Publications by authors named "S Farioli-Vecchioli"
Background: Traumatic Brain Injury (TBI) represents one of the main causes of brain damage in young people and the elderly population with a very high rate of psycho-physical disability and death. TBI is characterized by extensive cell death, tissue damage and neuro-inflammation with a symptomatology that varies depending on the severity of the trauma from memory loss to a state of irreversible coma and death. Recently, preclinical studies on mouse models have demonstrated that the post-traumatic adult Neural Stem/Progenitor cells response could represent an excellent model to shed light on the neuro-reparative role of adult neurogenesis following damage.
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- Intestinal microbiota plays a crucial role in gut health and influences mood through the gut-brain axis, with probiotics showing promise in treating central nervous system issues.
- Research on adult male mice indicated that a multi-strain probiotic helped reverse anxiety and depressive behaviors caused by maternal separation, restoring immune function and promoting neurogenesis.
- The study suggests that gut microbiota and its metabolites are key to the therapeutic effects of probiotics on brain dysfunction related to emotional disorders.
The recent identification of a population of non-newly born, prenatally generated "immature" neurons in the layer II of the piriform cortex (cortical immature neurons, cINs), raises questions concerning their maintenance or depletion through the lifespan. Most forms of brain structural plasticity progressively decline with age, a feature that is particularly prominent in adult neurogenesis, due to stem cell depletion. By contrast, the entire population of the cINs is produced during embryogenesis.
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