Protti Andrea, Lavin Begoña, Dong Xuebin, Lorrio Silvia, Robinson Simon, Onthank David, Shah Ajay M, Botnar Rene M
Cardiovascular Division, James Black Centre, King's College Hospital, London, United Kingdom (A.P., X.D., A.M.S.) Division of Imaging Sciences and Biomedical Engineering, King's College London, King's Health Partners, St. Thomas' Hospital, London, United Kingdom (A.P., B.L., S.L., R.M.B.) Cardiovascular Division, The British Heart Foundation Centre of Excellence, King's College London, London, United Kingdom (A.P., B.L., A.M.S., R.M.B.).
Division of Imaging Sciences and Biomedical Engineering, King's College London, King's Health Partners, St. Thomas' Hospital, London, United Kingdom (A.P., B.L., S.L., R.M.B.) Cardiovascular Division, The British Heart Foundation Centre of Excellence, King's College London, London, United Kingdom (A.P., B.L., A.M.S., R.M.B.).
J Am Heart Assoc. 2015 Aug 13;4(8):e001851. doi: 10.1161/JAHA.115.001851.
Well-defined inflammation, proliferation, and maturation phases orchestrate the remodeling of the injured myocardium after myocardial infarction (MI) by controlling the formation of new extracellular matrix. The extracellular matrix consists mainly of collagen but also fractions of elastin. It is thought that elastin is responsible for maintaining elastic properties of the myocardium, thus reducing the risk of premature rupture. An elastin/tropoelastin-specific contrast agent (Gd-ESMA) was used to image tropoelastin and mature elastin fibers for in vivo assessment of extracellular matrix remodeling post-MI.
Gd-ESMA enhancement was studied in a mouse model of myocardial infarction using a 7 T MRI scanner and results were compared to those achieved after injection of a nonspecific control contrast agent, gadolinium-diethylenetriamine pentaacetic acid (Gd-DTPA). In the infarcted tissue, Gd-ESMA uptake (measured as R1 relaxation rate) steadily increased from day 3 to day 21 as a result of the synthesis of elastin/tropoelastin. R1 values were in good agreement with histological findings. A similar R1 behavior was observed in the remote myocardium. No mature cross-linked elastin was found at any time point. In contrast, Gd-DTPA uptake was only observed in the infarct with no changes in R1 values between 3 and 21 days post-MI.
We demonstrate the feasibility of in vivo imaging of extracellular matrix remodeling post-MI using a tropoelastin/elastin binding MR contrast agent, Gd-ESMA. We found that tropoelastin is the main contributor to the increased MRI signal at late stages of MI where its augmentation in areas of infarction was in good agreement with the R1 increase.
明确的炎症、增殖和成熟阶段通过控制新细胞外基质的形成来协调心肌梗死后受损心肌的重塑。细胞外基质主要由胶原蛋白组成,但也有弹性蛋白成分。据认为,弹性蛋白负责维持心肌的弹性特性,从而降低过早破裂的风险。一种弹性蛋白/原弹性蛋白特异性造影剂(钆 - 乙氧基苄基 - 二乙烯三胺五乙酸,Gd - ESMA)被用于对原弹性蛋白和成熟弹性纤维进行成像,以在体内评估心肌梗死后细胞外基质的重塑情况。
使用7T磁共振成像扫描仪在心肌梗死小鼠模型中研究了Gd - ESMA增强情况,并将结果与注射非特异性对照造影剂钆 - 二乙烯三胺五乙酸(Gd - DTPA)后获得的结果进行比较。在梗死组织中,由于弹性蛋白/原弹性蛋白的合成,Gd - ESMA摄取量(以R1弛豫率衡量)从第3天到第21天稳步增加。R1值与组织学结果高度一致。在远隔心肌中也观察到了类似的R1行为。在任何时间点均未发现成熟的交联弹性蛋白。相比之下,仅在梗死灶中观察到Gd - DTPA摄取,在心肌梗死后3至21天之间R1值无变化。
我们证明了使用原弹性蛋白/弹性蛋白结合磁共振造影剂Gd - ESMA在体内成像心肌梗死后细胞外基质重塑的可行性。我们发现原弹性蛋白是心肌梗死后期磁共振成像信号增加的主要贡献者,其在梗死区域的增加与R1的增加高度一致。
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