Sten Oyre scite author profile

Purpose:To investigate wall shear rates in vivo in the common carotid, brachial, and superficial femoral arteries using very high resolution magnetic resonance imaging (MRI) phase contrast measurements. Materials and Methods:Mean, maximum, and minimum wall shear rate and an oscillatory shear index were measured for 20 volunteers, aged 23.3 Ϯ 1.9 years, in the three arteries, using phase contrast imaging with 0.0625 mm 2 resolution and three-dimensional paraboloid fitting. Results:The superficial femoral artery had the lowest mean (130.3 Ϯ 13.1 second Ϫ1 ), maximum (735.8 Ϯ 32.4 second Ϫ1 ), and minimum (-224.5 Ϯ 17.0 second Ϫ1 ) wall shear rate, as well as the highest oscillatory shear index (0.21 Ϯ 0.02). All values were significantly different (P Ͻ 0.05) from both the brachial artery and the common carotid artery values. The highest mean (333.3 Ϯ 13.6 second Ϫ1 ) and minimum (117.9 Ϯ 24.5 second Ϫ1 ) wall shear rates and the lowest oscillatory shear index (0 Ϯ 0) were found in the common carotid artery. Conclusion:It is possible to measure wall shear rate in vivo in different arteries using MRI with very high resolution. The findings exhibit the in vivo environment of wall shear rates and suggest a nonuniform distribution of wall shear rates throughout the arterial system.

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In vivo wall shear stress measured by magnetic resonance velocity mapping in the normal human abdominal aorta

Oyre¹,

Pedersen²,

Ringgaard³

et al. 1997

European Journal of Vascular and Endovascular Surgery

107

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Accurate noninvasive quantitation of blood flow, cross-sectional lumen vessel area and wall shear stress by three-dimensional paraboloid modeling of magnetic resonance imaging velocity data

Oyre

Ringgaard

Kozerke

et al. 1998

Journal of the American College of Cardiology

103

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Sten Oyre

Left ventricular blood flow patterns in normal subjects: A quantitative analysis by three-dimensional magnetic resonance velocity mapping

Wall shear rates differ between the normal carotid, femoral, and brachial arteries: An in vivo MRI study

In vivo wall shear stress measured by magnetic resonance velocity mapping in the normal human abdominal aorta

Accurate noninvasive quantitation of blood flow, cross-sectional lumen vessel area and wall shear stress by three-dimensional paraboloid modeling of magnetic resonance imaging velocity data

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