minimal Common Oncology Data Elements (mCODE) Implementation Guide
2.1.0 - STU 2.1 United States of America flag

This page is part of the HL7 FHIR Implementation Guide: minimal Common Oncology Data Elements (mCODE) Release 1 - US Realm | STU1 (v2.1.0: STU 2) based on FHIR R4. This is the current published version in its permanent home (it will always be available at this URL). For a full list of available versions, see the Directory of published versions

ValueSet: Tumor Size Method Value Set

Official URL: http://hl7.org/fhir/us/mcode/ValueSet/mcode-tumor-size-method-vs Version: 2.1.0
Active as of 2023-03-21 Computable Name: TumorSizeMethodVS

Copyright/Legal: This value set includes content from SNOMED CT, which is copyright © 2002+ International Health Terminology Standards Development Organisation (IHTSDO), and distributed by agreement between IHTSDO and HL7. Implementer use of SNOMED CT is not covered by this agreement

Code for methods of measuring tumor size, including physical examination, pathology, and imaging.

References

Usage

There are 3 broad categories of tumor size measurement methods:

  1. Pathology
    • Macroscopic size from pathology report is represented by SCT 787377000 ("Gross examination and sampling of tissue specimen (procedure)")
    • Microscopic size from pathology report is represented by SCT 104157003 ("Light microscopy (procedure)")
  2. Physical exam, represented by SCT 5880005 ("Physical examination procedure (procedure)")
  3. Diagnostic imaging
    • Imaging modalities commonly used for tumor sizing
      • X-ray represented by SCT 363680008 ("Physical examination procedure (procedure)")
      • Ultrasound represented by SCT 16310003 ("Diagnostic ultrasonography (procedure)")
      • Magnetic Resonance Imaging (MRI) represented by SCT 113091000 ("Magnetic resonance imaging (procedure)")
      • Computerized axial tomography (CAT) represented by SCT 77477000 ("Computerized axial tomography (procedure)")
      • Positron emission tomograph (PET) represented by SCT 82918005 ("Positron emission tomography (procedure)")
    • Imaging modalities that are less commonly used for tumor sizing
      • Imaging represented by SCT 363679005 ("Imaging (procedure)")

Logical Definition (CLD)

  • Include these codes as defined in http://snomed.info/sct
    CodeDisplay
    787377000Gross examination and sampling of tissue specimen (procedure)
    104157003Light microscopy (procedure)
    5880005Physical examination procedure (procedure)
    16310003Diagnostic ultrasonography (procedure)
    113091000Magnetic resonance imaging (procedure)
    77477000Computerized axial tomography (procedure)
    82918005Positron emission tomography (procedure)
    363680008Radiographic imaging procedure (procedure)
    363679005Imaging (procedure)

 

Expansion

This value set contains 9 concepts

Expansion based on SNOMED CT United States edition 01-Sept 2022

CodeSystemDisplay
  787377000http://snomed.info/sctGross examination and sampling of tissue specimen (procedure)
  104157003http://snomed.info/sctLight microscopy (procedure)
  5880005http://snomed.info/sctPhysical examination procedure (procedure)
  16310003http://snomed.info/sctDiagnostic ultrasonography (procedure)
  113091000http://snomed.info/sctMagnetic resonance imaging (procedure)
  77477000http://snomed.info/sctComputerized axial tomography (procedure)
  82918005http://snomed.info/sctPositron emission tomography (procedure)
  363680008http://snomed.info/sctRadiographic imaging procedure (procedure)
  363679005http://snomed.info/sctImaging (procedure)

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