Beneficial Effect of Calcium Treatment for Hyperkalemia Is Not Due to "Membrane Stabilization".

IF 7.7 1区医学 Q1 CRITICAL CARE MEDICINE Critical Care Medicine Pub Date : 2024-10-01 Epub Date: 2024-07-24 DOI:10.1097/CCM.0000000000006376

Joseph S Piktel, Xiaoping Wan, Shalen Kouk, Kenneth R Laurita, Lance D Wilson

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Abstract

Objectives: Hyperkalemia is a common life-threatening condition causing severe electrophysiologic derangements and arrhythmias. The beneficial effects of calcium (Ca 2+ ) treatment for hyperkalemia have been attributed to "membrane stabilization," by restoration of resting membrane potential (RMP). However, the underlying mechanisms remain poorly understood. Our objective was to investigate the mechanisms underlying adverse electrophysiologic effects of hyperkalemia and the therapeutic effects of Ca 2+ treatment.

Design: Controlled experimental trial.

Setting: Laboratory investigation.

Subjects: Canine myocytes and tissue preparations.

Interventions and measurements: Optical action potentials and volume averaged electrocardiograms were recorded from the transmural wall of ventricular wedge preparations ( n = 7) at baseline (4 mM potassium), hyperkalemia (8-12 mM), and hyperkalemia + Ca 2+ (3.6 mM). Isolated myocytes were studied during hyperkalemia (8 mM) and after Ca 2+ treatment (6 mM) to determine cellular RMP.

Main results: Hyperkalemia markedly slowed conduction velocity (CV, by 67% ± 7%; p < 0.001) and homogeneously shortened action potential duration (APD, by 20% ± 10%; p < 0.002). In all preparations, this resulted in QRS widening and the "sine wave" pattern observed in severe hyperkalemia. Ca 2+ treatment restored CV (increase by 44% ± 18%; p < 0.02), resulting in narrowing of the QRS and normalization of the electrocardiogram, but did not restore APD. RMP was significantly elevated by hyperkalemia; however, it was not restored with Ca 2+ treatment suggesting a mechanism unrelated to "membrane stabilization." In addition, the effect of Ca 2+ was attenuated during L-type Ca 2+ channel blockade, suggesting a mechanism related to Ca 2+ -dependent (rather than normally sodium-dependent) conduction.

Conclusions: These data suggest that Ca 2+ treatment for hyperkalemia restores conduction through Ca 2+ -dependent propagation, rather than restoration of membrane potential or "membrane stabilization." Our findings provide a mechanistic rationale for Ca 2+ treatment when hyperkalemia produces abnormalities of conduction (i.e., QRS prolongation).

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钙治疗对高钾血症的益处并非由于 "膜稳定"。

目的：高钾血症是一种常见的危及生命的疾病，可导致严重的电生理紊乱和心律失常。钙（Ca 2+ ）治疗对高钾血症的有益作用被归因于通过恢复静息膜电位（RMP）实现 "膜稳定"。然而，人们对其基本机制仍然知之甚少。我们的目的是研究高钾血症的不良电生理效应和 Ca 2+ 治疗效果的内在机制：设计：对照实验试验：受试者：犬肌细胞和组织制备物干预和测量：在基线（4 毫摩尔钾）、高钾血症（8-12 毫摩尔）和高钾血症 + Ca 2+ （3.6 毫摩尔）条件下，从心室楔形制备体（n = 7）的跨壁记录光学动作电位和体积平均心电图。在高钾血症（8 毫摩尔）期间和 Ca 2+ 处理（6 毫摩尔）后对分离的心肌细胞进行研究，以确定细胞 RMP：高钾血症明显减慢了传导速度（CV，67% ± 7%；p < 0.001），并均匀缩短了动作电位持续时间（APD，20% ± 10%；p < 0.002）。在所有制剂中，这都导致 QRS 增宽和严重高钾血症中观察到的 "正弦波 "模式。Ca 2+ 治疗可恢复 CV（增加 44% ± 18%；p < 0.02），导致 QRS 变窄和心电图正常化，但不能恢复 APD。高钾血症使 RMP 明显升高，但 Ca 2+ 处理后 RMP 并未恢复，这表明其机制与 "膜稳定 "无关。此外，在 L 型 Ca 2+ 通道阻滞期间，Ca 2+ 的作用减弱，这表明其机制与 Ca 2+ 依赖性（而非通常的钠依赖性）传导有关：这些数据表明，Ca 2+ 治疗高钾血症可通过 Ca 2+ 依赖性传播恢复传导，而不是恢复膜电位或 "膜稳定"。我们的研究结果为高钾血症导致传导异常（即 QRS 延长）时的 Ca 2+ 治疗提供了机理依据。

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

Critical Care Medicine 医学-危重病医学

CiteScore

16.30

自引率

5.70%

发文量

728

审稿时长

2 months

期刊介绍： Critical Care Medicine is the premier peer-reviewed, scientific publication in critical care medicine. Directed to those specialists who treat patients in the ICU and CCU, including chest physicians, surgeons, pediatricians, pharmacists/pharmacologists, anesthesiologists, critical care nurses, and other healthcare professionals, Critical Care Medicine covers all aspects of acute and emergency care for the critically ill or injured patient. Each issue presents critical care practitioners with clinical breakthroughs that lead to better patient care, the latest news on promising research, and advances in equipment and techniques.