Abstract
Traumatic brain injury (TBI) is among the most pressing global health issues and prevalent causes of cerebrovascular and neurological disorders all over the world. In addition to the brain injury, TBI may also alter the systemic immune response. Thus, TBI patients become vulnerable to infections, have worse neurological outcomes, and exhibit a higher rate of mortality and morbidity. It is well established that brain injury leads to impairments of the blood–brain barrier (BBB) integrity and function, contributing to the loss of neural tissue and affecting the response to neuroprotective drugs. Thus, stabilization/protection of the BBB after TBI could be a promising strategy to limit neuronal inflammation, secondary brain damage, and acute neurodegeneration. Herein, we present a review highlighting the significant post-traumatic effects of TBI on the cerebrovascular system. These include the loss of BBB integrity and selective permeability, impact on BBB transport mechanisms, post-traumatic cerebral edema formation, and significant pathophysiological factors that may further exacerbate post-traumatic BBB dysfunctions. Furthermore, we discuss the post-traumatic impacts of chronic smoking, which has been recently shown to act as a premorbid condition that impairs post-TBI recovery. Indeed, understanding the underlying molecular mechanisms associated with TBI damage is essential to better understand the pathogenesis and progression of post-traumatic secondary brain injury and the development of targeted treatments to improve outcomes and speed up the recovery process. Therapies aimed at restoring/protecting the BBB may reduce the post-traumatic burden of TBI by minimizing the impairment of brain homeostasis and help to restore an optimal microenvironment to support neuronal repair.
Highlights
Traumatic brain injury (TBI) is defined as an insult to the brain caused by a direct or indirect external mechanical force
We provide a brief review of the current treatment used to alleviate the burden of TBI
The mechanisms and therapeutic strategies to alleviate the impacts of TBI have not been fully understood
Summary
Traumatic brain injury (TBI) is defined as an insult to the brain caused by a direct or indirect external mechanical force. Every year, more than 5.3 million Americans live with a lifelong disability caused by TBI [8,9,10] In those that survive, the effects of TBI can cause emotional, physiological, cognitive, motor, and behavioral impairments ranging from mild to severe [5,11,12,13,14]. 20–40% of patients die after a severe TBI due to brain injury or secondary complications, and those that survive often have reduced life expectancies, chronic neurological disabilities, pituitary dysfunction, and cognitive and psychological disorders, including depression and aggression [1,15,16,17,18].
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