Aleksandra Ichkova scite author profile

Traumatic brain injuries (TBI) often involve vascular dysfunction that leads to longterm alterations in physiological and cognitive functions of the brain. Indeed, all the cells that form blood vessels and that are involved in maintaining their proper function can be altered by TBI. In this review, we focus on the different types of cerebrovascular dysfunction that occur after TBI, ranging from cerebral blood flow (CBF) alterations, autoregulation impairments, subarachnoid hemorrhage (SAH), vasospasms, blood-brain barrier (BBB) disruption and edema formation. We also discuss the mechanisms that mediate these dysfunctions, focusing on the cellular components of cerebral blood vessels (endothelial cells, smooth muscle cells, astrocytes, pericytes, perivascular nerves) and their known and potential roles in the secondary injury cascade.

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Gliovascular changes precede white matter damage and long‐term disorders in juvenile mild closed head injury

Rodriguez‐Grande

Obenaus

Ichkova

et al. 2018

Glia

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Traumatic brain injury (TBI) is a leading cause of hospital visits in pediatric patients and often leads to long-term disorders even in cases of mild severity. White matter (WM) alterations are commonly observed in patients months or years after the injury assessed by magnetic resonance imaging (MRI), but little is known about WM pathophysiology early after mild pediatric TBI. To evaluate the status of the gliovascular unit in this context, mild TBI was induced in postnatal-day 17 mice using a closed head injury model with two grades of severity (G1, G2). G2 resulted in significant WM edema (increased T2-signal) and BBB damage (IgG-extravasation immunostaining) whereas decreased T2 and the increased levels of astrocytic water-channel AQP4 were observed in G1 mice 1 day post-injury. Both severities induced astrogliosis (GFAP immunolabeling). No changes in myelin and neurofilament were detected at this acute time point. One month after injury G2 mice exhibited diffusion tensor imaging MRI alterations (decreased fractional anisotropy) accompanied by decreased neurofilament staining in the WM. Both severities induced behavioral impairments at this time point. In conclusion, long-term deficits and WM changes similar to those found after clinical TBI are preceded by distinct early gliovascular phenotype alterations after juvenile mild TBI, revealing AQP4 as a potential candidate for severity-based treatments.

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Early cerebrovascular and long-term neurological modifications ensue following juvenile mild traumatic brain injury in male mice

Ichkova

Rodriguez‐Grande

Zub

et al. 2020

Neurobiology of Disease

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