TruHARP: single breath-hold MRI for high resolution cardiac motion and strain quantification

Author

Agarwal, Harsh K. ; Abd-Elmoniem, Khaled Z. ; Prince, Jerry L.

Author_Institution

Dept. of Electr. & Comput. Eng., Johns Hopkins Univ., Baltimore, MD, USA

fYear

2009

fDate

June 28 2009-July 1 2009

Firstpage

458

Lastpage

461

Abstract

MRI techniques for tissue motion and strain quantifications have limited resolution because of interference from the conjugate echo or spectral peak in Fourier space. Methods have been proposed to remove this interference in order to improve resolution; however, these methods are clinically impractical due to long image acquisition time. In this paper, we propose TruHARP, an MRI motion and strain quantification methodology that involves a novel single breath-hold imaging protocol. In post-processing, TruHARP separates the spectral peaks in the acquired datasets, enabling high resolution motion and strain quantification. The impact of high resolution on circumferential and radial strain is studied using a realistic simulation and the improvement in strain maps is demonstrated in an in-vivo human study.

Keywords

biological tissues; biomechanics; biomedical MRI; cardiology; image motion analysis; medical image processing; Fourier space; MRI; cardiology; circumferential strain; high resolution motion quantification; high resolution strain quantification; interference; myocardial; radial strain; single breath-hold imaging protocol; tissue; Capacitive sensors; Echo interference; High-resolution imaging; Humans; Image resolution; Magnetic resonance imaging; Motion estimation; Myocardium; Protocols; Tagging; HARP; MRI; motion and strain estimation; tagging;

fLanguage

English

Publisher

ieee

Conference_Titel

Biomedical Imaging: From Nano to Macro, 2009. ISBI '09. IEEE International Symposium on

Conference_Location

Boston, MA

ISSN

1945-7928

Print_ISBN

978-1-4244-3931-7

Electronic_ISBN

1945-7928

Type

conf

DOI

10.1109/ISBI.2009.5193083

Filename

5193083