Hørsdal Oskar Kjærgaard, Larsen Alexander Møller, Wethelund Kasper Lykke, Dalsgaard Frederik Flyvholm, Seefeldt Jacob Marthinsen, Helgestad Ole Kristian Lerche, Moeslund Niels, Møller Jacob Eifer, Ravn Hanne Berg, Nielsen Roni Ranghøj, Wiggers Henrik, Berg-Hansen Kristoffer, Gopalasingam Nigopan
Department of Clinical Medicine, Aarhus University, Aarhus, Denmark.
Department of Cardiology, Aarhus University Hospital, Aarhus, Denmark.
Basic Res Cardiol. 2025 Apr 12. doi: 10.1007/s00395-025-01103-2.
Cardiogenic shock (CS) is characterized by reduced cardiac output (CO), reduced end-organ perfusion, and high mortality. Medical therapies have failed to improve survival. The ketone body 3-hydroxybutyrate (3-OHB) enhances cardiac function in heart failure and CS. We aimed to elucidate the cardiovascular and cardiometabolic effects of 3-OHB treatment during CS. In a randomized, assessor-blinded crossover design, we studied 16 female pigs (60 kg, 5 months of age). CS was induced by left main coronary artery microsphere injections. Predefined criteria for CS were a 30% reduction in CO or mixed venous saturation (SvO). Intravenous 3-OHB infusion and a matching control solution were administered for 120 min in random order. Hemodynamic measurements were obtained by pulmonary artery catheterization and a left ventricular (LV) pressure-volume catheter. Myocardial mitochondrial function was assessed using high resolution respirometry. During CS, infusion with 3-OHB increased CO by 0.9 L/min (95%CI 0.4-1.3 L/min) compared with control infusion. SvO (P = 0.026) and heart rate (P < 0.001) increased. Stroke volume (P = 0.6) was not altered. LV contractile function as determined by LV end-systolic elastance improved during 3-OHB infusion compared with control infusion (P = 0.004). Systemic and pulmonary vascular resistance decreased, and diuresis increased. LV mitochondrial function was higher after 3-OHB infusion compared with control. We conclude that 3-OHB infusion enhances cardiac function by increasing contractility and reducing vascular resistance, while also preserving myocardial mitochondrial respiratory function in a large animal model of ischemic CS. These novel findings support the therapeutic potential of exogenous ketone supplementation in CS management.
心源性休克(CS)的特征是心输出量(CO)降低、终末器官灌注减少以及死亡率高。药物治疗未能提高生存率。酮体3-羟基丁酸酯(3-OHB)可增强心力衰竭和CS患者的心脏功能。我们旨在阐明CS期间3-OHB治疗对心血管和心脏代谢的影响。在一项随机、评估者盲法交叉设计中,我们研究了16头雌性猪(体重60千克,5月龄)。通过左冠状动脉主干注射微球诱导CS。CS的预定义标准是CO或混合静脉血氧饱和度(SvO)降低30%。以随机顺序静脉输注3-OHB和匹配的对照溶液120分钟。通过肺动脉导管插入术和左心室(LV)压力-容积导管进行血流动力学测量。使用高分辨率呼吸测定法评估心肌线粒体功能。在CS期间,与对照输注相比,输注3-OHB可使CO增加0.9升/分钟(95%CI 0.4-1.3升/分钟)。SvO(P = 0.026)和心率(P < 0.001)增加。每搏输出量(P = 0.6)未改变。与对照输注相比,在输注3-OHB期间,由左心室收缩末期弹性确定的左心室收缩功能有所改善(P = 0.004)。全身和肺血管阻力降低,尿量增加。与对照相比,输注3-OHB后左心室线粒体功能更高。我们得出结论,在缺血性CS的大型动物模型中,输注3-OHB可通过增加收缩力和降低血管阻力来增强心脏功能,同时还能保留心肌线粒体呼吸功能。这些新发现支持了外源性补充酮体在CS治疗中的潜在应用价值。
