Blood and Brain Metabolites after Cerebral Ischemia

Abstract: The study of an organism’s response to cerebral ischemia at different levels is essential to understanding the mechanism of the injury and protection. A great interest is devoted to finding the links between quantitative metabolic changes and post-ischemic damage. This work aims to summarize the outcomes of the most studied metabolites in brain tissue—lactate, glutamine, GABA (4-aminobutyric acid), glutamate, and NAA (N-acetyl aspartate)—regarding their biological function in physiological conditions and their… Show more

“…Its concentration is modified in various human brain disorders, being one of the most widely recognized neuronal biomarkers [ 62 ]. Being the brain’s second most prevalent metabolite, NAA is produced within neurons and exists in exceptionally high levels in the CNS [ 63 ], reaching detectable levels in neuronal tissue and not in other brain tissues, such as glial cells. Findings from various studies align to indicate swift rises in total NAA from prenatal stages through infancy, succeeded by gradual increments during childhood and adolescence [ 64 ].…”

Childhood Obesity, Hypothalamic Inflammation, and the Onset of Puberty: A Narrative Review

“…Its concentration is modified in various human brain disorders, being one of the most widely recognized neuronal biomarkers [ 62 ]. Being the brain’s second most prevalent metabolite, NAA is produced within neurons and exists in exceptionally high levels in the CNS [ 63 ], reaching detectable levels in neuronal tissue and not in other brain tissues, such as glial cells. Findings from various studies align to indicate swift rises in total NAA from prenatal stages through infancy, succeeded by gradual increments during childhood and adolescence [ 64 ].…”

Childhood Obesity, Hypothalamic Inflammation, and the Onset of Puberty: A Narrative Review

Macrophage Scavenger Receptor 1 attenuates ischemic white matter injury via HRH1-mediated microglial phagocytosis