Xenon Improves Neurologic Outcome and Reduces Secondary Injury Following Trauma in an In Vivo Model of Traumatic Brain Injury*

Campos-Pires, Rita; Armstrong, Stephanie J.; Sebastiani, Anne; Luh, Clara; Gruß, Marco; Radyushkin, Konstantin; Hirnet, Tobias; Werner, Christian; Engelhard, Kristin; Franks, Nicholas P.; Thal, Serge C.; Dickinson, Robert

doi:10.1097/ccm.0000000000000624

Cited by 58 publications

(51 citation statements)

References 70 publications

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“…In accordance with previous reports, we opted to use a 3-hour xenon treatment interval. [21,40] The present results indicate that xenon has the greatest neuroprotective effect in the range of 37.5-50 vol%, which is consistent with previous studies that 50% xenon can provide su cient neuroprotective effect . [41][42][43] On the contrary, others have shown that xenon at 75% volume concentration has the greatest neuroprotective effect and does not affect oxygenation [41].…”

Section: Discussionsupporting

confidence: 92%

The Neuroprotective Effects of Xenon on Neonatal Rats with White Matter Damage by Regulating Expression of microRNA-210 and HIF-1αThe Neuroprotective Effects of Xenon on Neonatal Rats with White Matter Damage by Regulating Expression of microRNA-210 and HIF-1α

Yin

Zhao²,

Jian

et al. 2020

Preprint

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Background:Premature infant is a significant health care burden. White matter damage (WMD) is a leading cause of acute mortality and chronic morbidity in preterm. Xenon (Xe) intervention was given to the 3-day-old neonatal rats with brain white matter injury. By detecting the changes in the expression level of microRNA210 and hypoxia inducible factor 1α (HIF-1α) in brain tissue before and after xenon intervention, we can research the molecular basis and the mechanism of neuroprotective on effect of xenon on brain white matter damage in neonatal rats.Methods:Three-day-old SD rats were randomly divided into sham group(Group A, n=24), lipopolysaccharide(LPS)+hypoxia-ischemia(HI) group (Group B, n=24) and LPS+HI+Xe group ( n=72). The onset of Xe inhalation started at 0,2 and 5 hours in subgroups C,D,and E respectively.We investigated the neurobehavioral deficits by performing TUNEL and hematoxylin and eosin (HE) staining and examining the expression of miR-210and HIF-1α in brain tissues via RT-PCR and western blot. Results: Xe treatment improved the histological alterations and decreased the number of apoptotic cells in group C pups.Compared to group A,Detection of miR-210 level by RT-PCR. the expression level of miR-210 in neonatal rats' periventricular tissue increased significantly at all time points in group B (p<0.05).While the expression level of miR-210 in brain tissues of group B was significantly lower at 48h and 72h than that of group C(p<0.05).Similarly,Detection of HIF-1α protein by Western blot. The level of HIF-1α protein in group B brain tissues was significantly higher than that of group A at each time point (p<0.05), Xe treatment resulted in a marked increase in HIF-1α in C,D, and E subgroups (P < 0.05, compared to group B).Conclusions: These results demonstrate that the expression of HIF-1α and miR-210 increased in periventricular tissues and Xe could relieve the white matter damage by up-regulating the expression of HIF-1α and its target gene miR-210.The Xe therapeutic time window was within 5 hours after intervention, the sooner the better.

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Section: Discussionsupporting

confidence: 92%

The Neuroprotective Effects of Xenon on Neonatal Rats with White Matter Damage by Regulating Expression of microRNA-210 and HIF-1αThe Neuroprotective Effects of Xenon on Neonatal Rats with White Matter Damage by Regulating Expression of microRNA-210 and HIF-1α

Yin

Zhao²,

Jian

et al. 2020

Preprint

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“…In this study, we investigated the acute neuroprotective outcomes of Xe in an in vivo model of premature brain injury. In accordance with previous reports, we opted to use a 3-h Xe treatment interval [14, 23]. Ma et al [3] previously demonstrated that Xe upregulated the prosurvival proteins Bcl-2 and brain-derived neurotrophic factor (BDNF) to ameliorate brain injury in asphyxiated rats.…”

