Influence of Repeated Exposure to Neonatal Isoflurane on Sleep Architecture and Neuronal Delta and Theta Oscillations in Adolescent Rats.

Background: Normal sleep architecture is important for brain development, and we previously demonstrated that a single exposure to isoflurane during the neonatal period did not induce changes in the sleep architecture and only minimally altered neuronal beta oscillations in adolescent rats. Here, we hypothesized that a more clinically relevant scenario of repeated shorter exposures to isoflurane during brain development may have more profound effects on sleep and wake behavior and associated delta and theta oscillations, respectively.

Methods: Male and female rat pups were exposed to sham anesthesia (30% oxygen) or repeated isoflurane delivery for 2 hours each on 3 consecutive days (total exposure of 6 hours).

Facilitation of Ca 3.2 channel gating in pain pathways reveals a novel mechanism of serum-induced hyperalgesia.

The Ca 3.2 isoform of T-type voltage-gated calcium channels plays a crucial role in regulating the excitability of nociceptive neurons; the endogenous molecules that modulate its activity, however, remain poorly understood. Here, we used serum proteomics and patch-clamp physiology to discover a novel peptide albumin (1-26) that facilitates channel gating by chelating trace metals that tonically inhibit Ca 3.

Ciliopathy interacts with neonatal anesthesia to cause non-apoptotic caspase-mediated motor deficits.

Increasing evidence suggests that anesthesia may induce developmental neurotoxicity, yet the influence of genetic predispositions associated with congenital anomalies on this toxicity remains largely unknown. Children with congenital heart disease often exhibit mutations in cilia-related genes and ciliary dysfunction, requiring sedation for their catheter or surgical interventions during the neonatal period. Here we demonstrate that briefly exposing ciliopathic neonatal mice to ketamine causes motor skill impairments, which are associated with a baseline deficit in neocortical layer V neuron apical spine density and their altered dynamics during motor learning.

Comparing Anesthesia and Surgery Controlled Time for Primary Total Knee and Hip Arthroplasty Between an Academic Medical Center and a Community Hospital: Retrospective Cohort Study.

Background: Osteoarthritis is a significant cause of disability, resulting in increased joint replacement surgeries and health care costs. Establishing benchmarks that more accurately predict surgical duration could help to decrease costs, maximize efficiency, and improve patient experience. We compared the anesthesia-controlled time (ACT) and surgery-controlled time (SCT) of primary total knee (TKA) and total hip arthroplasties (THA) between an academic medical center (AMC) and a community hospital (CH) for 2 orthopedic surgeons.

The Role of Neuroactive Steroids in Analgesia and Anesthesia: An Interesting Comeback?

Published evidence over the past few decades suggests that general anesthetics could be neurotoxins especially when administered at the extremes of age. The reported pathology is not only at the morphological level when examined in very young and aged brains, given that, importantly, newly developing evidence suggests a variety of behavioral impairments. Since anesthesia is unavoidable in certain clinical settings, we should consider the development of new anesthetics.

Neonatal exposure to a neuroactive steroid alters low-frequency oscillations in the subiculum.

Preclinical studies have established that neonatal exposure to contemporary sedative/hypnotic drugs causes neurotoxicity in the developing rodent and primate brains. Our group recently reported that novel neuroactive steroid (3β,5β,17β)-3-hydroxyandrostane-17-carbonitrile (3β-OH) induced effective hypnosis in both neonatal and adult rodents but did not cause significant neurotoxicity in vulnerable brain regions such as subiculum, an output region of hippocampal formation particularly sensitive to commonly used sedatives/hypnotics. Despite significant emphasis on patho-morphological changes, little is known about long-term effects on subicular neurophysiology after neonatal exposure to neuroactive steroids.

Controversies in anesthesia-induced developmental neurotoxicity.

Advances in the field of pediatric anesthesiology have enabled the performance of complex and life-saving procedures with minimal patient discomfort. However, preclinical studies over the past two decades have been reporting substantial neurotoxic potential of general anesthetics in young brain, thus challenging the safety of these agents in pediatric anesthesiology practice. Notwithstanding the overwhelming preclinical evidence, the translatability of these findings has proven inconsistent in human observational studies.

