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代谢性碱中毒的发病机制、诊断与治疗:2022 年核心课程。

Metabolic Alkalosis Pathogenesis, Diagnosis, and Treatment: Core Curriculum 2022.

机构信息

Division of Nephrology, University of New Mexico, and Veterans Administration Medical Center, Albuquerque, New Mexico.

Division of Nephrology, Department of Medicine, University of New Mexico Health Sciences Center, Albuquerque, New Mexico.

出版信息

Am J Kidney Dis. 2022 Oct;80(4):536-551. doi: 10.1053/j.ajkd.2021.12.016. Epub 2022 May 5.

DOI:10.1053/j.ajkd.2021.12.016
PMID:35525634
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10947768/
Abstract

Metabolic alkalosis is a widespread acid-base disturbance, especially in hospitalized patients. It is characterized by the primary elevation of serum bicarbonate and arterial pH, along with a compensatory increase in Pco consequent to adaptive hypoventilation. The pathogenesis of metabolic alkalosis involves either a loss of fixed acid or a net accumulation of bicarbonate within the extracellular fluid. The loss of acid may be via the gastrointestinal tract or the kidney, whereas the sources of excess alkali may be via oral or parenteral alkali intake. Severe metabolic alkalosis in critically ill patients-arterial blood pH of 7.55 or higher-is associated with significantly increased mortality rate. The kidney is equipped with sophisticated mechanisms to avert the generation or the persistence (maintenance) of metabolic alkalosis by enhancing bicarbonate excretion. These mechanisms include increased filtration as well as decreased absorption and enhanced secretion of bicarbonate by specialized transporters in specific nephron segments. Factors that interfere with these mechanisms will impair the ability of the kidney to eliminate excess bicarbonate, therefore promoting the generation or impairing the correction of metabolic alkalosis. These factors include volume contraction, low glomerular filtration rate, potassium deficiency, hypochloremia, aldosterone excess, and elevated arterial carbon dioxide. Major clinical states are associated with metabolic alkalosis, including vomiting, aldosterone or cortisol excess, licorice ingestion, chloruretic diuretics, excess calcium alkali ingestion, and genetic diseases such as Bartter syndrome, Gitelman syndrome, and cystic fibrosis. In this installment in the AJKD Core Curriculum in Nephrology, we will review the pathogenesis of metabolic alkalosis; appraise the precipitating events; and discuss clinical presentations, diagnoses, and treatments of metabolic alkalosis.

摘要

代谢性碱中毒是一种广泛存在的酸碱平衡紊乱,尤其在住院患者中更为常见。其特征为血清碳酸氢盐和动脉 pH 值原发性升高,同时由于适应性低通气导致 Pco2 代偿性增加。代谢性碱中毒的发病机制涉及固定酸的丢失或细胞外液中碳酸氢盐的净积累。酸的丢失可以通过胃肠道或肾脏发生,而碱的来源可能通过口服或胃肠外碱的摄入。危重患者(动脉血 pH 值≥7.55)发生严重代谢性碱中毒与死亡率显著增加相关。肾脏具有复杂的机制,可以通过增加碳酸氢盐的排泄来避免代谢性碱中毒的发生或持续(维持)。这些机制包括增加滤过、减少吸收以及通过特定肾单位段的特殊转运体增强碳酸氢盐的分泌。干扰这些机制的因素会损害肾脏消除多余碳酸氢盐的能力,从而促进代谢性碱中毒的发生或阻碍其纠正。这些因素包括容量收缩、肾小球滤过率降低、低钾血症、低氯血症、醛固酮过多和动脉二氧化碳升高。主要的临床状态与代谢性碱中毒相关,包括呕吐、醛固酮或皮质醇过多、甘草摄入、氯噻嗪类利尿剂、钙碱摄入过多以及遗传疾病,如巴特综合征、Gitelman 综合征和囊性纤维化。在本次 AJKD 肾脏病学核心课程中,我们将复习代谢性碱中毒的发病机制;评估诱发事件;并讨论代谢性碱中毒的临床表现、诊断和治疗。

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