Section: Discussionmentioning

confidence: 99%

Impact of Xenon on CLIC4 and Bcl-2 Expression in Lipopolysaccharide and Hypoxia-Ischemia-Induced Periventricular White Matter Damage

et al. 2018

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Background: Premature birth is a significant health care burden. Xenon (Xe) is a general anesthetic with neuroprotective effects. Objectives: Here, we investigate the neuroprotective role of Xe in a lipopolysaccharide (LPS)- and hypoxia-ischemia (HI)-induced white matter damage (WMD) model. Methods: Three-day-old Sprague-Dawley rats were randomly divided into a sham group (group A, n = 24), an LPS + HI group (group B, n = 24), and an LPS + HI + Xe group (group C, n = 72). The onset of Xe inhalation started at 0, 2, and 5 h in subgroups C1, C2, and C3, respectively. Next, we performed TUNEL and hematoxylin and eosin (HE) staining; and examined the expression of CLIC4 and Bcl-2 in brain tissues. Results: HE staining revealed distorted cytoarchitecture, tangled nerve fibers, and pyknosis in group B, while Xe treatment improved these histological alterations in the group C pups. Following LPS and HI insult, the number of apoptotic cells significantly increased in group B at 48 and 72 h (p < 0.05), and Xe significantly alleviated apoptosis (p < 0.001) at 24, 48, and 72 h, respectively. Similarly, CLIC4 mRNA expression was significantly increased in group B (p < 0.05), and Xe produced a marked reduction in CLIC4 mRNA expression in group C subgroups (p < 0.05). Western blotting demonstrated enhanced Bcl-2 expression in group C when compared to group B (p < 0.05). Conclusions: These results demonstrate that LPS and HI successfully induced WMD, and Xe decreased neuronal apoptosis via Bcl-2- and CLIC4-mediated pathways. Moreover, the therapeutic time window of Xe extended for up to 5 h. These findings suggest that Xe can be used as a protective treatment for WMD in premature infants.

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“…Neurologic injuries that invoke these mechanisms include ischemic-reperfusion injury after successful resuscitation from cardiac arrest ("postcardiac arrest syndrome" 15 ), stroke, traumatic brain injury, and neonatal asphyxia ("hypoxia-induced encephalopathy"); in preclinical models, xenon has been shown to be efficacious in each of these acute neurologic injuries. [16][17][18][19] Preliminary results of clinical trials investigating xenon's efficacy in limiting ongoing injury in postcardiac arrest syndrome have reported on the feasibility and safety of delivering xenon to these critically ill patients 20 ; a recently completed phase II clinical trial exploring xenon's efficacy in this setting will report soon. A preliminary clinical report on the use of xenon for hypoxia-induced encephalopathy revealed fewer convulsions, a clinical complication that is known to have an adverse effect on outcome.…”

mentioning

confidence: 99%

Will Xenon Be a Valuable Addition in Perioperative and Critical Care Settings?

Maze

Pirracchio

2016

Anesthesia &Amp; Analgesia

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Xenon Improves Neurologic Outcome and Reduces Secondary Injury Following Trauma in an In Vivo Model of Traumatic Brain Injury*

Cited by 58 publications

References 70 publications

The Neuroprotective Effects of Xenon on Neonatal Rats with White Matter Damage by Regulating Expression of microRNA-210 and HIF-1αThe Neuroprotective Effects of Xenon on Neonatal Rats with White Matter Damage by Regulating Expression of microRNA-210 and HIF-1α

The Neuroprotective Effects of Xenon on Neonatal Rats with White Matter Damage by Regulating Expression of microRNA-210 and HIF-1αThe Neuroprotective Effects of Xenon on Neonatal Rats with White Matter Damage by Regulating Expression of microRNA-210 and HIF-1α

Impact of Xenon on CLIC4 and Bcl-2 Expression in Lipopolysaccharide and Hypoxia-Ischemia-Induced Periventricular White Matter Damage

Will Xenon Be a Valuable Addition in Perioperative and Critical Care Settings?

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