Journal of neurosurgical anesthesiology
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J Neurosurg Anesthesiol · Oct 2014
ReviewReview: Effects of Anesthetics on Brain Circuit Formation.
The results of several retrospective clinical studies suggest that exposure to anesthetic agents early in life is correlated with subsequent learning and behavioral disorders. Although ongoing prospective clinical trials may help to clarify this association, they remain confounded by numerous factors. Thus, some of the most compelling data supporting the hypothesis that a relatively short anesthetic exposure can lead to a long-lasting change in brain function are derived from animal models. ⋯ The function of the mature brain requires the presence of circuits, established during development, which perform the computations underlying learning and cognition. In this review, we examine the mechanisms by which anesthetics could disrupt brain circuit formation, including effects on neuronal survival and neurogenesis, neurite growth and guidance, formation of synapses, and function of supporting cells. There is evidence that anesthetics can disrupt aspects of all of these processes, and further research is required to elucidate which are most relevant to pediatric anesthetic neurotoxicity.
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J Neurosurg Anesthesiol · Oct 2014
ReviewAnesthesia in children: perspectives from nonsurgical pediatric specialists.
The Pediatric Anesthesia NeuroDevelopment Assessment (PANDA) study investigates the potential neurotoxicity of anesthetics in the pediatric population. At a recent symposium, a panel of nonsurgical physicians from the disciplines of radiology, neurology, cardiology, and critical care discussed the role anesthesia plays in their respective practices. ⋯ Given recent publications in the literature suggesting the potential for neurotoxicity following anesthesia in pediatric patients, physicians, parents, and other stakeholders are now challenged to continue to balance safety with efficacy in caring for children. This paper summarizes the panelist presentations and the ensuing discussion at the 2014 PANDA symposium.
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J Neurosurg Anesthesiol · Oct 2014
ReviewPostoperative Cognitive Function Following General Versus Regional Anesthesia: A Systematic Review.
The effect of anesthetic technique on postoperative outcomes remains in question. This systematic review compares the role of regional versus general anesthesia, with a particular focus on postoperative cognitive function. Potentially relevant articles were identified by searching publicly available computerized databases for this systematic review. ⋯ Any measure of postoperative cognitive function was accepted as long as it was performed no sooner than 7 days postoperatively. Sixteen studies met inclusion criteria and were included in the final analysis. Three studies showed some difference in cognitive function between regional and general anesthesia, whereas the remaining 13 showed no difference between regional and general anesthesia on postoperative cognitive function.
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J Neurosurg Anesthesiol · Oct 2014
ReviewPostoperative Cognitive Function Following General Versus Regional Anesthesia: A Systematic Review.
The effect of anesthetic technique on postoperative outcomes remains in question. This systematic review compares the role of regional versus general anesthesia, with a particular focus on postoperative cognitive function. Potentially relevant articles were identified by searching publicly available computerized databases for this systematic review. ⋯ Any measure of postoperative cognitive function was accepted as long as it was performed no sooner than 7 days postoperatively. Sixteen studies met inclusion criteria and were included in the final analysis. Three studies showed some difference in cognitive function between regional and general anesthesia, whereas the remaining 13 showed no difference between regional and general anesthesia on postoperative cognitive function.
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J Neurosurg Anesthesiol · Oct 2014
ReviewClinical Research Into Anesthetic Neurotoxicity: Does Anesthesia Cause Neurological Abnormalities in Humans?
General anesthetics mitigate distress and exaggerated hemodynamic responses to pain and stressful stimulation, allowing surgery and diagnostic procedures to be performed worldwide in millions of children every year. Emerging studies, mainly carried out in early postnatal laboratory animals, demonstrate widespread neuronal elimination, alteration in neuronal circuitry, and long-term neurological disabilities following exposure to all commonly used sedatives and anesthetics. These findings have raised concerns among parents, anesthesiologists, neuroscientists, and government regulators about the safety of anesthetic drugs in children, especially infants. ⋯ During the Fourth Pediatric Anesthesia NeuroDevelopmental Assessment (PANDA) symposium, a meeting attended by many stakeholders, the most recent findings in the field were presented and discussed. This review summarizes the current state of clinical research into the effects of anesthetic exposure in human brain development, addresses some of the difficulties in examining the phenomenon, and introduces the most recent clinical findings presented at the PANDA symposium. The unanimous consensus among participants was that additional preclinical and clinical research efforts are urgently required to address this important concern for child health.