Feng Yuanbo, Ma Zhan-Long, Chen Feng, Yu Jie, Cona Marlein Miranda, Xie Yi, Li Yue, Ni Yicheng
Yuanbo Feng, Feng Chen, Jie Yu, Marlein Miranda Cona, Yicheng Ni, Theragnostic Laboratory, Department of Imaging and Pathology, Biomedical Sciences Group, 3000 KU Leuven, Belgium.
World J Methodol. 2013 Sep 26;3(3):27-38. doi: 10.5662/wjm.v3.i3.27.
To develop a method for studying myocardial area at risk (AAR) in ischemic heart disease in correlation with cardiac magnetic resonance imaging (cMRI).
Nine rabbits were anesthetized, intubated and subjected to occlusion and reperfusion of the left circumflex coronary artery (LCx) to induce myocardial infarction (MI). ECG-triggered cMRI with delayed enhancement was performed at 3.0 T. After euthanasia, the heart was excised with the LCx re-ligated. Bifunctional staining was performed by perfusing the aorta with a homemade red-iodized-oil (RIO) dye. The heart was then agar-embedded for ex vivo magnetic resonance imaging and sliced into 3 mm-sections. The AAR was defined by RIO-staining and digital radiography (DR). The perfusion density rate (PDR) was derived from DR for the AAR and normal myocardium. The MI was measured by in vivo delayed enhancement (iDE) and ex vivo delayed enhancement (eDE) cMRI. The AAR and MI were compared to validate the bifunctional straining for cardiac imaging research. Linear regression with Bland-Altman agreement, one way-ANOVA with Bonferroni's multiple comparison, and paired t tests were applied for statistics.
All rabbits tolerated well the surgical procedure and subsequent cMRI sessions. The open-chest occlusion and close-chest reperfusion of the LCx, double suture method and bifunctional staining were successfully applied in all animals. The percentage MI volumes globally (n = 6) and by slice (n = 25) were 36.59% ± 13.68% and 32.88% ± 12.38% on iDE, and 35.41% ± 12.25% and 32.40% ± 12.34% on eDE. There were no significant differences for MI determination with excellent linear regression correspondence (r global = 0.89; r slice = 0.9) between iDE and eDE. The percentage AAR volumes globally (n = 6) and by slice (n = 25) were 44.82% ± 15.18% and 40.04% ± 13.64% with RIO-staining, and 44.74% ± 15.98% and 40.48% ± 13.26% by DR showing high correlation in linear regression analysis (r global = 0.99; r slice = 1.0). The mean differences of the two AAR measurements on Bland-Altman were almost zero, indicating RIO-staining and DR were essentially equivalent or inter-replaceable. The AAR was significantly larger than MI both globally and slice-by-slice (P < 0.01). After correction with the background and the blank heart without bifunctional staining (n = 3), the PDR for the AAR and normal myocardium was 32% ± 15% and 35.5% ± 35%, respectively, which is significantly different (P < 0.001), suggesting that blood perfusion to the AAR probably by collateral circulation was only less than 10% of that in the normal myocardium.
The myocardial area at risk in ischemic heart disease could be accurately determined postmortem by this novel bifunctional staining, which may substantially contribute to translational cardiac imaging research.
开发一种研究缺血性心脏病中心肌梗死危险区(AAR)与心脏磁共振成像(cMRI)相关性的方法。
对9只兔子进行麻醉、插管,然后对左旋冠状动脉(LCx)进行闭塞和再灌注以诱导心肌梗死(MI)。在3.0T条件下进行心电图触发的延迟增强cMRI检查。安乐死后,切除心脏并重新结扎LCx。通过向主动脉灌注自制的红色碘化油(RIO)染料进行双功能染色。然后将心脏用琼脂包埋以进行离体磁共振成像,并切成3毫米厚的切片。通过RIO染色和数字射线摄影(DR)确定AAR。从DR得出AAR和正常心肌的灌注密度率(PDR)。通过体内延迟增强(iDE)和离体延迟增强(eDE)cMRI测量MI。比较AAR和MI以验证用于心脏成像研究的双功能染色。采用Bland-Altman一致性线性回归、Bonferroni多重比较的单因素方差分析和配对t检验进行统计学分析。
所有兔子对手术过程及随后的cMRI检查耐受性良好。左旋冠状动脉的开胸闭塞和闭胸再灌注、双重缝合方法和双功能染色在所有动物中均成功应用。在iDE上,整体(n = 6)和切片(n = 25)的MI体积百分比分别为36.59%±13.68%和32.88%±12.38%,在eDE上分别为35.41%±12.25%和32.40%±12.34%。iDE和eDE之间在MI测定方面无显著差异,线性回归相关性良好(整体r = 0.89;切片r = 0.9)。通过RIO染色,整体(n = 6)和切片(n = 25)的AAR体积百分比分别为44.82%±15.18%和40.04%±13.64%,通过DR分别为44.74%±15.98%和40.48%±13.26%,线性回归分析显示高度相关(整体r = 0.99;切片r = 1.0)。Bland-Altman上两种AAR测量的平均差异几乎为零,表明RIO染色和DR基本等效或可相互替代。整体和逐片来看,AAR均显著大于MI(P < 0.01)。在用背景和未进行双功能染色的空白心脏(n = 3)校正后,AAR和正常心肌的PDR分别为32%±15%和35.5%±35%,差异显著(P < 0.001),表明通过侧支循环向AAR的血液灌注可能仅为正常心肌的不到10%。
这种新型双功能染色可在死后准确测定缺血性心脏病中的心肌梗死危险区,这可能对转化性心脏成像研究有重大贡献。