Magnetic resonance imaging under isoflurane anesthesia alters cortical cyclooxygenase‐2 expression and glial cell morphology during sepsis‐associated neurological dysfunction in rats
Résumé
The past decades have seen the application of new experimental imaging approaches to study brain chemistry and structure in vivo. While some of the recent in vivo imaging techniques are still invasive and require a "cranial window" resulting in morphological activation of glial cells, 1,2 others like magnetic resonance imaging (MRI) are noninvasive. However, relatively few attempts have been made
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