The ins and outs of the BCCAo model for chronic hypoperfusion: a multimodal and longitudinal MRI approach
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Cerebral hypoperfusion induced by bilateral common carotid artery occlusion (BCCAo) in rodents has been proposed
as an experimental model of white matter damage and vascular dementia. However, the histopathological and
behavioral alterations reported in this model are variable and a full characterization of the dynamic alterations is not
available. Here we implemented a longitudinal multimodal magnetic resonance imaging (MRI) design, including timeof-
flight angiography, high resolution T1-weighted images, T2 relaxometry mapping, diffusion tensor imaging, and
cerebral blood flow measurements up to 12 weeks after BCCAo or sham-operation in Wistar rats. Changes in MRI
were related to behavioral performance in executive function tasks and histopathological alterations in the same
animals. MRI frequently (70%) showed various degrees of acute ischemic lesions, ranging from very small to large
subcortical infarctions. Independently, delayed MRI changes were also apparent. The patterns of MRI alterations
were related to either ischemic necrosis or gliosis. Progressive microstructural changes revealed by diffusion tensor
imaging in white matter were confirmed by observation of myelinated fiber degeneration, including severe optic tract
degeneration. The latter interfered with the visually cued learning paradigms used to test executive functions.
Independently of brain damage, BCCAo induced progressive arteriogenesis in the vertebrobasilar tree, a process
that was associated with blood flow recovery after 12 weeks. The structural alterations found in the basilar artery
were compatible with compensatory adaptive changes driven by shear stress. In summary, BCCAo in rats induces
specific signatures in multimodal MRI that are compatible with various types of histological lesion and with marked
adaptive arteriogenesis