Quantitative Magnetic Resonance Imaging Analysis of Neovasculature Volume in Carotid Atherosclerotic Plaque

Background—Neovasculature within atherosclerotic plaques is believed to be associated with infiltration of inflammatory cells and plaque destabilization. The aim of the present investigation was to determine whether the amount of neovasculature present in advanced carotid plaques can be noninvasively measured by dynamic, contrast-enhanced MRI. Methods and Results—A total of 20 consecutive patients scheduled for carotid endarterectomy were recruited to participate in an MRI study. Images were obtained at 15-second intervals, and a gadolinium contrast agent was injected coincident with the second of 10 images in the sequence. The resulting image intensity within the plaque was tracked over time, and a kinetic model was used to estimate the fractional blood volume. For validation, matched sections from subsequent endarterectomy were stained with ULEX and CD-31 antibody to highlight microvessels. Finally, all microvessels within the matched sections were identified, and their total area was computed as a fraction of the plaque area. Results were obtained from 16 participants, which showed fractional blood volumes ranging from 2% to 41%. These levels were significantly higher than the histological measurements of fractional vascular area. Nevertheless, the 2 measurements were highly correlated, with a correlation coefficient of 0.80 (P <0.001). Conclusions—Dynamic contrast-enhanced MRI provides an indication of the extent of neovasculature within carotid atherosclerotic plaque. MRI therefore provides a means for prospectively studying the link between neovasculature and plaque vulnerability.

[1]  R. Mofidi,et al.  Association between plaque instability, angiogenesis and symptomatic carotid occlusive disease , 2001, The British journal of surgery.

[2]  W S Kerwin,et al.  Noise and motion correction in dynamic contrast‐enhanced MRI for analysis of atherosclerotic lesions , 2002, Magnetic resonance in medicine.

[3]  M. Zamir,et al.  Vasculature in the walls of human coronary arteries. , 1985, Archives of pathology & laboratory medicine.

[4]  C S Patlak,et al.  Graphical Evaluation of Blood-to-Brain Transfer Constants from Multiple-Time Uptake Data , 1983, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[5]  E. Haacke,et al.  Contrast‐enhanced magnetic resonance angiography of carotid arterial wall in pigs , 1997, Journal of magnetic resonance imaging : JMRI.

[6]  W P Dillon,et al.  Quantitative measurement of microvascular permeability in human brain tumors achieved using dynamic contrast-enhanced MR imaging: correlation with histologic grade. , 2000, AJNR. American journal of neuroradiology.

[7]  P J Drew,et al.  Microvessel density in invasive breast cancer assessed by dynamic gd‐dtpa enhanced MRI , 1997 .

[8]  P R Bell,et al.  Angiogenesis and the atherosclerotic carotid plaque: association between symptomatology and plaque morphology , 1999, Journal of vascular surgery.

[9]  R. Balaban,et al.  Carotid artery atherosclerosis: in vivo morphologic characterization with gadolinium-enhanced double-oblique MR imaging initial results. , 2002, Radiology.

[10]  K. Sueishi,et al.  Intimal neovascularization in human coronary atherosclerosis: its origin and pathophysiological significance. , 1995, Human pathology.

[11]  R. Dolan,et al.  MS-325: albumin-targeted contrast agent for MR angiography. , 1998, Radiology.

[12]  A. Wear CIRCULATION , 1964, The Lancet.

[13]  E. Falk Why do plaques rupture? , 1992, Circulation.

[14]  W E Reddick,et al.  Dynamic MR imaging (DEMRI) of microcirculation in bone sarcoma , 1999, Journal of magnetic resonance imaging : JMRI.

[15]  P. Tofts Modeling tracer kinetics in dynamic Gd‐DTPA MR imaging , 1997, Journal of magnetic resonance imaging : JMRI.

[16]  P. Tofts,et al.  Measurement of the blood‐brain barrier permeability and leakage space using dynamic MR imaging. 1. Fundamental concepts , 1991, Magnetic resonance in medicine.

[17]  C Yuan,et al.  Surface coil phased arrays for high‐resolution imaging of the carotid arteries , 1996, Journal of magnetic resonance imaging : JMRI.

[18]  Hiroto Nakajima,et al.  Dynamic MR imaging of the carotid wall , 1999, Journal of magnetic resonance imaging : JMRI.

[19]  A. Becker,et al.  Leucocyte recruitment in rupture prone regions of lipid-rich plaques: a prominent role for neovascularization? , 1999, Cardiovascular research.

[20]  W. Kerwin,et al.  Contrast‐enhanced high resolution MRI for atherosclerotic carotid artery tissue characterization , 2002, Journal of magnetic resonance imaging : JMRI.