Isoflurane exposure for three hours triggers apoptotic cell death in neonatal macaque brain

Noguchi, Kevin K.; Johnson, S. A.; Dissen, Gregory A.; Martin, Lauren Drew; Manzella, Francesca M.; Schenning, Katie J.; Olney, John W.; Brambrink, Ansgar M.

doi:10.1093/bja/aex123

Cited by 81 publications

(70 citation statements)

References 36 publications

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“…A single three h exposure to isoflurane significantly increases apoptosis of both neurons and oligodendrocytes in infant rhesus monkeys. 11 Repeated exposures of infant rhesus monkeys to sevoflurane resulted in increased anxiety-related behaviours after an acute stressor. 41 Furthermore, multiple exposures to isoflurane anaesthesia for five h caused motor reflex deficits and anxiety behaviours compared with naïve and single isoflurane exposure groups.…”

Section: Investigations In Vivomentioning

confidence: 99%

Thinking, fast and slow: highlights from the 2016 BJA seminar on anaesthetic neurotoxicity and neuroplasticity

Soriano

Vutskits

Jevtović-Todorović

et al. 2017

British Journal of Anaesthesia

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Section: Investigations In Vivomentioning

confidence: 99%

Thinking, fast and slow: highlights from the 2016 BJA seminar on anaesthetic neurotoxicity and neuroplasticity

Soriano

Vutskits

Jevtović-Todorović

et al. 2017

British Journal of Anaesthesia

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“…The mechanistic pathways underlying these unwanted effects of isoflurane have not been clearly delineated, though several studies suggest its neurotoxic effects to be attributed to the activation of several apoptotic pathways that include caspase‐3 activation (Noguchi et al, ), ribosomal protein S6 inhibition (Li, Xue, Luo, Hu, & Yu, ), over‐activation of GSK3β (Tao et al, ), and the FASL‐FAS signaling pathway (Yi, Cai, & Li, ). Activation of these apoptotic pathways leads to impaired synaptogenesis, neuroinflammation, and subsequent learning and memory deficits.…”

Section: Introductionmentioning

confidence: 99%

Repeated isoflurane in adult male mice leads to acute and persistent motor decrements with long‐term modifications in corpus callosum microstructural integrity

Bajwa

Lee

Halavi

et al. 2018

J of Neuroscience Research

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Isoflurane is a commonly used inhalational anesthetic, clinically and in animal experimental studies. Although it has been reported as safe, recent findings suggest that despite widespread use, isoflurane‐induced inhalational anesthesia can lead to various pathophysiological and cognitive alterations. Therefore, we aimed to investigate the long‐term behavioral and white matter consequences of repeated isoflurane exposure. Twenty 3‐month‐old C57BL/6J male mice received one exposure of isoflurane for 40 min or 2 exposures to isoflurane separated by 3 days. Behavioral paradigms (open field, balance beam, foot fault, rotarod, elevated zero maze, tail suspension, water maze, and social recognition tests) were administered at 1, 3, 5, 7, and 90 days post exposure. Animals exposed to repeated isoflurane showed significant motor deficits on the balance beam and increased anxiety‐like behavior. Animals exposed to single isoflurane showed impaired performance on the foot fault test. Diffusion tensor imaging showed that repeated isoflurane exposure led to long‐term disruption of water diffusivity in corpus callosum (CC) white matter. Furthermore, 2‐D structure‐tensor analysis from stained brain sections showed differences in the microstructural organization of CC white matter in mice with single versus repeated isoflurane exposures. These results suggest that behavioral deficits observed up to 90 days after repeated isoflurane exposure resulted from, at least in part, altered CC white matter microstructural integrity.

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“…Paule et al found that ketamine anesthesia for 24 hours led to long-term cognitive impairments in 7-dayold rhesus monkeys [19]. As shown in rodents, neonatal exposure to sevoflurane, isoflurane, nitric oxide, propofol, ketamine, and others was found to induce apoptosis of neurons and oligodendrocytes and long-term cognitive impairment in rhesus monkeys [10,[14][15][16][17][18][19][20][21][22]48]. Notably, a new important advance in this field was that recent findings showed that GA disrupted myelin formation in the developing brain of NHPs and mice [49,50].…”

Section: Advances In Nhpsmentioning

confidence: 97%

“…Among this research, a landmark study in this field showed that PND7 rats exhibited neuroapoptosis in a variety of brain regions and prolonged impairment in learning and memory after exposed to a commonly used anesthetic cocktail (N 2 O-midazolam-isoflurane) for 6 h [5]. Subsequent preclinical studies demonstrated that GA caused a vast amount of acute injury and long-term cognitive impairments in rodents [6][7][8][9][10][11][12][13] and nonhuman primates (NHP) [9,10,[14][15][16][17][18][19][20][21][22][23]. Even worse, exposure to GA in neonatal rodents produced adverse effects on the learning and memory of their offspring via epigenetic modulation [24][25][26][27].…”

Section: Introductionmentioning

confidence: 99%

General Anesthetic-Induced Neurotoxicity in the Immature Brain: Reevaluating the Confounding Factors in the Preclinical Studies

Luo

Tang

Zhao

et al. 2020

BioMed Research International

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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. Until now, nearly all of the preclinical findings show that neonatal exposure to GA causally leads to acute neural cell injury and delayed cognitive impairment. Unexpectedly, several influential clinical findings suggest that early life GA exposure, especially brief and single exposure, does not cause adverse neurodevelopmental outcome, which is not fully in line with the experimental findings and data from several previous cohort trials. As the clinical data have been critically discussed in previous reviews, in the present review, we try to analyze the potential factors of the experimental studies that may overestimate the adverse effect of GA on the developing brain. Meanwhile, we briefly summarized the advance in experimental research. Generally, our purpose is to provide some useful suggestions for forthcoming preclinical studies and strengthen the powerfulness of preclinical data.

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Isoflurane exposure for three hours triggers apoptotic cell death in neonatal macaque brain

Cited by 81 publications

References 36 publications

Thinking, fast and slow: highlights from the 2016 BJA seminar on anaesthetic neurotoxicity and neuroplasticity

Thinking, fast and slow: highlights from the 2016 BJA seminar on anaesthetic neurotoxicity and neuroplasticity

Repeated isoflurane in adult male mice leads to acute and persistent motor decrements with long‐term modifications in corpus callosum microstructural integrity

General Anesthetic-Induced Neurotoxicity in the Immature Brain: Reevaluating the Confounding Factors in the Preclinical Studies

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