Noise reduction using spatial-angular compounding for elastography.

TitleNoise reduction using spatial-angular compounding for elastography.
Publication TypeJournal Article
Year of Publication2004
JournalIEEE transactions on ultrasonics, ferroelectrics, and frequency control
Volume51
Issue5
Pagination510-20
Date Published2004 May
ISSN0885-3010
AbstractUltrasound elastography has developed into an imaging modality suitable for detection and diagnosis of cancers in the breast, prostate, and thyroid and for monitoring ablative therapies in the liver, kidneys, and other sites. In this article, a new approach is described that enables the reduction of noise artifacts in elastography without a significant reduction in either the contrast or spatial resolution. The technique uses angular-weighted compounding of local angular strains estimated from echo signals scanned at different insonification angles. Strain estimated along angular insonification directions can be separated into strain tensor components along the axial (direction of compression) and lateral directions. The mechanical stimulus is applied only along one direction. Angular-weighting factors are derived from the relationship between the axial and lateral strains under the assumption of tissue incompressibility. Experimental results using a uniformly elastic, tissue-mimicking phantom demonstrate the improvement in the signal-to-noise ratio obtained with angular-weighted compounding. Variation in the signal-to-noise ratio obtained using different angular increments also is investigated. Elastograms obtained from an inclusion phantom also demonstrate the improvement in contrast detail resolution obtained using spatial-angular compounding.
PubMed Linkhttp://www.ncbi.nlm.nih.gov/pubmed/15217229?dopt=Abstract
Short TitleIEEE Trans Ultrason Ferroelectr Freq Control