Topography and functional connectivity analysis of heart surgery-associated brain lesions: a literature review
摘要
Cardiac surgery is a major therapeutic advancement but remains associated with neurological complications, including ischemic stroke and postoperative cognitive decline. Compared with stroke of other etiologies, ischemic brain injury following cardiac surgery may involve distinct vascular territories and functional networks, potentially influencing its characteristic cognitive profile.
MethodsWe performed a systematic review of case reports describing ischemic brain lesions occurring after cardiac surgery in adults with available neuroimaging data. Lesions were manually traced onto a standard brain atlas and compared with ischemic stroke lesions from the ATLAS database, matched for hemispheric involvement. Lesion topography was analyzed at the arterial territory and voxel levels. Lesion network mapping was conducted using normative resting-state functional connectivity data to identify patterns of functional disconnection. Permutation-based statistical analyses were applied, with correction for multiple comparisons and lesion volume included as a covariate.
ResultsNineteen articles met the inclusion criteria, yielding 20 cases of post–cardiac surgery ischemic lesions. Compared with stroke controls, these lesions more frequently involved posterior arterial territories, particularly the occipital branches of the posterior cerebral arteries and posterior thalamic regions. Lesion network mapping revealed a distinct pattern of functional disconnection in the occipital lobes, posterior thalamus (including the pulvinar), and medial frontal cortex.
ConclusionsOur results suggest that ischemia associated with cardiac surgery may preferentially involve posterior arterial territories and be associated with distinct patterns of functional disconnection involving the occipital lobe, the pulvinar, and the medial frontal cortex.