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SmartTots and IARS News, Press Releases and EventsSmartTots: Building Community and Advocating for Important Research
SmartTots pediatric anesthetic neurotoxicity thought leaders discuss the current status of the field and provide insights into the future of the research. View on YouTube.
Pediatric Anesthetic Neurotoxicity: Finding Ways to Move Forward
Pediatric anesthetic neurotoxicity investigators discuss the state of the research and identify compelling ways to move the field forward. View on YouTube.
Pediatric Anesthetic Neurotoxicity: Designing the Proper Study
Pediatric anesthetic neurotoxicity thought leaders ponder the feasibility of designing and conducting studies that successfully isolate the effects of anesthetics from the effects of the procedure or patient’s underlying condition. View on YouTube.
Pediatric Anesthetic Neurotoxicity: The Pre-Clinical Journey
Pediatric anesthetic neurotoxicity researchers discuss how pre-clinical studies are providing insight into the mechanisms of neurotoxicity, and the impact on the future of clinical studies. View on YouTube.
Panda Symposium
SmartTots – Perspectives from the Front Lines
Millions of children undergo surgery annually. Recent studies suggest there may be reason for concern. This video, featuring Dr. Dean Andropoulos, Dr. Peter Davis, and Dr. Caleb Ing, provides a summary as to why research is needed and the type that is needed.
SmartTots to Help Make Anesthetics and Sedatives Safer for Children
Dr. Janet Woodcock, director of the Center for Drug Evaluation and Research at the Food and Drug Administration, and Dr. Michael Roizen, of the International Anesthesia Research Society, unveil a new partnership that aims to make anesthesia safer for children.
Pediatric Anesthesia Questions and Myths-Mayo Clinic
Dr. Randall Flick at Mayo Clinic “debunks myths” and answers common questions raised by parents in regard to anesthesia.
Repeated neonatal exposure to sevoflurane induces age-dependent impairments in cognition and synaptic plasticity in mice.
Background Sevoflurane is a volatile anesthetic that is widely used in pediatric anesthesia due to its low toxicity. However, whether neonatal exposure to sevoflurane induces long-lasting cognitive impairment remains unclear. It has reported that neuronal injury is the main cause of sevoflurane induced learning and memory disabilities in the development of brain. But the specific mechanism is not well elucidated.
Sevoflurane-Induced Apoptosis in the Mouse Cerebral Cortex Follows Similar Characteristics of Physiological Apoptosis.
General anesthetics are capable of inducing neuronal apoptosis during the rapid synaptogenesis of immature mammalian brains. In this vulnerable time window, physiological apoptosis also occurs to eliminate excess and inappropriately integrated neurons.
Sevoflurane-Induced Neurotoxicity in the Developing Hippocampus via HIPK2/AKT/mTOR Signaling.
Sevoflurane (Sev) is a widely used inhalational anesthetic for general anesthesia in children. Previous studies have confirmed that multiple exposures to inhaled anesthetic can induce long-term neurotoxicity in newborn mice.
The role and mechanism of TLR4-siRNA in the impairment of learning and memory in young mice induced by isoflurane.
Background: Isoflurane can significantly induce inflammation in children without surgical stress. The toll-like receptor 4 (TLR4) is closely related to noninfectious inflammation in the brain.
Echinacoside alleviates sevoflurane-induced cognitive dysfunction by activating FOXO1-mediated autophagy.
The current study aimed to examine the effects of echinacoside on cognitive impairment in mice after exposure to sevoflurane. To examine the role of FOXO1, si-FOXO1 and si-con were injected into the hippocampus through the left lateral cerebral ventricles.
Does Resveratrol Prevent Sevoflurane Toxicity in Newborn Rats?
Inhalation anesthetics have been shown to cause neurodevelopmental disorders and neurotoxic effects. In this study, we aimed to investigate the effect of resveratrol on the possible neurotoxic effect of sevoflurane and the brain-derived neurotrophic factor (BDNF) pathway in newborn rats.