Increased cardiac glucose uptake in sepsis-induced myocardial dysfunction: a three-tracer positron emission tomography imaging observational cohort study
摘要
Sepsis-induced myocardial dysfunction (SIMD) is common in septic shock (SS), but its cardiac energy profile in the context of contractile impairment remains poorly understood. Previous evidence is limited and largely based on invasive methods, suggesting reduced myocardial fatty acid and glucose utilization.
MethodsIn this pilot, single-center, prospective observational study, patients were recruited within 48 hours of admission for circulatory shock and/or heart failure, and classified into three groups based on clinical history and early echocardiography: (i) SS with SIMD, (ii) SS without SIMD, and (iii) acute heart failure with reduced ejection fraction (AHFrEF) without SS. Sequential cardiac PET imaging was performed using three tracers (acetate, palmitate, and fluorodeoxyglucose [FDG]). The primary objective as a pilot study was to assess feasibility in generating preliminary signals of changing myocardial energy profiles between groups; secondary objectives included assessing cross-compensation of glucose and fatty acids in SS with SIMD and its association with contractile impairment.
ResultsTwenty-four patients underwent PET imaging with kinetic analyses. Myocardial glucose uptake was significantly higher in SS with SIMD than without (median [IQR]: 19.1 [11.3–31.8] vs. 1.3 [0.1–4.0] μmol/100 g/min; p = 0.0071), and the uptake gap between fatty acids and glucose was narrowed in SS with SIMD compared with AHFrEF (p = 0.0168). Increased cardiac fatty acid esterification tended to correlate with low left ventricular ejection fraction (LVEF) in SS (Spearman’s rank r = −0.5189 (95%CI −0.8285- 0.0335); two-tailed p = 0.0597, n = 14). Myocardial oxygen consumption (MVO₂) was elevated in SS, and lower LVEF was associated with reduced myocardial efficiency (MEE) (r = 0.6221 [95%CI 0.1671–0.8586, p = 0.0118, n = 16).
ConclusionIn septic shock, hearts with contractile dysfunction increase glucose uptake/trapping and fatty acids are diverted toward a higher esterification fraction. This metabolic shift is associated with impaired myocardial efficiency, reflecting an imbalance between cardiac work and energy consumption.
Trial registrationThis eMESH trial (NCT05202938) was prospectively registered at ClinicalTrials.gov on January 10th, 2022 prior to first patient inclusion.
Graphical Abstract