Best-Quality Vessel Identification Using Vessel Quality Measure in Multiple-Phase Coronary CT Angiography

Lubomir Hadjiiski,Jun Wei,Jordan Liu,Aamer Chughtai,Ella Kazerooni,Prachi Agarwal,Heang-Ping Chan,Jean Kuriakose,Chuan Zhou

doi:10.1155/2016/1835297

Abstract

The detection of stenotic plaques strongly depends on the quality of the coronary arterial tree imaged with coronary CT angiography (cCTA). However, it is time consuming for the radiologist to select the best-quality vessels from the multiple-phase cCTA for interpretation in clinical practice. We are developing an automated method for selection of the best-quality vessels from coronary arterial trees in multiple-phase cCTA to facilitate radiologist's reading or computerized analysis. Our automated method consists of vessel segmentation, vessel registration, corresponding vessel branch matching, vessel quality measure (VQM) estimation, and automatic selection of best branches based on VQM. For every branch, the VQM was calculated as the average radial gradient. An observer preference study was conducted to visually compare the quality of the selected vessels. 167 corresponding branch pairs were evaluated by two radiologists. The agreement between the first radiologist and the automated selection was 76% with kappa of 0.49. The agreement between the second radiologist and the automated selection was also 76% with kappa of 0.45. The agreement between the two radiologists was 81% with kappa of 0.57. The observer preference study demonstrated the feasibility of the proposed automated method for the selection of the best-quality vessels from multiple cCTA phases.

Highlights

Coronary CT angiography is a useful noninvasive modality for imaging of the heart and evaluation of the extent of plaques
The search for atherosclerotic plaques in multiple-phase Coronary CT angiography (cCTA) volumes is time consuming for radiologists or a computer-aided detection (CAD) system
We will further develop the vessel quality measure (VQM) to improve the accuracy of the automated ranking of the corresponding branches from multiple phases

Summary

Introduction

Coronary CT angiography (cCTA) is a useful noninvasive modality for imaging of the heart and evaluation of the extent of plaques. Due to the coordinated motion of the heart chambers, different arterial segments may be blurred at different phases of the cardiac cycle [1]. To reduce this artifact, electrocardiographic (ECG) gating is employed for the acquisition of cCTA and the cCTA examinations are reconstructed at multiple cardiac phases. Electrocardiographic (ECG) gating is employed for the acquisition of cCTA and the cCTA examinations are reconstructed at multiple cardiac phases In this way, each of the coronary arterial segments has a better chance to be captured in a stationary and good-quality state in at least one of the phases. Joemai et al [5] compared the manual and the automatic method

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Discussion

Conclusion