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In their recent letter to the editor, Sagi-Dain et al. severely criticized our recent study entitled “Exposure to general anesthesia may contribute to the association between cesarean delivery and autism spectrum disorder” by Huberman et al. Here, we respond point-by-point to their criticism, clarify several false statements and interpretations, and explain the importance and validity of our study.

Cesarean section (CS) has been consistently associated with susceptibility to autism spectrum disorder (ASD), however, the underlying mechanism for this association remains vague. Here, we studied various pre-peri-and-neonatal factors among 347 children with ASD, 117 children with other developmental delays (DD), and 2226 age, sex and ethnicity matched controls.

Numerous studies suggest a long duration of anesthesia during the late gestation period and infancy is associated with an increased risk of neuronal damage and neurocognitive impairment. The noble gas xenon is an anesthetic that is reported to have neuroprotective effects in some circumstances at certain concentrations. Currently, the effects of xenon on the brain and its potential neuroprotective properties, and/or the effects of xenon used in combination with other anesthetics, are not clearly understood and some reported data appear contradictory.

An increasing number of studies have found that use of traditional anesthetics may lead to cognitive impairment of the immature brain. Our previous studies verified that cyclin-dependent kinase 5 (CDK5) plays a role in sevoflurane-induced cognitive dysfunction. Autophagy was shown to protect against anesthesia-induced nerve injury. Therefore, the current study aimed to ascertain if autophagy participates in anesthesia-induced neurotoxicity.

Anesthesia in pregnant women may cause adverse effects in the hippocampus of unborn babies and fetal brain development. The mechanisms underlying pathological changes resulting from anesthetics are unclear. This study tested the hypothesis that exposure to desflurane during pregnancy may impair cognition and memory functions of juvenile offspring.

Ketamine is an anesthetic and analgesic drug widely used in clinical anesthesia. To ensure the safety of anesthesia, it is necessary to study its side effects. Pregnancy is a key period for the development and growth of offspring. During this period, the proliferation and differentiation of brain cells and the synaptic formation are easily affected by external stimuli.