Abstract
Purpose
To investigate the feasibility of radial phase contrast MR imaging to measure in vivo pulse wave velocity (PWV) and wall shear stress (WSS) in small animals on a 7 Tesla scanner.
Materials and Methods
The aortic compliance of 9βmonthβold ApoE deficient (ApoEβKO) mice (n = 10) on a normal diet was studied in comparison to that of wildβtype (WT) mice (n = 10). An undersampled, asymmetric echo radial phase contrast MR technique was developed to measure through plane blood flow velocity at axial slices along the descending aorta. The PWV and the time averaged WSS was calculated from the spatiotemporal flow data. The reproducibility of PWV and WSS was evaluated by taking multiple measures on a separate cohort of WT (n = 4) mice.
Results
The mean percentage standard deviation among repeated measures was 10.1% for PWV and 24.8% for WSS. The PWV of ApoEβKO mice (5.84 Β± 2.15 m/s) was significantly higher (p = 0.02) than that of WT (3.55 Β± 0.97 m/s), whereas WSS was lower in ApoEβKO mice (1.44 Β± 0.31Pa) compared with WT (1.55 Β± 0.36Pa).
Conclusion
This study demonstrates that in vivo PWV derived from radial phase contrast MR imaging can be potentially used as a surrogate marker for impaired vascular function in mice. J. Magn. Reson. Imaging 2009;30:286β291. Β© 2009 WileyβLiss, Inc.