Clinical Use of Hypertonic Lactate - Current Evidence and Emerging Perspectives.

The Journal of clinical endocrinology and metabolism Pub Date : 2025-05-29 DOI:10.1210/clinem/dgaf321

Mette Glavind Bülow Pedersen, Jens Hohwü Voigt, Esben Søndergaard, Niels Møller, Nikolaj Rittig

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Abstract

Context: Lactate has traditionally been viewed as a metabolic byproduct associated with metabolic acidosis, exercise-induced fatigue, and cancer metabolism. However, accumulating evidence highlights its valuable role as an alternative fuel and a key signaling molecule. Hypertonic sodium lactate infusions have gained interest for their potential therapeutic applications, particularly in neurology and cardiology. This review examines the established and potential clinical uses of exogenous hypertonic lactate treatment.

Evidence acquisition: A literature search was conducted in PubMed and Medline using the keywords: hypertonic lactate, half-molar sodium lactate, sodium lactate, and exogenous lactate.The search was limited to human studies investigating hypertonic sodium lactate solutions with a lactate concentration ≥500 mmol/L as an intervention. Case reports, pediatric studies, preclinical research, and studies in psychiatric populations were excluded.

Evidence synthesis: Infusion of hypertonic lactate has demonstrated promising effects across several clinical settings, serving as an alternative fuel for the brain that supports up to 20% of cerebral energy metabolism. In patients with traumatic brain injury (TBI), lactate treatment increases cerebral glucose availability, reduces intracranial pressure, and enhances cognitive recovery. In the heart, lactate infusion increases cardiac output, stroke volume, and ejection fraction, potentially benefiting heart failure patients. Hypertonic lactate infusions are generally well tolerated, with minor electrolyte changes as the most common side effect.

Conclusions: Lactate is emerging as a therapeutic agent beyond its traditional role in metabolism. Hypertonic sodium lactate infusions have potential therapeutic benefits within neurology and cardiology, but large-scale trials are required to evaluate efficacy, optimize dosing, and assess long-term safety.

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高渗乳酸的临床应用-目前的证据和新兴的观点。

背景：乳酸传统上被视为与代谢性酸中毒、运动性疲劳和癌症代谢相关的代谢副产物。然而，越来越多的证据强调了它作为替代燃料和关键信号分子的宝贵作用。高渗乳酸钠输注因其潜在的治疗应用而引起了人们的兴趣，特别是在神经病学和心脏病学方面。本文综述了外源性高渗乳酸治疗已建立的和潜在的临床应用。证据获取：使用关键词：高渗乳酸、半摩尔乳酸钠、乳酸钠和外源性乳酸，在PubMed和Medline进行文献检索。该研究仅限于研究乳酸浓度≥500 mmol/L的高渗乳酸钠溶液作为干预措施的人类研究。病例报告、儿科研究、临床前研究和精神病学人群的研究被排除在外。证据综合：高渗乳酸的输注已在多个临床环境中显示出良好的效果，可作为大脑的替代燃料，支持高达20%的大脑能量代谢。在外伤性脑损伤（TBI）患者中，乳酸治疗可增加脑葡萄糖可用性，降低颅内压，并增强认知恢复。在心脏中，乳酸输注增加心输出量、每搏量和射血分数，对心力衰竭患者有潜在的益处。高渗乳酸输注通常耐受性良好，最常见的副作用是轻微的电解质变化。结论：乳酸盐正在成为一种超越其传统代谢作用的治疗药物。高渗乳酸钠输注在神经病学和心脏病学方面具有潜在的治疗益处，但需要大规模试验来评估疗效、优化剂量和评估长期安全性。

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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The Journal of clinical endocrinology and metabolism

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