Early exposure to general anaesthesia and increasing trends in developmental behavioural impairments: is there a link?

Over the past two decades there has been an increase in reports of attention deficit-hyperactivity disorder and perhaps autism spectrum disorder that appear to coincide with a substantial number of general anaesthesia interventions during early stages of human brain development. Is there a link between anaesthesia exposure and neurocognitive effects considering the growing body of evidence in numerous animal species, including humans, that suggests long-lasting socio-affective behavioural impairments after early exposure to general anaesthesia? Could routinely used general anaesthetics contribute as environmental toxins? Here we present the case that this notion is worthy of further consideration.

Ca3.1 T-type calcium channels are important for spatial memory processing in the dorsal subiculum.

The dorsal subiculum (dSub) is one of the key structures responsible for the formation of hippocampal memory traces but the contribution of individual ionic currents to its cognitive function is not well studied. Although we recently reported that low-voltage-activated T-type calcium channels (T-channels) are crucial for the burst firing pattern regulation in the dSub pyramidal neurons, their potential role in learning and memory remains unclear. Here we used in vivo local field potential recordings and miniscope calcium imaging in freely behaving mice coupled with pharmacological and genetic tools to address this gap in knowledge.

Sex-specific hypnotic effects of the neuroactive steroid (3β,5β,17β)-3-hydroxyandrostane-17-carbonitrile are mediated by peripheral metabolism into an active hypnotic steroid.

Background: The novel synthetic neuroactive steroid (3β,5β,17β)-3-hydroxyandrostane-17-carbonitrile (3β-OH) blocks T-type calcium channels but does not directly modulate neuronal γ-aminobutyric acid type A (GABA) currents like other anaesthetic neurosteroids. As 3β-OH has sex-specific hypnotic effects in adult rats, we studied the mechanism contributing to sex differences in its effects.

Methods: We used a combination of behavioural loss of righting reflex, neuroendocrine, pharmacokinetic, in vitro patch-clamp electrophysiology, and in vivo electrophysiological approaches in wild-type mice and in genetic knockouts of the Ca3.

The role of voltage-gated calcium channels in the mechanisms of anesthesia and perioperative analgesia.

Purpose Of Review: A family of neuronal voltage-gated calcium channels (VGCCs) have received only recently a significant consideration regarding the mechanisms of anesthesia because VGCC inhibition may be important in anesthetic action by decreasing neuronal excitability and presynaptic excitatory transmission. The T-type VGCCs channels (T-channels), although rarely involved in synaptic neurotransmitter release, play an important role in controlling neuronal excitability and in generating spontaneous oscillatory bursting of groups of neurons in the thalamus thought to be involved in regulating the state of arousal and sleep. Furthermore, these channels are important regulators of neuronal excitability in pain pathway.

Novel anesthetics in pediatric practice: is it time?

Purpose Of Review: Steadily mounting evidence of anesthesia-induced developmental neurotoxicity has been a challenge in pediatric anesthesiology. Considering that presently used anesthetics have, in different animal models, been shown to cause lasting behavioral impairments when administered at the peak of brain development, the nagging question, 'Is it time for the development of a new anesthetic' must be pondered.

Recent Findings: The emerging 'soft analogs' of intravenous anesthetics aim to overcome the shortcomings of currently available clinical drugs.

Further Evidence that Inhibition of Neuronal Voltage-Gated Calcium Channels Contributes to the Hypnotic Effect of Neurosteroid Analogue, 3β-OH.

We recently reported that a neurosteroid analogue with T-channel-blocking properties (3β,5β,17β)-3-hydroxyandrostane-17-carbonitrile (3β-OH), induced hypnosis in rat pups without triggering neuronal apoptosis. Furthermore, we found that the inhibition of the Ca3.1 isoform of T-channels contributes to the hypnotic properties of 3β-OH in adult mice.

Nonapoptotic caspases in neural development and in anesthesia-induced neurotoxicity.

