The Angiographic Lesion Analysis Template consists of a CONTAINER providing quantitative arterial analysis measurements derived for an obstruction in a total analyzed segment.

TID 3215ANGIOGRAPHIC LESION ANALYSISType: Extensible Order: Significant

NL | Rel with Parent | VT | Concept Name | VM | Req Type | Condition | Value Set Constraint | |

2 | > | CONTAINS | TEXT | EV (121151, DCM, “Lesion Identifier”) | 1 | M | ||

3 | >> | HAS PROPERTIES | CODE | EV (G-C0E3, SRT, “Finding Site”) | 1 | M | DCID (3604) Arterial lesion locations | |

4 | >>> | HAS CONCEPT MOD | CODE | EV (G-A1F8, SRT, “Topographical modifier”) | 1 | U | DCID (3019) Cardio-vascular Anatomic Location Modifiers | |

5 | > | CONTAINS | INCLUDE | DTID (300) Measurement | 1 | M | $Measurement = EV (G-0364, SRT, “Vessel Luminal Diameter”) $Derivation =(R-404FB, SRT, “Minimum”) $Unit = DT (mm, UCUM, “mm”) | |

6 | > | CONTAINS | INCLUDE | DTID (300) Measurement | 1-n | U | $Measurement = EV (G-0366, SRT, “Vessel Lumen Cross-Sectional Area”) $Method = DCID (3470) Vessel Lumen Cross-Sectional Area Calculation Methods $Derivation =(R-404FB, SRT, “Minimum”) $Unit = DT (mm2, UCUM, “mm^2”) | |

7 | > | CONTAINS | CODE | EV (122430, DCM, “Reference Method”) | 1 | M | DCID (3465) QA Reference Method | |

8 | > | CONTAINS | CONTAINER | EV (122438, DCM, “Reference Points”) | 1 | U | ||

9 | >> | CONTAINS | NUM | EV (122337, DCM, “Relative Position”) | 1-n | M | $Unit = DT (mm, UCUM, “mm”) | |

10 | >>> | HAS PROPERTIES | INCLUDE | DTID (300) Measurement | 1 | U | $Measurement = EV (G-0364, SRT, “Vessel Luminal Diameter”) $Unit = DT (mm, UCUM, “mm”) | |

11 | > | CONTAINS | INCLUDE | DTID (300) Measurement | 1 | M | $Measurement = EV (G-0364, SRT, “Vessel Luminal Diameter”) $TargetSite = (122382, DCM, ”Site of Luminal Minimum”) $Unit = DT (mm, UCUM, “mm”) | |

12 | > | CONTAINS | INCLUDE | DTID (300) Measurement | 1 | U | $Measurement = EV (G-0366, SRT, “Vessel Lumen Cross-Sectional Area”) $Derivation = EV (122404, DCM, “Reconstructed”) $TargetSite = (122382, DCM, ”Site of Luminal Minimum”) $Unit = DT (mm2, UCUM, “mm^2”) | |

13 | > | CONTAINS | INCLUDE | DTID (300) Measurement | 1 | M | $Measurement = EV (G-0364, SRT, “Vessel Luminal Diameter”) $Derivation = EV (R-41D2D, SRT, “Calculated”) $TargetSite =EV (122481, DCM, “Contour Start”) $Unit = DT (mm, UCUM, “mm”) | |

14 | > | CONTAINS | INCLUDE | DTID (300) Measurement | 1 | M | $Measurement = EV (G-0364, SRT, “Vessel Luminal Diameter”) $Derivation = EV (R-41D2D, SRT, “Calculated”) $TargetSite = EV (122482, DCM, “Contour End”) $Unit = DT (mm, UCUM, “mm”) | |

15 | > | CONTAINS | INCLUDE | DTID (3218) Position in Arterial Segment | 1 | M | ||

16 | > | CONTAINS | CONTAINER | EV (122517, DCM, “Densitometric Luminal Cross-sectional Area Graph”) | 1 | U | ||

17 | >> | CONTAINS | NUM | EV (122511, DCM, “Graph Increment”) | 1 | M | Value = 1 Units = DT ({pixels}, UCUM, “pixels”) | |

18 | >> | CONTAINS | INCLUDE | DTID (300) Measurement | 1-n | M | $Measurement = EV (G-0366, SRT, ”Vessel Lumen Cross-Sectional Area”) $Unit = (mm2, UCUM, “mm^2”) | |

19 | > | CONTAINS | INCLUDE | DTID (300) Measurement | 1 | U | $Measurement = EV (G-0366, SRT, “Vessel Lumen Cross-Sectional Area”) $Derivation = EV (R-41D2D, SRT, “Calculated”) $Method = EV(122474, DCM, “Densitometric method”) $TargetSite =EV (122481, DCM, “Contour Start”) $Unit = (mm2, UCUM, “mm^2”) | |

