Regional ventricular wall thickening reflects changes in cardiac fiber and sheet structure during contraction: quantification with diffusion tensor MRI

doi:10.1152/ajpheart.00041.2005

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Regional ventricular wall thickening reflects changes in cardiac fiber and sheet structure during contraction: quantification with diffusion tensor MRI

Junjie Chen,¹^,2 Wei Liu,¹^,2 Huiying Zhang,¹ Liz Lacy,¹ Xiaoxia Yang,¹ Sheng-Kwei Song,³ Samuel A. Wickline,¹^,2 and Xin Yu¹^,2

¹Cardiovascular Magnetic Resonance Laboratories, Cardiovascular Division, Department of Medicine; ²Department of Biomedical Engineering; and ³Departments of Chemistry and Radiology, Washington University, St. Louis, Missouri

Submitted 14 January 2005 ; accepted in final form 21 June 2005

Dynamic changes of myocardial fiber and sheet structure arekey determinants of regional ventricular function. However,quantitative characterization of the contraction-related changesin fiber and sheet structure has not been reported. The objectiveof this study was to quantify cardiac fiber and sheet structureat selected phases of the cardiac cycle. Diffusion tensor MRIwas performed on isolated, perfused Sprague-Dawley rat heartsarrested or fixed in three states as follows: 1) potassium arrested(PA), which represents end diastole; 2) barium-induced contracturewith volume (BV+), which represents isovolumic contraction orearly systole; and 3) barium-induced contracture without volume(BV–), which represents end systole. Myocardial fiberorientations at the base, midventricle, and apex were determinedfrom the primary eigenvectors of the diffusion tensor. Sheetstructure was determined from the secondary and tertiary eigenvectorsat the same locations. We observed that the transmural distributionof the myofiber helix angle remained unchanged as contractionproceeded from PA to BV+, but endocardial and epicardial fibersbecame more longitudinally orientated in the BV– group.Although sheet structure exhibited significant regional variations,changes in sheet structure during myocardial contraction wererelatively uniform across regions. The magnitude of the sheetangle, which is an index of local sheet slope, decreased by23 and 44% in BV+ and BV– groups, respectively, whichsuggests more radial orientation of the sheet. In summary, wehave shown for the first time that geometric changes in bothsheet and fiber orientation provide a substantial mechanismfor radial wall thickening independent of active componentsdue to myofiber shortening. Our results provide direct evidencethat sheet reorientation is a primary determinant of myocardialwall thickening.

magnetic resonance imaging; potassium arrest; barium contracture; myofiber; reorientation; myocyte shortening

Address for reprint requests and other correspondence: Xin Yu, Dept. of Biomedical Engineering, Case Western Reserve Univ., Wickenden 319, 10900 Euclid Ave., Cleveland, OH 44106 (E-mail: Xin.Yu{at}case.edu)

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