Four-dimensional (4D) flow of the whole heart and great vessels using real-time respiratory self-gating
- Authors:
- DOI:
- 10.1002/mrm.22090
- Abstract:
- Four-dimensional (4D) flow imaging has been used to study flow patterns and pathophysiology, usually focused on specific thoracic vessels and cardiac chambers. Whole-heart 4D flow at high measurement accuracy covering the entire thoracic cardiovascular system would be desirable to simplify and improve hemodynamic assessment. This has been a challenge because compensation of respiratory motion is difficult to achieve, but it is paramount to limit artifacts and improve accuracy. In this work we propose a self-gating technique for respiratory motion-compensation integrated into a whole-heart 4D flow acquisition that overcomes these challenges. Flow components are measured in all three directions for each pixel over the complete cardiac cycle, and 1D volume projections are obtained at certain time intervals for respiratory gating in real time during the acquisition. The technique was tested in 15 volunteers, in which stroke volumes (SVs) in the great arteries showed excellent agreement with standard 2D phase-contrast (PC) scans. In contrast, nongated 4D flow with two averages had substantial disagreement with 2D flow. Applied to patients with congenital cardiac left-to-right shunting, the precision of flux data was highly beneficial. The methodology presented here has the potential to allow a complete study of flow pathophysiology of the thoracic cardiovascular system from a single free-breathing scan.
- Type:
- Journal article
- Language:
- English
- Published in:
- Magnetic Resonance in Medicine, 2009, Vol 62, Issue 4, p. 984-992
- Keywords:
- 4D flow imaging; whole heart; self-gating; Hemodynamic assessment; congenital heart disease
- Main Research Area:
- Science/technology
- Publication Status:
- Published
- Review type:
- Peer Review
- Submission year:
- 2009
- Scientific Level:
- Scientific
- ID:
- 3774040
0000-0002-8482-7667
