imaging three-dimensional cardiac function - Walter G. O'Dell, PhD

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Annu. Rev. Biomed. Eng. 2000.2:431-456. Downloaded from arjournals.annualreviews.orgby UNIVERSITY OF ROCHESTER LIBRARY on 07/27/09. For personal use only.?IMAGING 3-D CARDIAC FUNCTION 455in MR tagged images. IEEE Trans. Med. stimulated echoes. Magn. Reson. Med. 33:Imaging 14:422–33401–878. Spencer A. 1980. Continuous Mechanics. 89. Young A, Axel L. 1992. Three-dimensionalLondon/New York: Longmanmotion and deformation of the heart79. Pelc NJ, Dragnova M, Pelc LR. 1995. wall: estimation with spatial modulation ofTracking of cyclic motion with phasecontrastcine MR velocity data. J. Magn. Radiology 185(1):241–47magnetization—a model-based approach.Reson. Imaging 5:339–4590. O’Dell WG, McVeigh ER. 1998. A modal80. Drangova M, Zhu Y, Bowman B, Pelc N. description of LV motion during ejection.1998. In vitro validation of myocardial motiontracking from phase-contrast veloc-91. Denney TJ, McVeigh E. 1997. Model-freeProc. Int. Soc. Magn. Reson. Med. 2:876ity data. Magn. Reson. Imaging 16:863– reconstruction of three-dimensional myocardialstrain from planar tagged MR im-7081. McDicken W, Hoskins P, Moran C, SutherlandG. 1996. New technology in echocar-92. Croisille P, Moore C, Judd R, Lima J, Araiages. J. Magn. Reson. 7(5):799–810diography. 1. Doppler techniques. Heart M, et al. 1999. Differentiation of viable75:2–8and nonviable myocardium by the use of82. Fleming A, Xia X, McDicken W, SutherlandG, Fenn L. 1994. Myocardial velocity old reperfused canine infarcts. Circulationthree-dimensional tagged MRI in 2-day-gradients detected by Doppler imaging. Br. 99:284–91J. Radiol. 67:679–8893. Streeter D, Hanna W. 1973. Engineering83. Fedele F, Trambaiolo P, Magni G, DeCastroS, Cacciotti L. 1998. New modalities of left ventricular myocardium. II: Fiber anglemechanics for successive states in canineregional and global left ventricular functionanalysis: state of the art. Am. J. Car-64and sarcomere length. Circ. Res. 33:656–diol. 81:49G–57G94. LeGrice I, Smaill B, Chai L, Edgar S, Gavin84. Tessler F, Kimmesmith C, Sutherland M, J, Hunter P. 1995. Laminar structure of theSchiller V, Perrella R, Grant E. 1990. Interobserverand intra-observer variability of and connective tissue architecture in theheart: ventricular myocyte arrangementDoppler peak velocity measurements— dog. Am. J. Physiol. Heart Circ. Physiol.an in vitro study. Ultrasound Med. Biol. 38:H571–8216:653–5795. Basser P, Mattiello J, LeBihan D. 1994. Estimationof the effective self-diffusion ten-85. Phillips P, Kadi A, von Ramm O. 1995.Feasibility study for a two-dimensional diagnosticultrasound velocity mapping sysson.Ser. B 103:247–54sor from the NMR spin echo. J. Magn. Retem.Ultrasound Med. Biol. 21:217–29 96. Hsu E, Muzikant A, Matulevicius S, PenlandR, Henriquez C. 1998. Magnetic res-86. Picot P, Rickey D, Mitchell R, RankinR, Fenster A. 1993. 3-Dimensional colour onance myocardial fiber-orientation mappingwith direct histological correlation.doppler imaging. Ultrasound Med. Biol.19:95–104Am. J. Physiol. Heart Circ. Physiol. 43:87. Fischer S, McKinnon G, Scheidegger M, H1627–34Prins W, Maier S, Boesiger P. 1994. True 97. Scollan D, Holmes, A, Winslow R, Fordermyocardial motion tracking. Magn. Reson. J. 1998. Histological validation of myocardialmicrostructure obtained from diffusionMed. 31:401–1388. Wedeen V, Weisskoff R, Reese T, Beache tensor magnetic resonance imaging. Am. J.G, Poncelet B, et al. 1995. Motionless Physiol. Heart Circ. Physiol. 44:H2308–movies of myocardial strain-rates using 18
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