Stimulating olfactory epithelium mitigates mechanical ventilation-induced hippocampal inflammation and apoptosis.
Sepideh GhazvinehMorteza SalimiSamaneh DehghanAzam Asemi-RadKolsoum DehdarAlireza SalimiHamidreza JamaatiMohammad Reza RaoufyPublished in: Hippocampus (2023)
Mechanical ventilation (MV), as a life-saving procedure in critical patients, is a risk factor to develop of neurocognitive dysfunction and triggers of inflammation and apoptosis in the brain. Since diversion of breathing route to the tracheal tube diminishes brain activity entrained by physiological nasal breathing, we hypothesized that simulating nasal breathing using rhythmic air-puff (AP) into the nasal cavity of mechanically ventilated rats can reduce hippocampal inflammation and apoptosis in association with restoring respiration-coupled oscillations. We found that stimulating olfactory epithelium through applying rhythmic nasal AP, in association with reviving respiration-coupled brain rhythm, mitigates MV-induced hippocampal apoptosis and inflammation involving microglia and astrocytes. The current translational study opens a window for a novel therapeutic approach to reduce neurological complications induced by MV.
Keyphrases
- oxidative stress
- mechanical ventilation
- diabetic rats
- acute respiratory distress syndrome
- intensive care unit
- cerebral ischemia
- endoplasmic reticulum stress
- cell cycle arrest
- chronic rhinosinusitis
- cell death
- risk factors
- end stage renal disease
- high glucose
- respiratory failure
- extracorporeal membrane oxygenation
- chronic kidney disease
- white matter
- resting state
- newly diagnosed
- atrial fibrillation
- inflammatory response
- spinal cord injury
- blood brain barrier
- radiation induced
- working memory
- blood pressure
- functional connectivity
- drug induced
- cell proliferation
- multiple sclerosis
- prognostic factors
- patient reported outcomes
- minimally invasive
- spinal cord
- neuropathic pain