Send to

Choose Destination
EuroIntervention. 2016 Sep 18;12(7):845-54. doi: 10.4244/EIJV12I7A139.

A computational atlas of normal coronary artery anatomy.

Author information

University of Auckland, Auckland, New Zealand.



The aim of this study was to define the shape variations, including diameters and angles, of the major coronary artery bifurcations.


Computed tomographic angiograms from 300 adults with a zero calcium score and no stenoses were segmented for centreline and luminal models. A computational atlas was constructed enabling automatic quantification of 3D angles, diameters and lengths of the coronary tree. The diameter (mean±SD) of the left main coronary was 3.5±0.8 mm and the length 10.5±5.3 mm. The left main bifurcation angle (distal angle or angle B) was 89±21° for cases with, and 75±23° for those without an intermediate artery (p<0.001). Analogous measurements of diameter and angle were tabulated for the other major bifurcations (left anterior descending/diagonal, circumflex/obtuse marginal and right coronary crux). Novel 3D angle definitions are proposed and analysed.


A computational atlas of normal coronary artery anatomy provides distributions of diameter, lengths and bifurcation angles as well as more complex shape analysis. These data define normal anatomical variation, facilitating stent design, selection and optimal treatment strategy. These population models are necessary for accurate computational flow dynamics, can be 3D printed for bench testing bifurcation stents and deployment strategies, and can aid in the discussion of different approaches to the treatment of coronary bifurcations.

[Indexed for MEDLINE]
Free full text

Supplemental Content

Full text links

Icon for Europa Digital & Publishing
Loading ...
Support Center