Wide-Angle Tissue Doppler Imaging at High Frame Rate Using Multi-Line Transmit Beamforming: An Experimental Validation In Vivo

Wide-Angle Tissue Doppler Imaging at High Frame Rate Using Multi-Line Transmit Beamforming: An Experimental Validation In Vivo

Color tissue Doppler imaging (TDI) is a well-established methodology to assess local myocardial motion/deformation. Typically, a frame rate of ~ 200 Hz can be achieved by imaging a narrow sector ( ~ 30 ° , covering one cardiac wall) at moderate line density, using a dedicated pulse sequence and mult...

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Bibliographic Details
Published in:IEEE transactions on medical imaging Vol. 35; no. 2; pp. 521 - 528
Main Authors: Ling Tong, Ramalli, Alessandro, Tortoli, Piero, Fradella, Guiseppe, Caciolli, Sabina, Jianwen Luo, D'hooge, Jan
Format: Journal Article
Language:English
Published: United States IEEE 01-02-2016
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects:
Adult
Color
Color tissue Doppler imaging
Correlation coefficient
Doppler
Doppler effect
Echocardiography, Doppler - methods
Frames
Heart Ventricles - diagnostic imaging
high frame rate
Humans
Image color analysis
Image Processing, Computer-Assisted - methods
Image resolution
Imaging
Male
Methodology
Middle Aged
multi-line transmit beam forming
Myocardium
Strain
Temporal resolution
wide-angle field-of-view
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Description
Summary:Color tissue Doppler imaging (TDI) is a well-established methodology to assess local myocardial motion/deformation. Typically, a frame rate of ~ 200 Hz can be achieved by imaging a narrow sector ( ~ 30 ° , covering one cardiac wall) at moderate line density, using a dedicated pulse sequence and multi-line acquisition. However, a wide angle field-of-view is required in some clinical applications to image the whole left ventricle, which implies a drop in temporal resolution. Hereto, the aim of this study was to propose a novel imaging sequence using a multi-line transmit (MLT) beamforming approach to achieve high frame rate color TDI while preserving a wide field-of-view (i.e., 90 ° sector). To this end, a color MLT-TDI sequence achieving a frame rate of 208 Hz with a 90 ° -sector was implemented on an ultrasound experimental scanner interleaved with a conventional color TDI sequence achieving the same frame rate but only with a 22.5 ° -sector. Using this setup, the septal wall of 9 healthy volunteers was imaged and the corresponding velocity was extracted. The M-mode velocity images and the velocity profiles obtained from the MLT-TDI images presented physiologic patterns, very similar to those from conventional TDI. Moreover, for the peak systolic/diastolic velocities, good agreement and strong correlation between MLT-TDI and conventional TDI were found. The results thus demonstrate the feasibility of the novel MLT based TDI methodology to achieve high frame rate color TDI without compromising the field-of-view. This may open the opportunity to simultaneously assess regional myocardial function of the whole left ventricle at high temporal resolution.
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ISSN:0278-0062
1558-254X
DOI:10.1109/TMI.2015.2480061