Division of Cardiovascular Medicine Vanderbilt University Medical Center Nashville TN.
Division of Diabetes, Endocrinology, and Metabolism Vanderbilt University Medical Center Nashville TN.
J Am Heart Assoc. 2020 Nov 17;9(22):e018349. doi: 10.1161/JAHA.120.018349. Epub 2020 Nov 10.
Background Metabolic dysfunction is highly prevalent in pulmonary arterial hypertension (PAH) and likely contributes to both pulmonary vascular disease and right ventricular (RV) failure in part because of increased oxidant stress. Currently, there is no cure for PAH and human studies of metabolic interventions, generally well tolerated in other diseases, are limited in PAH. Metformin is a commonly used oral antidiabetic that decreases gluconeogenesis, increases fatty acid oxidation, and reduces oxidant stress and thus may be relevant to PAH. Methods and Results We performed a single-center, open-label 8-week phase II trial of up to 2 g/day of metformin in patients with idiopathic or heritable PAH with the co-primary end points of safety, including development of lactic acidosis and study withdrawal, and plasma oxidant stress markers. Exploratory end points included RV function via echocardiography, plasma metabolomic analysis performed before and after metformin therapy, and RV triglyceride content by magnetic resonance spectroscopy in a subset of 9 patients. We enrolled 20 patients; 19/20 reached the target dose and all completed the study protocol. There was no clinically significant lactic acidosis or change in oxidant stress markers. Metformin did not change 6-minute walk distance but did significantly improve RV fractional area change (23±8% to 26±6%, =0.02), though other echocardiographic parameters were unchanged. RV triglyceride content decreased in 8/9 patients (3.2±1.8% to 1.6±1.4%, =0.015). In an exploratory metabolomic analysis, plasma metabolomic correlates of ≥50% reduction in RV lipid included dihydroxybutyrate, acetylputrescine, hydroxystearate, and glucuronate (<0.05 for all). In the entire cohort, lipid metabolites were among the most changed by metformin. Conclusions Metformin therapy was safe and well tolerated in patients with PAH in this single-arm, open-label phase II study. Exploratory analyses suggest that metformin may be associated with improved RV fractional area change and, in a subset of patients, reduced RV triglyceride content that correlated with altered lipid and glucose metabolism markers. Registration URL: http://www.clinicaltrials.gov; Unique identifier: NCT01884051.
背景 代谢功能障碍在肺动脉高压(PAH)中非常普遍,并且可能导致肺血管疾病和右心室(RV)衰竭,部分原因是氧化应激增加。目前,PAH 尚无治愈方法,而在其他疾病中通常耐受良好的人类代谢干预研究在 PAH 中受到限制。二甲双胍是一种常用的口服降糖药,可减少糖异生,增加脂肪酸氧化,减少氧化应激,因此可能与 PAH 相关。
方法和结果 我们进行了一项单中心、开放标签的 8 周二甲双胍治疗特发性或遗传性 PAH 患者的 II 期试验,主要终点为安全性,包括乳酸酸中毒和研究退出的发生,以及血浆氧化应激标志物。探索性终点包括通过超声心动图评估 RV 功能、二甲双胍治疗前后的血浆代谢组学分析,以及 9 例患者的 RV 甘油三酯含量。我们共纳入 20 例患者;20/20 例患者达到目标剂量,且所有患者均完成研究方案。无临床显著的乳酸酸中毒或氧化应激标志物变化。二甲双胍未改变 6 分钟步行距离,但显著改善 RV 分数面积变化(23±8%至 26±6%,=0.02),尽管其他超声心动图参数无变化。9 例患者中有 8 例(3.2±1.8%至 1.6±1.4%,=0.015)RV 甘油三酯含量下降。在一项探索性代谢组学分析中,RV 脂质减少≥50%的血浆代谢组学相关性包括二羟丁酸、乙酰腐胺、羟基硬脂酸和葡萄糖醛酸(所有指标均<0.05)。在整个队列中,二甲双胍最能改变脂质代谢物。
结论 在这项单臂、开放标签的 II 期研究中,PAH 患者使用二甲双胍治疗安全且耐受良好。探索性分析表明,二甲双胍可能与 RV 分数面积变化改善相关,且在一部分患者中 RV 甘油三酯含量降低,与改变的脂质和葡萄糖代谢标志物相关。