20 | > | CONTAINS | INCLUDE | DTID (300) Measurement | 1 | U | $Measurement = EV (G-0366, SRT, “Vessel Lumen Cross-Sectional Area”) $Derivation = EV (R-41D2D, SRT, “Calculated”) $Method = EV(122474, DCM, “Densitometric method”) $TargetSite = EV (122482, DCM, “Contour End”) $Unit = (mm2, UCUM, “mm^2”) | |

21 | > | CONTAINS | INCLUDE | DTID (300) Measurement | 1 | M | $Measurement = EV (R-101BC, SRT, “Lesion Length”) $Unit = DT (mm, UCUM, “mm”) | |

22 | > | CONTAINS | INCLUDE | DTID (300) Measurement | 1 | M | $Measurement = EV (R-101BB, SRT, “Lumen Diameter Stenosis”) $Unit = DT (%, UCUM, “%”) | |

23 | > | CONTAINS | INCLUDE | DTID (300) Measurement | 1-n | U | $Measurement = EV (R-101BA, SRT, “Lumen Area Stenosis”) $Method = DCID (3470) Vessel Lumen Cross-Sectional Area Calculation Methods $Unit = DT (%, UCUM, “%”) | |

24 | > | CONTAINS | INCLUDE | DTID (300) Measurement | 1-n | U | $Measurement = EV (122372, DCM, “Lumen Volume”) $Method = DCID (3470) Vessel Lumen Cross-Sectional Area Calculation Methods $Unit = DT (mm3, UCUM, “mm^3”) | |

25 | > | CONTAINS | INCLUDE | DTID (300) Measurement | 1 | U | $Measurement = EV (122542, DCM, “Plaque Area”) $Unit = DT (mm2, UCUM, “mm^2”) | |

26 | > | CONTAINS | INCLUDE | DTID (300) Measurement | 1 | U | $Measurement = EV (122376, DCM, “Total Plaque Volume”) $Unit = DT (mm3, UCUM, “mm^3”) | |

27 | > | CONTAINS | INCLUDE | DTID (300) Measurement | 1 | U | $Measurement = EV (122544, DCM, “Diameter Symmetry”) $Unit = DT ({ratio}, UCUM, “ratio”) | |

28 | > | CONTAINS | INCLUDE | DTID (300) Measurement | 1 | U | $Measurement = EV (122545, DCM, “Area Symmetry”) $Unit = DT ({ratio}, UCUM, “ratio”) | |

29 | > | CONTAINS | INCLUDE | DTID (300) Measurement | 1 | U | $Measurement = EV (122546, DCM, “Inflow Angle”) $Unit = DT (deg, UCUM, “degrees”) | |

30 | > | CONTAINS | INCLUDE | DTID (300) Measurement | 1 | U | $Measurement = EV (122547, DCM, “Outflow Angle”) $Unit = DT (deg, UCUM, “degrees”) | |

31 | > | CONTAINS | INCLUDE | DTID (3216) Stenotic Flow Reserve | 1 | U | ||

32 | > | CONTAINS | IMAGE | No purpose of reference | 1 | U |

Row 8 | Set of user defined reference position for method that requires local reference position. |

Row 9 | Distance of local reference position from an arbitrary landmark. |

Row 10 | Diameter at a local reference position. |

Row 11 | The reference diameter for the arterial lesion calculated with the applicable reference method |

Row 12 | The reference area for the arterial lesion calculated with the applicable reference method |

Row 13 | The diameter measurement at the start of the reconstruction line in the diameter graph (TID 3214 Row 14) |

Row 14 | The diameter measurement at the end of the reconstruction line in the diameter graph (TID 3214 Row 14) |

Row 15 | The positions of the lesion, borders of the lesion, etc. |

Row 16 | The graph with the calculated cross sectional area results based on the densitometric method |

Row 18 | The cross sectional area measurements calculated based on the densitometric method |

Row 19 | The cross sectional area measurement at the start of the reconstruction line in the area graph |

R0w 20 | The cross sectional area measurement at the end of the reconstruction line in the area graph |

Row 21 | Measured along the midline of the left and right contour |

Row 22 | The diameter stenosis is calculated as follows: (Reference Luminal Diameter – Minimum Luminal Diameter / Reference Luminal Diameter) * 100% |

Row 23 | The circular and the densitometric area stenosis are calculated respectively as: (Reference Vessel Lumen Cross-Sectional Area – Minimum Luminal Circular Area / Reference Vessel Lumen Cross-Sectional Area) * 100% (Reference Vessel Lumen Cross-Sectional Area – Minimum Luminal Densitometric Area / Reference Vessel Lumen Cross-Sectional Area) * 100% |

Row 24 | Estimated lumen volume between proximal border and distal border of lesion (TID 3218, row 1 and 2) |

Row 32 | Secondary Capture image with obstruction analysis contour |