Journal of neurosurgical anesthesiology
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In the section of "Developmental Neurotoxicity: An Update" of the Pediatric Anesthesia Neurodevelopmental Assessment (PANDA) symposium 2018 the speakers presented the current literature in translational and clinical research. Dr. Brambrink spoke about translational research in anesthetic neurotoxicity, beginning with discovery in the rodent model, then focusing on evidence from nonhuman primates. ⋯ Waspe applied the methodology of Adverse Outcome Pathways from the field of toxicology to developmental neurotoxicity of anesthetics. Dr. O'Leary presented relevant clinical studies that were published in 2017 divided by a focus on academic performance, clinical outcomes or diagnoses, or neuropsychological testing.
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J Neurosurg Anesthesiol · Jan 2019
Letter Case ReportsChemical Eye Injury in a Case of Cervical Spine Surgery.
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J Neurosurg Anesthesiol · Jan 2019
Early Developmental Exposure to Repetitive Long Duration of Midazolam Sedation Causes Behavioral and Synaptic Alterations in a Rodent Model of Neurodevelopment.
There is a large body of preclinical literature suggesting that exposure to general anesthetic agents during early life may have harmful effects on brain development. Patients in intensive care settings are often treated for prolonged periods with sedative medications, many of which have mechanisms of action that are similar to general anesthetics. Using in vivo studies of the mouse hippocampus and an in vitro rat cortical neuron model we asked whether there is evidence that repeated, long duration exposure to midazolam, a commonly used sedative in pediatric intensive care practice, has the potential to cause lasting harm to the developing brain. ⋯ In addition, using immunohistochemistry for synaptic markers we found that the number of presynaptic terminals in the dentate gyrus was reduced, while the number of excitatory postsynaptic terminals was increased. These findings were replicated in a midazolam sedation exposure model in neurons in culture. We conclude that repeated, long duration exposure to midazolam during early development has the potential to result in persistent alterations in the structure and function of the brain.