TID 3215 Angiographic Lesion Analysis Template

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

Content Item Descriptions

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