from http://hl7.org/fhir/ValueSet/measurement-principle 3.0.2 for use in FHIR R4B. Concepts not present here have direct equivalent mappings crossing all versions from R3 to R4B.

References

Logical Definition (CLD)

  • Include these codes as defined in http://hl7.org/fhir/measurement-principle version 3.0.2
    CodeDisplayDefinition
    otherMSP OtherMeasurement principle isn't in the list.
    chemicalMSP ChemicalMeasurement is done using the chemical principle.
    electricalMSP ElectricalMeasurement is done using the electrical principle.
    impedanceMSP ImpedanceMeasurement is done using the impedance principle.
    nuclearMSP NuclearMeasurement is done using the nuclear principle.
    opticalMSP OpticalMeasurement is done using the optical principle.
    thermalMSP ThermalMeasurement is done using the thermal principle.
    biologicalMSP BiologicalMeasurement is done using the biological principle.
    mechanicalMSP MechanicalMeasurement is done using the mechanical principle.
    acousticalMSP AcousticalMeasurement is done using the acoustical principle.
    manualMSP ManualMeasurement is done using the manual principle.

 

Expansion

This value set expansion contains 11 concepts.

CodeSystemDisplayDefinition
  otherhttp://hl7.org/fhir/measurement-principleMSP OtherMeasurement principle isn't in the list.
  chemicalhttp://hl7.org/fhir/measurement-principleMSP ChemicalMeasurement is done using the chemical principle.
  electricalhttp://hl7.org/fhir/measurement-principleMSP ElectricalMeasurement is done using the electrical principle.
  impedancehttp://hl7.org/fhir/measurement-principleMSP ImpedanceMeasurement is done using the impedance principle.
  nuclearhttp://hl7.org/fhir/measurement-principleMSP NuclearMeasurement is done using the nuclear principle.
  opticalhttp://hl7.org/fhir/measurement-principleMSP OpticalMeasurement is done using the optical principle.
  thermalhttp://hl7.org/fhir/measurement-principleMSP ThermalMeasurement is done using the thermal principle.
  biologicalhttp://hl7.org/fhir/measurement-principleMSP BiologicalMeasurement is done using the biological principle.
  mechanicalhttp://hl7.org/fhir/measurement-principleMSP MechanicalMeasurement is done using the mechanical principle.
  acousticalhttp://hl7.org/fhir/measurement-principleMSP AcousticalMeasurement is done using the acoustical principle.
  manualhttp://hl7.org/fhir/measurement-principleMSP ManualMeasurement is done using the manual principle.

Explanation of the columns that may appear on this page:

Level A few code lists that FHIR defines are hierarchical - each code is assigned a level. In this scheme, some codes are under other codes, and imply that the code they are under also applies
System The source of the definition of the code (when the value set draws in codes defined elsewhere)
Code The code (used as the code in the resource instance)
Display The display (used in the display element of a Coding). If there is no display, implementers should not simply display the code, but map the concept into their application
Definition An explanation of the meaning of the concept
Comments Additional notes about how to use the code