Background Spinal cord injury (SCI) patients display disruption of gut microbiome, and gut
dysbiosis exacerbate neurological impairment in SCI models. Cumulative data support an …

The primary traumatic event that causes spinal cord injury (SCI) is followed by a progressive
secondary injury featured by vascular disruption and ischemia, inflammatory responses and …

Background. Traumatic brain injury (TBI) can induce persistent fluctuation in the gut
microbiota makeup and abundance. The present study is aimed at determining whether …

Studies have shown that gut microbiota metabolites can enter the central nervous system via
the blood-spinal cord barrier and cause neuroinflammation, thus constituting secondary …

The trillions of microbes that exist in the gastrointestinal tract have emerged as pivotal
regulators of mammalian development and physiology. Disruption of this gut microbiome, a …

After spinal cord injury (SCI), intestinal dysfunction has a serious impact on physical and
mental health, quality of life, and social participation. Recent data from rodent and human …

Although there has been a significant amount of research focused on the pathophysiology of
spinal cord injury (SCI), there is limited information on the consequences of SCI on remote …

Background Chronic cerebral hypoperfusion (CCH) underlies secondary brain injury
following certain metabolic disorders and central nervous system (CNS) diseases …

Current efficacious treatments for traumatic brain injury (TBI) are lacking. Establishment of a
protective gut microbiota population offers a compelling therapeutic avenue, as brain injury …

Individuals with traumatic spinal cord injury (SCI) suffer from numerous peripheral
complications in addition to the long-term paralysis that results from disrupted neural …