Best practice & research. Clinical anaesthesiology
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Best Pract Res Clin Anaesthesiol · Mar 2023
ReviewPreclinical evidence for anaesthesia-induced neurotoxicity.
Preclinical research concerning anaesthesia-induced neurotoxicity was initiated in 1999. A decade later, the earliest clinical observational data showed mixed results in neurodevelopmental outcomes following anaesthesia exposure at a young age. Hence to date, preclinical studies remain the cornerstone of research in this field, primarily because of the vulnerability of clinical observational studies to confounding bias. ⋯ Across all gestational and postnatal ages, there is evidence that all commonly used general anaesthetics induce neuronal injury (e.g. apoptosis) and cause neurobehavioural impairment (e.g. learning and memory deficits). These deficits were more pronounced when animals were subjected to either repeated exposure, prolonged durations of exposure or higher doses of anaesthesia. To interpret these results in the clinical context, the strengths and limitations of each model and experiment should be carefully considered, as these preclinical studies were often biased by supraclinical durations and a lack of control with regard to physiological homeostasis.
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Best Pract Res Clin Anaesthesiol · Mar 2023
ReviewIntroduction and history of anaesthesia-induced neurotoxicity and overview of animal models.
Brain development is initiated at around 3 weeks of gestation. The peak velocity of brain weight gain occurs around birth, with the neural circuitry subsequently being refined until at least 20 years of age. Antenatal and postnatal general anaesthesia suppresses neuronal firing during this critical period and may therefore impair brain development, referred to as "anaesthesia-induced neurotoxicity". ⋯ In this article, the history of preclinical and clinical research in anaesthesia-induced neurotoxicity will be reviewed, starting from the pioneering preclinical study in 1999 until the most recent systematic reviews. The mechanisms of anaesthesia-induced neurotoxicity are introduced. Finally, an overview of the methods used in preclinical studies will be provided, with a comparison of the different animal models that have been employed to investigate this phenomenon.