胶质增生
神经科学
胼胝体
白质
皮质(解剖学)
星形胶质增生
医学
脑干
病理
大脑皮层
解剖
生物
中枢神经系统
磁共振成像
放射科
作者
Stefan Stamenković,Franca Schmid,Gökçe Gürler,Farzaneh Abolmaali,Nicolas A. Weitermann,Kevin Takasaki,Stephanie Bonney,Maria J. Sosa,Hannah Bennett,Yongsoo Kim,Jack Waters,Andy Y. Shih
标识
DOI:10.1038/s41593-025-02023-z
摘要
The progressive loss of cerebral white matter during aging contributes to cognitive decline, but whether reduced blood flow is a cause or a consequence remains debatable. Using deep multi-photon imaging in mice, we examined microvascular networks perfusing myelinated tissues in cortical layer 6 and the corpus callosum. We identified sparse, wide-reaching venules, termed principal cortical venules, which exclusively drain deep tissues and resemble the vasculature at the human cortex and U-fiber interface. Aging led to selective constriction and rarefaction of capillaries in deep branches of principal cortical venules. This resulted in mild hypoperfusion that was associated with microgliosis, astrogliosis and demyelination in deep tissues, but not the upper cortex. Induction of comparable hypoperfusion in adult mice using carotid artery stenosis triggered a similar tissue pathology specific to layer 6 and the corpus callosum. Thus, impaired capillary-venous drainage is a contributor to hypoperfusion and a potential therapeutic target for preserving blood flow to white matter during aging.
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