Bursts of brain erosion: seizures and age-dependent neurological vulnerability.

Hypersynchronous and exaggerated neuronal firing, exemplified by epileptiform activity and seizures, are disruptors of brain function across acute and chronic neuropathological conditions. Here, we focus on how seizure activity, whether as a primary symptom or a secondary comorbid event within a complex pathological setting, adversely impacts neurological trajectories. We discuss experimental and clinical evidence illustrating the participation of neurodegenerative and senescence-like adaptations.

Continuous low-level dietary exposure to glyphosate elicits dose and sex-dependent synaptic and microglial adaptations in the rodent brain.

Prolonged exposure to low levels of dietary contaminants is a context in modern life that could alter organ physiology gradually. Here, we aimed to investigate the impact of continuous exposure to acceptable daily intake (ADI) and non-observable adverse effect level (NOAEL) of glyphosate from gestation to adulthood using C57BL/6J mice and incorporating these levels into their food pellets. From adulthood, we analyzed neurophysiological and neuro-glia cellular adaptations in male and female animals.

PIEZO1 expression at the glio-vascular unit adjusts to neuroinflammation in seizure conditions.

Mechanosensors are emerging players responding to hemodynamic and physical inputs. Their significance in the central nervous system remains relatively uncharted. Using human-derived brain specimens or cells and a pre-clinical model of mesio-temporal lobe epilepsy (MTLE), we examined how the mRNA levels of the mechanosensitive channel PIEZO1 adjust to disease-associated pro-inflammatory trajectories.

Neurovascular hypoxia after mild traumatic brain injury in juvenile mice correlates with heart-brain dysfunctions in adulthood.

Aim: Retrospective studies suggest that mild traumatic brain injury (mTBI) in pediatric patients may lead to an increased risk of cardiac events. However, the exact functional and temporal dynamics and the associations between heart and brain pathophysiological trajectories are not understood.

Methods: A single impact to the left somatosensory cortical area of the intact skull was performed on juvenile mice (17 days postnatal).