Abstract-Hypertension, a major risk factor for stroke, is associated with altered arterial anatomy and function; however, the limited resolution of current imaging techniques has restricted the in vivo study of microvascular changes in the brain. In this report, we quantitatively examined the lenticulostriate arteries in hypertensive patients using ultrahigh-field 7T MRI. We compared the number of stems and branches, curvature, and tortuosity of the lenticulostriate arteries by 3D time-of-flight magnetic resonance angiography among 20 hypertensive patients (mean age: 46.6Ϯ9.1 years) and 20 age-matched healthy subjects (mean age: 47.7Ϯ8.1 years). The average numbers of stems and branches in hypertensive patients were significantly less than those of healthy subjects (PϽ0.002). However, this difference was abolished in older volunteers (Ͼ45 years old), whereas the difference between young hypertensive patients (Յ45 years old) and age-matched healthy controls was augmented by 55% for stems and 91% for branches (Pϭ0.001). In comparison, there were no differences in the average curvature and tortuosity of the lenticulostriate arteries and no significant difference when corrected for smoking (Pϭ0.064). In conclusion, our results showed that there was a substantial difference in the lenticulostriate arteries of hypertensive patients compared with healthy individuals when observed in vivo by ultrahighresolution 7T magnetic resonance angiography, and the difference was considerable in young subjects. Key Words: microvessels Ⅲ hypertension Ⅲ magnetic resonance angiography Ⅲ 7T MRI Ⅲ lenticulostriate arteries H ypertension is considered to be one of the most important risk factors for strokes, heart attacks, heart failure, and arterial aneurysms. Hypertension can promote and/or be induced by changes in the small arterial and arteriolar architecture via vascular hypertrophy, endothelial dysregulation, and atherosclerosis. 1 These structural changes disturb the microcirculation, resulting in high vascular resistance and reduced blood flow through the microvessels. 2 Given the relatively high blood flow through the anterior cerebral artery and middle cerebral artery, hypertensive patients have a particularly high incidence of stroke. 3,4 Their perforators, the lenticulostriate arteries (LSAs), play a major role, because lacunar infarcts account for Ͼ20% of all strokes, and 35% to 44% of intracerebral hemorrhages involve the basal ganglia. This is because the blood supplied to these territories comes from end arteries that have little or no collateral circulation. 4,5 Moreover, hypertension is associated with Ͼ70% of all intracerebral hemorrhages and lacunar infarcts, 6,7 as well as white matter changes and silent strokes. Thus, imaging of the LSAs in vivo could offer important insight for understanding the mechanisms of microvascular diseases associated with hypertension.Although current neuroimaging techniques, including magnetic resonance angiography (MRA), computed tomographic angiography, and digital subtraction angiograp...
