Regulation of cerebrovascular resistance below the lower limit of cerebral autoregulation during induced hypotension: an observational study.

IF 9.1 1区医学 Q1 ANESTHESIOLOGY

British journal of anaesthesia Pub Date : 2025-02-28 DOI:10.1016/j.bja.2024.12.037

Eline Kho, Rokus E C van den Dool, Sandjiv S Mahes, Oskar T Corsmit, Alexander P J Vlaar, Dave R Koolbergen, Denise P Veelo, Nicholaas H Sperna Weiland, Rogier V Immink

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Abstract

Background: To maintain adequate perfusion, cerebral blood flow (CBF) is preserved by changes in cerebrovascular resistance (CVR) inversely related to fluctuations in mean arterial blood pressure (MAP). It has been hypothesised that during progressive hypotension, a lower limit of cerebral autoregulation (LLCA) is reached beyond which cerebrovascular dilation becomes exhausted and CBF starts to decrease together with BP. We tested this hypothesis by assessing CVR above and below the LLCA.

Methods: Radial arterial pressure, thermodilution cardiac output (CO), and mean middle cerebral artery blood velocity (MCAV_mean) were recorded during sustained intraoperative hypotension clinically needed for off-pump aortic root aneurysm surgery. For each participant, the individual LLCA was determined. Systemic vascular resistance (SVR) and CVR were calculated, and changes below and above the LLCA were assessed with a generalised linear effect models.

Results: For 50 participants undergoing aortic root surgery who met inclusion criteria, LLCA was located at 58 (12) mm Hg, with a corresponding MCAV_mean of 32 (8) cm s^-1 and CO of 5.1 (1.2) L min^-1. Above the LLCA, the decline in CVR and SVR were similar, both with 19% per 10 mm Hg decrease in MAP (P<0.001). Below the LLCA, CVR declined at a lower rate (7% per 10 mm Hg), whereas the decrease in SVR was 13% per 10 mm Hg decrease in MAP (both P<0.001).

Conclusions: The continuing decline of CVR below the LLCA indicated that brain vasculature is still able to react on changing BP. This implies that LLCA should not be regarded as a fixed point but rather a transitional zone between exhausted and normally functioning autoregulation.

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背景：为了维持足够的血流灌注，脑血管阻力（CVR）的变化与平均动脉血压（MAP）的波动成反比，从而维持脑血流量（CBF）。有一种假说认为，在进行性低血压过程中，脑自动调节（LLCA）会达到一个下限，超过这个下限，脑血管扩张就会衰竭，CBF 开始随血压下降而下降。我们通过评估高于和低于 LLCA 的 CVR 来验证这一假设：方法：我们记录了非抽吸主动脉根部动脉瘤手术临床所需的术中持续低血压时的桡动脉压、热稀释心输出量（CO）和大脑中动脉平均血流速度（MCAVmean）。确定了每位受试者的个体 LLCA。计算全身血管阻力（SVR）和CVR，并用广义线性效应模型评估低于和高于LLCA的变化：结果：50 名接受主动脉根部手术的患者符合纳入标准，LLCA 位于 58 (12) mm Hg，相应的 MCAVmean 为 32 (8) cm s-1，CO 为 5.1 (1.2) L min-1。在 LLCA 以上，CVR 和 SVR 的下降幅度相似，均为 MAP 每下降 10 mmHg 下降 19%（PConclusions.Net）：LLCA 以下 CVR 的持续下降表明，脑血管仍能对变化的血压做出反应。这意味着，LLCA 不应被视为一个固定点，而应被视为自动调节功能衰竭和正常运行之间的过渡区域。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

British journal of anaesthesia 医学-麻醉学

CiteScore

13.50

自引率

7.10%

发文量

488

审稿时长

27 days

期刊介绍： The British Journal of Anaesthesia (BJA) is a prestigious publication that covers a wide range of topics in anaesthesia, critical care medicine, pain medicine, and perioperative medicine. It aims to disseminate high-impact original research, spanning fundamental, translational, and clinical sciences, as well as clinical practice, technology, education, and training. Additionally, the journal features review articles, notable case reports, correspondence, and special articles that appeal to a broader audience. The BJA is proudly associated with The Royal College of Anaesthetists, The College of Anaesthesiologists of Ireland, and The Hong Kong College of Anaesthesiologists. This partnership provides members of these esteemed institutions with access to not only the BJA but also its sister publication, BJA Education. It is essential to note that both journals maintain their editorial independence. Overall, the BJA offers a diverse and comprehensive platform for anaesthetists, critical care physicians, pain specialists, and perioperative medicine practitioners to contribute and stay updated with the latest advancements in their respective fields.