Abstract
Over the past three decades, we have been grappling with rapidly accumulating evidence that general anesthetics (GAs) may not be as innocuous for the young brain as we previously believed. The growing realization comes from hundreds of animal studies in numerous species, from nematodes to higher mammals. These studies argue that early exposure to commonly used GAs causes widespread apoptotic neurodegeneration in brain regions critical to cognition and socio-emotional development, kills a substantial number of neurons in the young brain, and, importantly, results in lasting disturbances in neuronal synaptic communication within the remaining neuronal networks. Notably, these outcomes are often associated with long-term impairments in multiple cognitive-affective domains. Not only do preclinical studies clearly demonstrate GA-induced neurotoxicity when the exposures occur in early life, but there is a growing body of clinical literature reporting similar cognitive-affective abnormalities in young children who require GAs. The need to consider alternative GAs led us to focus on synthetic neuroactive steroid analogues that have emerged as effective hypnotics, and analgesics that are apparently devoid of neurotoxic effects and long-term cognitive impairments. This would suggest that certain steroid analogues with different cellular targets and mechanisms of action may be safe alternatives to currently used GAs. Herein we summarize our current knowledge of neuroactive steroids as promising novel GAs.
Highlights
Three promising while lacking effects in very young animals described with all other clinically analogues we have identified and studied over the past decade are: used general anesthetics when administered at postnatal day 7
CDNC24, andFollowing alphaxalone were potent and, importantly, compared tocorrelate the commonly used in rothe loss of righting reflex (LORR) when as a behavioral of hypnosis general anesthetics propofol and ketamine, all three were found to be safer based on calcudents, we determined that 3β-OH, CDNC24, and alphaxalone were potent hypnotics
Based on currently available information, we believe that novel neuroactive steroid analogues can be promising general anesthetics and effective analgesics
Summary
The last three decades of extensive research have unveiled concerning effects of general anesthetics on the developing brain. Long-term potentiation was impaired significantly despite the presence of robust short-term potentiation This observation suggested a long-lasting disturbance in neuronal circuitries in the young hippocampus, a brain region that is crucial for proper learning and memory development. Of particular concern is recent work that suggests that these deleterious effects may be transgenerational via epigenetic modulation of the epigenome, signifying that the effects of general anesthetics are long-lasting but could be embedded in the genome, allowing for transgenerational impairments in offspring never exposed to general anesthetics [33] Taking this information into consideration, we and others have been putting considerable effort into discovering new molecular targets that could guide the development of novel general anesthetics that are safe for use in the very young. Collected evidence suggests that they could be considered promising and safe general anesthetics devoid of neurotoxic effects in very young brain [34,35], and as such, a promising and safe alternative to common general anesthetics currently used in pediatric practice
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