Abstract
.We explore cortical microvasculature changes during the progression of atherosclerosis using young and old transgenic atherosclerotic (ATX) mice with thinned-skull cranial window. In awake animals, exploiting intrinsic signal optical imaging, Doppler optical coherence tomography, and two-photon microscopy, we investigate how the progression of atherosclerotic disease affects the morphology and function of cortical microvasculature as well as baseline cerebral tissue oxygenation. Results show that aged ATX mice exhibited weaker hemodynamic response in the somatosensory cortex to whisker stimulation and that the diameter of their descending arterioles and associated mean blood flow decreased significantly compared with the young ATX group. Data from two-photon phosphorescence lifetime microscopy indicate that old ATX mice had lower and more heterogeneous partial pressure of oxygen () in cortical tissue than young ATX mice. In addition, hypoxic micropockets in cortical tissue were found in old, but not young, ATX mice. Capillary red blood cell (RBC) flux, RBC velocity, RBC velocity heterogeneity, hematocrit, and diameter were also measured using line scans with two-photon fluorescence microscopy. When compared with the young group, RBC flux, velocity, and hematocrit decreased and RBC velocity heterogeneity increased in old ATX mice, presumably due to disturbed blood supply from arterioles that were affected by atherosclerosis. Finally, dilation of capillaries in old ATX mice was observed, which suggests that capillaries play an active role in compensating for an oxygen deficit in brain tissue.
Highlights
Ischemic cerebrovascular diseases (CVD) and their complications are one of the leading causes of morbidity and mortality worldwide
We investigated the detrimental effects of atherosclerotic disease on cerebral microvasculature and cerebral tissue oxygenation using LDLR−∕−hApoBþ∕þ transgenic mice at Downloaded From: https://www.spiedigitallibrary.org/journals/Neurophotonics on 08 Nov 2021 Terms of Use: https://www.spiedigitallibrary.org/terms-of-use
We demonstrate that atherosclerotic disease has detrimental effects on cerebral microvasculature and tissue
Summary
Ischemic cerebrovascular diseases (CVD) and their complications are one of the leading causes of morbidity and mortality worldwide. Ischemic cerebrovascular events, such as ischemic stroke and transient ischemic attack frequently lead to vascular dementia and persistent cognitive impairment.[1,2,3,4] Studies have shown that atherosclerotic disease often plays a causative role in the onset of the ischemic CVDs.[5,6,7] It is well known that in the presence of elevated plasma low-density lipoprotein (LDL), plaques can build up inside extracranial and intracranial large arteries. The luminal stenosis reduces or even blocks blood supply to the brain, causing oxygen and energy substrate deficiency in cerebral tissue.[8,9,10,11,12] The impact of atherosclerotic disease on cerebral small vessels, still remains to be fully elucidated.[13,14,15]
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