Laryngoscopy mediated stress response induces opposite effects on cerebral and paraspinal oxygen saturation

IF 0.1 Q4 ANESTHESIOLOGY
C. Vanpeteghem, S. D. De Hert, A. Moerman
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引用次数: 0

Abstract

Background: Intraoperative sympathetic stimulation induces a cascade of metabolic and hormonal changes. It increases perfusion of vital organs, but also causes vasoconstriction of blood vessels supplying less vital organs, potentially leading to organ injury. To date, it is unknown how an endogenous stress reaction affects the spinal cord blood supply. Near-infrared spectroscopy (NIRS) can be applied paravertebrally to monitor the oxygenation of the collateral network, which contributes to the spinal cord blood supply. It has already been demonstrated that regional cerebral oxygen saturation (rScO2) increases following sympathetic stimulation. Objectives: We hypothesized that laryngoscopy would cause an increase in cerebral and paraspinal regional tissue saturations (rScO2 and rSpsO2, respectively). Design: Retrospective analysis of a previous conducted randomized trial. Setting: Laryngoscopy in the operating room. Methods: Data of 28 patients, scheduled for arterial dilation of the lower limb, were retrospectively analyzed. Before induction of anesthesia, standard monitoring, BIS and 8 NIRS sensors were applied (two on the forehead, six bilaterally on the back at T3-T4, T9-T10 and L1-L2). Sympathetic stimulation was induced by laryngoscopy. Main outcome measures: Changes in rStO2 following sympathetic stimulation induced by laryngoscopy. Results: Following laryngoscopy, rScO2 significantly increased and rSpsO2 significantly decreased at T9-T10 and L1-L2. The relative changes (regional tissue oxygen saturation (rStO2) after intubation-rStO2 before intubation)/ rStO2 before intubation), at cerebral level, T9-T10 and L1-L2 were 9%, -5% and -3%, respectively (p < 0.01). rSpsO2 at T3-T4 did not change significantly. Changes (Δ) in mean arterial pressure following laryngoscopy were weakly correlated with ΔrScO2 and moderately correlated with ΔrSpsO2 at T9-T10 and L1-L2. Conclusions: Intraoperative sympathetic stimulation may decrease the oxygen supply to the spinal cord. Trial registration: The trial was registered at ClinicalTrials.gov (NCT 03767296).
喉镜介导的应激反应对脑和棘旁氧饱和度有相反的影响
背景:术中交感神经刺激会引起一连串的代谢和激素变化。它增加了重要器官的灌注,但也会导致供应不太重要器官的血管收缩,可能导致器官损伤。到目前为止,还不知道内源性应激反应如何影响脊髓血液供应。近红外光谱(NIRS)可用于椎旁监测侧支网络的氧合,这有助于脊髓血液供应。已经证明,交感神经刺激后局部脑氧饱和度(rScO2)增加。目的:我们假设喉镜检查会导致大脑和棘旁区域组织饱和度增加(分别为rScO2和rSpsO2)。设计:对先前进行的随机试验的回顾性分析。设置:在手术室进行喉镜检查。方法:回顾性分析28例下肢动脉扩张患者的临床资料。麻醉诱导前,应用标准监测、BIS和8个NIRS传感器(两个在前额,六个在T3-T4、T9-T10和L1-L2的双侧背部)。喉镜刺激交感神经。主要观察指标:喉镜刺激交感神经后rStO2的变化。结果:喉镜检查后,T9-T10和L1-L2的rScO2显著升高,rSpsO2显著降低。气管插管后局部组织血氧饱和度(rStO2)与气管插管前rStO2比较,T9-T10和L1-L2的相对变化分别为9%、-5%和-3%(p<0.01),T3-T4的rSpsO2变化不显著。喉镜检查后平均动脉压的变化(Δ)在T9-T10和L1-L2与ΔrScO2弱相关,与ΔrSpsO2中等相关。结论:术中交感神经刺激可能会减少脊髓的氧气供应。试验注册:该试验在ClinicalTrials.gov上注册(NCT 03767296)。
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来源期刊
CiteScore
0.20
自引率
0.00%
发文量
2
期刊介绍: L’Acta Anaesthesiologica Belgica est le journal de la SBAR, publié 4 fois par an. L’Acta a été publié pour la première fois en 1950. Depuis 1973 l’Acta est publié dans la langue Anglaise, ce qui a été résulté à un rayonnement plus internationaux. Depuis lors l’Acta est devenu un journal à ne pas manquer dans le domaine d’Anesthésie Belge, offrant e.a. les textes du congrès annuel, les Research Meetings, … Vous en trouvez aussi les dates des Research Meetings, du congrès annuel et des autres réunions.
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