Abstract
Intravascular optical coherence tomography (IV-OCT) is an imaging modality that can be used for the assessment of intracoronary stents. Recent publications pointed to the fact that 3D visualizations have potential advantages compared to conventional 2D representations. However, 3D imaging still requires a time consuming manual procedure not suitable for on-line application during coronary interventions. We propose an algorithm for a rapid and fully automatic 3D visualization of IV-OCT pullbacks. IV-OCT images are first processed for the segmentation of the different structures. This also allows for automatic pullback calibration. Then, according to the segmentation results, different structures are depicted with different colors to visualize the vessel wall, the stent and the guide-wire in details. Final 3D rendering results are obtained through the use of a commercial 3D DICOM viewer. Manual analysis was used as ground-truth for the validation of the segmentation algorithms. A correlation value of 0.99 and good limits of agreement (Bland Altman statistics) were found over 250 images randomly extracted from 25 in vivo pullbacks. Moreover, 3D rendering was compared to angiography, pictures of deployed stents made available by the manufacturers and to conventional 2D imaging corroborating visualization results. Computational time for the visualization of an entire data sets resulted to be ~74 sec. The proposed method allows for the on-line use of 3D IV-OCT during percutaneous coronary interventions, potentially allowing treatments optimization.
Highlights
Intravascular optical coherence tomography (IV-OCT) is a catheter based imaging modality for the visualization of coronary arteries [1]
IV-OCT is increasingly being used during percutaneous coronary intervention (PCI) to improve the understanding of the anatomy of complex lesions and to elucidate the mechanisms of atherosclerosis
A correlation coefficient of 0.99 was found in both cases and Bland-Altman statistic did not show any bias together with narrow limits of agreement: mean bias ~–0.2 ± 13.7 for the GW segmentation algorithm and ~–0.5 ± 4.0 for the imaging catheter segmentation algorithm
Summary
Intravascular optical coherence tomography (IV-OCT) is a catheter based imaging modality for the visualization of coronary arteries [1]. When compared to other vascular imaging modalities, IV-OCT presents an axial resolution (~10-15 μm) improved of approximately one order of magnitude than intravascular ultrasound (IVUS) (>100 μm), coronary angiography (~200 μm) and computed tomography (CT) (>300 μm) [2]. It was shown that 3D IV-OCT may be of help for a better characterization of stent malapposition and identification of thrombus, guiding stent postdilation and aspiration thrombectomy [9]. It allows for the assessment of jailed side
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