The right insular cortex infarction: a critical factor for mortality?

The Insular Cortex, Alzheimer Disease Pathology, and Their Effects on Blood Pressure Variability

Recent findings indicate that the human cardiovascular system is regulated by a cortical network comprised of the insular cortex (Ic), anterior cingulate gyrus, and amygdala which is necessary for the regulation of the central autonomic network system. Alzheimer disease (AD) affects the Ic at a preclinical stage. The pathology of AD at the Ic is suggested to predispose the cardiovascular system to detrimental changes such as increased blood pressure variability (BPV). In this review article, we focus on the physiology of the Ic in the relationship between the central autonomic network and BPV. We provide a summary of the published evidence regarding the relationship between Ic damage and exaggerated BPV in the context of AD pathology.

Bilateral ischemia of the insular cortex after high altitude climbing: A case report

High altitude exposure could be related to neurological events such as stroke-like episodes, even if the exact pathogenic mechanism is still debated. We describe the case of a caucasian woman who had a bilateral insular ischemic stroke after a rapid ascent above 4000 m in which a secondary embolic dissemination due to a right insular stroke, maybe related to high altitude hemoconcentration, could be hypothesized. In our opinion a prolonged cardiac rhythm monitoring have to be considered especially when no other embolic sources are found and for lesions involving the insular cortex.