Abstract
The pathophysiology of wall contrast enhancement in thrombosed intracranial aneurysms is incompletely understood. This in vivo study aimed to investigate wall microstructures with gadolinium-enhanced 7T MR imaging. Thirteen patients with 14 thrombosed intracranial aneurysms were evaluated using a 7T whole-body MR imaging system with nonenhanced and gadolinium-enhanced high-resolution MPRAGE. Tissue samples were available in 5 cases, and histopathologic findings were correlated with 7T MR imaging to identify the gadolinium-enhancing microstructures. Partial or complete inner wall enhancement correlated with neovascularization of the inner wall layer and the adjacent thrombus. Additional partial or complete outer wall enhancement can be explained by formation of vasa vasorum in the outer aneurysm wall layer. The double-rim enhancement correlated with perifocal edema and wall histologic findings suggestive of instability. Two distinct aneurysm wall microstructures responsible for gadolinium enhancement not depictable at lower spatial resolutions can be visualized in vivo using high-resolution gadolinium-enhanced 7T MR imaging.
Highlights
BACKGROUND AND PURPOSEThe pathophysiology of wall contrast enhancement in thrombosed intracranial aneurysms is incompletely understood
Additional partial or complete outer wall enhancement can be explained by formation of vasa vasorum in the outer aneurysm wall layer
Previous studies have suggested a different pathophysiology of thrombosed intracranial aneurysms compared with nonthrombosed aneurysms.[3,4]
Summary
This study aimed to investigate the microstructure of thrombosed intracranial aneurysm wall-enhancement patterns using ultra-high-field 7T contrastenhanced MR imaging with direct comparison with histopathologic findings
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