Key frames extraction and application in intravascular ultrasound pullback sequences based on manifold learning
- VernacularTitle:基于流形学习的血管内超声图像序列关键帧的提取及应用
- Author:
Haiqun MAO
1
;
Feng YANG
;
Mudan LIN
;
Zheng HUANG
;
Kai CUI
;
Xinxin WANG
Author Information
1. 南方医科大学生物医学工程学院
- Keywords:
intravascular ultrasound imaging;
gating;
key frames;
manifold learning
- From:
Journal of Southern Medical University
2015;(4):492-498
- CountryChina
- Language:Chinese
-
Abstract:
Objective We propose an image-based key frames gating method for intravascular ultrasound (IVUS) sequence based on manifold learning to reduce motion artifacts in IVUS longitudinal cuts. Methods We achieved the gating with Laplacian eigenmaps, a manifold learning technique, to determine the low-dimensional manifold embedded in the high-dimensional image space. A distance function was constructed by the low-dimensional feature vectors to reflect the heart movement. The IVUS images were classified as end-diastolic and non-end-diastolic based on the distance function, and the IVUS images collected in end-diastolic stage constitutes the key frames gating sequences. Result We tested the algorithm on 13 in vivo clinical IVUS sequences (images 915 ± 142 frames, coronary segments length 15.24 ± 2.37 mm) to calculate the vessel volume, lumen volume, and the mean plaque burden of the original and gated sequences. Statistical results showed that both the vessel volume and lumen volume measured from the gated sequences were significantly smaller than the original ones, indicating that the gated sequences were more stable;the mean plaque burden was comparable between the original and gated sequences to meet the need in clinical diagnosis and treatment. In the longitudinal views, the gated sequences had less saw tooth shape than the original ones with a similar trend and a good continuity. We also compared our method with an existing gating method. Conclusion The proposed algorithm is simple and robust, and the gating sequences can effectively reduce motion artifacts in IVUS longitudinal cuts.
