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Exposure to anaesthetic drugs during the fetal or neonatal period induces widespread neuronal apoptosis in the brains of rodents and non-human primates. Hundreds of published preclinical studies and nearly 20 clinical studies have documented cognitive and behavioural deficits many months or years later, raising the spectre that early life anaesthesia exposure is a long-term, perhaps permanent, insult that might affect the quality of life of millions of humans.

Purpose: To evaluate the effects of sex on miRNA expression in the hippocampus after isoflurane anesthesia in a neonatal piglet model.

Anesthetics, such as isoflurane, sevoflurane, ketamine, and desflurane, are commonly used in clinics. Specifically, isoflurane is one of the most commonly used inhalational anesthetics, which can be used in surgery patients of all ages, including children.

Propofol is an intravenous drug commonly used in anesthesia procedures and intensive care in children. However, it also has neurotoxic effects on children. MicroRNA plays an important role in neurological diseases and neurotoxicity.

General anesthetic (GA) is used clinically to millions of young children each year to facilitate surgical procedures, relieve perioperative stress, and provide analgesia and amnesia. During recent years, there is a growing concern regarding a causal association between early life GA exposure and subsequently long-term neurocognitive abnormalities. To address the increasing concern, mounting preclinical studies and clinical trials have been undergoing.

Every day children of all ages are sedated or anaesthetized for dental treatment both in the hospital and more commonly now in the dental office. The use of physical restraint for a dental procedure in a child has largely been replaced or significantly reduced with the use of sedative or general anaesthetic drugs.