High-spatial resolution contrast-enhanced MRI successfully visualized the three-dimensional branching laminar architecture of ex vivo rat hearts, showing significant correlation with histology (r0=0.35, P<10^-5).
Can high-spatial resolution contrast-enhanced MRI visualize and quantify the laminar architecture of ex vivo rat hearts comparably to histology?
High-spatial resolution contrast-enhanced MRI can accurately visualize and quantify the complex, branching 3D laminar architecture of the whole rat heart, providing results comparable to traditional histology.
Effect estimate: r0 0.35
p-value: p=<10^-5
It has been shown by histology that cardiac myocytes are organized into laminae and this structure is important in function, both influencing the spread of electrical activation and enabling myocardial thickening in systole by laminar sliding. We have carried out high-spatial resolution three-dimensional MRI of the ventricular myolaminae of the entire volume of the isolated rat heart after contrast perfusion dimeglumine gadopentate (Gd-DTPA). Four ex vivo rat hearts were perfused with Gd-DTPA and fixative and high-spatial resolution MRI was performed on a 9.4T MRI system. After MRI, cryosectioning followed by histology was performed. Images from MRI and histology were aligned, described, and quantitatively compared. In the three-dimensional MR images we directly show the presence of laminae and demonstrate that these are highly branching and are absent from much of the subepicardium. We visualized these MRI volumes to demonstrate laminar architecture and quantitatively demonstrated that the structural features observed are similar to those imaged in histology. We showed qualitatively and quantitatively that laminar architecture is similar in the four hearts. MRI can be used to image the laminar architecture of ex vivo hearts in three dimensions, and the images produced are qualitatively and quantitatively comparable with histology. We have demonstrated in the rat that: 1) laminar architecture is consistent between hearts; 2) myolaminae are absent from much of the subepicardium; and 3) although localized orthotropy is present throughout the myocardium, tracked myolaminae are branching structures and do not have a discrete identity.
Gilbert et al. (Sat,) conducted a other in Healthy (n=4). High-spatial resolution contrast-enhanced MRI vs. Histology was evaluated on Correlation of in-plane sheet angles between MRI and histology (r0 0.35, p=<10^-5). High-spatial resolution contrast-enhanced MRI successfully visualized the three-dimensional branching laminar architecture of ex vivo rat hearts, showing significant correlation with histology (r0=0.35, P<10^-5).
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