Apoptosis, classically initiated by caspase pathway activation, plays a prominent role during normal brain development as well as in neurodegeneration. The noncanonical, nonlethal arm of the caspase pathway is evolutionarily conserved and has also been implicated in both processes, yet is relatively understudied. Dysregulated pathway activation during critical periods of neurodevelopment due to environmental neurotoxins or exposure to compounds such as anesthetics can have detrimental consequences for brain maturation and long-term effects on behavior.

The Mechanisms of Plasticity of Nociceptive Ion Channels in Painful Diabetic Neuropathy.

Treating pain in patients suffering from small fiber neuropathies still represents a therapeutic challenge for health care providers and drug developers worldwide. Unfortunately, none of the currently available treatments can completely reverse symptoms of either gain or loss of peripheral nerve sensation. Therefore, there is a clear need for novel mechanism-based therapies for peripheral diabetic neuropathy (PDN) that would improve treatment of this serious condition.

Benchmarking of Anesthesia and Surgical Control Times by Current Procedural Terminology (CPT®) Codes.

Over half of hospital revenue results from perioperative patient care, thus emphasizing the importance of efficient resource utilization within a hospital's suite of operating rooms (ORs). Predicting surgical case duration, including Anesthesia-controlled time (ACT) and Surgical-controlled time (SCT) has been significantly detailed throughout the literature as a means to help manage and predict OR scheduling. However, this information has previously been divided by surgical specialty, and only limited benchmarking data regarding ACT and SCT exists.

General Anesthesia and the Young Brain: The Importance of Novel Strategies with Alternate Mechanisms of Action.

Over the past three decades, we have been grappling with rapidly accumulating evidence that general anesthetics (GAs) may not be as innocuous for the young brain as we previously believed. The growing realization comes from hundreds of animal studies in numerous species, from nematodes to higher mammals. These studies argue that early exposure to commonly used GAs causes widespread apoptotic neurodegeneration in brain regions critical to cognition and socio-emotional development, kills a substantial number of neurons in the young brain, and, importantly, results in lasting disturbances in neuronal synaptic communication within the remaining neuronal networks.

Do We Have Viable Protective Strategies against Anesthesia-Induced Developmental Neurotoxicity?

Since its invention, general anesthesia has been an indispensable component of modern surgery. While traditionally considered safe and beneficial in many pathological settings, hundreds of preclinical studies in various animal species have raised concerns about the detrimental and long-lasting consequences that general anesthetics may cause to the developing brain. Clinical evidence of anesthetic neurotoxicity in humans continues to mount as we continue to contemplate how to move forward.

Testosterone: much more for the brain than a sex hormone.

Despite substantial advocacy for the scientific community to focus on sex-specific differences in biology, the role of sex hormones remains inadequately studied in the field of anaesthesia-induced developmental neurotoxicity. A recent study by Yang and colleagues published in this journal addresses the importance of studying sex hormones during critical stages of brain development. The authors demonstrate that exogenous testosterone administered to immature mice pups around the time of sevoflurane exposure increased brain levels of testosterone, attenuated tau phosphorylation, inhibited glycogen synthase kinase-3β activation and its interaction/binding with tau, reversed sevoflurane-induced decreases in neuronal activation, and attenuated cognitive impairments.

Synthetic neuroactive steroids as new sedatives and anaesthetics: Back to the future.

Since the 1990s, there has been waning interest in researching general anaesthetics (anaesthetics). Although currently used anaesthetics are mostly safe and effective, they are not without fault. In paediatric populations and neonatal animal models, they are associated with learning impairments and neurotoxicity.

Anesthesia and Cancer, Friend or Foe? A Narrative Review.

Cancer remains the leading cause of death worldwide with close to 10 million deaths reported annually. Due to growth of the advanced age cohort in our population, it is predicted that the number of new cancer cases diagnosed between now until 2035 is to reach potentially 24 million individuals, a staggering increase in a relatively short time period. For many solid tumors, surgical resection along with chemotherapy is the best available approach to a potential cure which leads to almost 80% of cancer patients undergoing at least one surgical procedure during the course of their disease.