Estimation of aortic compliance using magnetic resonance pulse wave velocity measurement.

A method for compliance estimation employing magnetic resonance pulse wave velocity measurement is presented. Time-resolved flow waves are recorded at several positions along the vessel using a phase contrast sequence, and pulse wave velocity is calculated from the delay of the wave onsets. Using retrospective cardiac gating in combination with an optically decoupled electrocardiogram acquisition, a high temporal resolution of 3 ms can be achieved. A phantom set-up for the simulation of pulsatile flow in a compliant vessel is described. In the phantom, relative errors of pulse wave velocity estimation were found to be about 15%, whereas in a volunteer, larger errors were found that might be caused by vessel branches. Results of pulse wave velocity estimation agree with direct aortic distension measurements which rely on a peripheral estimate of aortic pressure and are therefore less accurate. Studies in 12 volunteers show values of pulse wave velocity consistent with the literature; in particular the well-known increase in pulse wave velocity with age was observed. Preliminary results show that the method can be applied to aortic aneurysms.

[1]  D N Firmin,et al.  Blood flow imaging by cine magnetic resonance. , 1986, Journal of computer assisted tomography.

[2]  S Kontis,et al.  Aortic compliance measured by non-invasive Doppler ultrasound: description of a method and its reproducibility. , 1988, Clinical science.

[3]  G. Mckinnon Ultrafast interleaved gradient‐echo‐planar imaging on a standard scanner , 1993, Magnetic resonance in medicine.

[4]  C Thomsen,et al.  Comparison between retrospective gating and ECG triggering in magnetic resonance velocity mapping. , 1993, Magnetic resonance imaging.

[5]  D N Firmin,et al.  Age-related changes of human aortic flow wave velocity measured noninvasively by magnetic resonance imaging. , 1993, Journal of applied physiology.

[6]  C J Hardy,et al.  A one‐dimensional velocity technique for NMR measurement of aortic distensibility , 1994, Magnetic resonance in medicine.

[7]  Walter J. Lorenz,et al.  Pulsewave velocity measurement using a new real-time MR-method. , 1995, Magnetic resonance imaging.

[8]  J Felblinger,et al.  Synchronization device for electrocardiography-gated echo-planar imaging. , 1995, Radiology.

[9]  D B Plewes,et al.  A velocity correlation method for measuring vascular compliance using MR imaging , 1995, Journal of magnetic resonance imaging : JMRI.

[10]  B. Sonesson,et al.  Diameter and compliance in the human common carotid artery--variations with age and sex. , 1995, Ultrasound in medicine & biology.

[11]  D N Firmin,et al.  Measurement of regional aortic compliance by MR imaging: A study of reproducibility , 1995, Journal of magnetic resonance imaging : JMRI.

[12]  E. McVeigh,et al.  Pencil excitation with interleaved fourier velocity encoding: NMR measurement of aortic distensibility , 1996, Magnetic resonance in medicine.

[13]  S P Glasser,et al.  Vascular compliance and cardiovascular disease: a risk factor or a marker? , 1997, American journal of hypertension.

[14]  In Vitro Validation of Rapid MR Measurement of Wave Velocity , 1997, Journal of magnetic resonance.

[15]  J. Pipe,et al.  Direct Magnetic Resonance Determination of Aortic Distensibility in Essential Hypertension: Relation to Age, Abdominal Visceral Fat, and In Situ Intracellular Free Magnesium , 1997 .

[16]  R. Naoumova,et al.  The Effect of Cholesterol Reduction with Fluvastatin on Aortic Compliance, Coronary Calcification and Carotid Intimal-Medial Thickness: A Pilot Study , 1998, Journal of cardiovascular risk.

[17]  C J Hardy,et al.  Accuracy of arterial pulse‐wave velocity measurement using MR , 1998, Journal of magnetic resonance imaging : JMRI.