Effects of Xenon on the Developing Brain: Current Insights from Pre-clinical and Clinical Studies.

Abstract

Research has indicated that general anesthetics may potentially induce neuroapoptosis, resulting in long-term neurological deficits in the developing brain. Fortunately, xenon, a noble gas, emerges as a promising candidate for an ideal anesthetic due to its favorable properties, offering neuroprotection and mitigating the neurotoxic effects of other general anesthetics during early life stages. Nevertheless, it is important to highlight that xenon has also been observed to cause neuroapoptosis in the neonatal brain, suggesting that xenon possesses both neuroprotective qualities (as evidenced by pre-clinical and clinical studies) and neurotoxic potential (based mainly on pre-clinical evidence) during brain development. To gain a comprehensive understanding the effects xenon, this review will explore the anesthetic properties of xenon, examine its effects on anesthesia, and elucidate its mechanisms of potential neuroprotection and neurotoxicity in the developing brain. The primary emphasis will be on xenon's application in the context of anesthetic-induced developmental neurotoxicity (AIDN), hypoxic-ischemic encephalopathy (HIE), and teratogenicity, aiming to provide valuable insights for pediatricians, pediatric anesthesiologists, and other healthcare professionals involved in the use and study of xenon anesthesia.