Improved real-time blood flow velocity quantification via application of the Karhunen-Loeve transform for increased sign
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POSTER PRESENTATION
Open Access
Improved real-time blood flow velocity quantification via application of the Karhunen-Loeve transform for increased signal-to-noise ratio Samuel Ting*, Yu Ding, Orlando P Simonetti From 2011 SCMR/Euro CMR Joint Scientific Sessions Nice, France. 3-6 February 2011 Objective Evaluate the application of temporal filtering via the Karhunen-Loeve Transform for increasing signal-tonoise ratio in real-time blood flow quantification. Background Real-time blood flow velocity quantification requires fast acquisition time and both high spatial and temporal resolution in order to capture clinically relevant features. Multi-coil parallel imaging techniques trade fast realtime cine acquisition with high temporal resolution for lower signal quality. Methods for increasing signal-tonoise ratio (SNR) will allow higher acceleration rates in parallel imaging, leading to faster acquisition times in
the context of exercise stress while maintaining signal quality. Increased SNR via the Karhunen-Loeve Transform [1] (KLT) is achieved by decomposing a temporal cine sequence into a series of eigenmodes where the signal of interest is localized in a subset of eigenmodes and eliminating noise-only eigenmodes.
Methods KLT was applied retrospectively to ten through-plane real-time velocity data sets of the aorta at rest acquired at 1.5T (Avanto, Siemens, Malvern, PA). Optimal identification of noise-only eigenmodes was determined using the Marcenko-Pastur Law [2], and SNR gain was
Figure 1 Velocity profiles showing peak velocity measurement for original real-time cine (left) and KLT filtered cine (right).
The Ohio State University, Columbus, OH, USA
© 2011 Ting et al; licensee BioMed Central Ltd. This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Ting et al. Journal of Cardiovascular Magnetic Resonance 2011, 13(Suppl 1):P38 http://jcmr-online.com/content/13/S1/P38
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calculated as the square root of the ratio of noise-only eigenmodes to total number of eigenmodes.
Results Optimal selection of SNR gain via the Marcenko-Pastur Law results in SNR increase of 61.5 ± 3.7% (mean ± standard deviation) with no statistically significant difference in peak velocity measurement (Difference: 1.45 ± 2.98%, p-value: 0.2794). Figure 1 illustrates the minimal difference in peak velocity measurement due to KLT filtering. Conclusions Temporal filtering of real-time velocity images via KLT results in significant gains in SNR with minimal velocity profile smoothing and minimal effect on peak velocity measurement and may be useful in improved blood flow velocity quantification. Published: 2 February 2011 References 1. Phys. Med. Biol 2009, 54:3909. 2. Mag. Res. Med. 2010, 63:782-789. doi:10.1186/1532-429X-13-S1-P38 Cite this article as: Ting et al.: Improved real-time blood flow velocity quantifi
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