Amy E Vinson1, Constance S Houck2. 1. Department of Anesthesiology, Critical Care and Pain Medicine, Boston Children's Hospital and Harvard Medical School, 300 Longwood Avenue - Bader 3, Boston, MA, 02115, USA. amy.vinson@childrens.harvard.edu. 2. Department of Anesthesiology, Critical Care and Pain Medicine, Boston Children's Hospital and Harvard Medical School, 300 Longwood Avenue - Bader 3, Boston, MA, 02115, USA.
Abstract
PURPOSE OF REVIEW: The purpose of this review is to summarize the current evidence regarding the impact of the exposure to anesthetic and sedative agents on neurodevelopment during the period of rapid brain growth in the first 3 years of life. Though much of the definitive data demonstrating anesthesia-induced neurotoxicity has come from studies in young animals, the focus of this review is on emerging human data. RECENT FINDINGS: In 2016, the first prospective trials investigating the neurodevelopmental impact of early anesthetic exposure (GAS and PANDA studies) were published, both showing no significant impact on IQ from a single brief anesthetic. More recent population cohort analyses have shown varying, but minimal, impacts from early anesthetic exposure on academic performance and IQ, much smaller than that of maternal education and other environmental factors. Animal and human data document that post-anesthetic neurotoxicity is a genuine phenomenon, but its long-term clinical significance is uncertain. Most experts would agree that a single, brief anesthetic likely has no significant impact on neurodevelopment, but it is yet to be determined whether longer exposures or multiple anesthetics are associated with subsequent learning issues. Future research is aimed at determining the mechanisms of neuronal injury from exposure to anesthetic and sedative agents, adjunctive medications that may prevent or ameliorate this injury, and therapeutic approaches such as early intervention that can enhance recovery. While these studies are underway, it is recommended that exposure to anesthetic and sedative agents be minimized in young children and consideration be given to alternative methods of immobilization for nonpainful procedures such as radiologic imaging.
PURPOSE OF REVIEW: The purpose of this review is to summarize the current evidence regarding the impact of the exposure to anesthetic and sedative agents on neurodevelopment during the period of rapid brain growth in the first 3 years of life. Though much of the definitive data demonstrating anesthesia-induced neurotoxicity has come from studies in young animals, the focus of this review is on emerging human data. RECENT FINDINGS: In 2016, the first prospective trials investigating the neurodevelopmental impact of early anesthetic exposure (GAS and PANDA studies) were published, both showing no significant impact on IQ from a single brief anesthetic. More recent population cohort analyses have shown varying, but minimal, impacts from early anesthetic exposure on academic performance and IQ, much smaller than that of maternal education and other environmental factors. Animal and human data document that post-anesthetic neurotoxicity is a genuine phenomenon, but its long-term clinical significance is uncertain. Most experts would agree that a single, brief anesthetic likely has no significant impact on neurodevelopment, but it is yet to be determined whether longer exposures or multiple anesthetics are associated with subsequent learning issues. Future research is aimed at determining the mechanisms of neuronal injury from exposure to anesthetic and sedative agents, adjunctive medications that may prevent or ameliorate this injury, and therapeutic approaches such as early intervention that can enhance recovery. While these studies are underway, it is recommended that exposure to anesthetic and sedative agents be minimized in young children and consideration be given to alternative methods of immobilization for nonpainful procedures such as radiologic imaging.
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