钆增强心血管磁共振成像对射频消融损伤的特征分析
Characterization of radiofrequency ablation lesions with gadolinium-enhanced cardiovascular magnetic resonance imaging.
作者信息
Dickfeld Timm, Kato Ritsushi, Zviman Menekhem, Lai Shenghan, Meininger Glenn, Lardo Albert C, Roguin Ariel, Blumke David, Berger Ronald, Calkins Hugh, Halperin Henry
机构信息
Division of Cardiology, Department of Radiology, Johns Hopkins School of Medicine, Baltimore, Maryland, USA.
出版信息
J Am Coll Cardiol. 2006 Jan 17;47(2):370-8. doi: 10.1016/j.jacc.2005.07.070.
OBJECTIVES
This study was designed to evaluate the characteristics of gadolinium-enhanced imaging of radiofrequency ablations.
BACKGROUND
Gadolinium-enhanced magnetic resonance imaging (MRI) has been used successfully to evaluate tissue necrosis after myocardial infarction. In electrophysiology, radiofrequency energy is used to create a targeted myocardial necrosis for the treatment of various arrhythmias.
METHODS
Using a power-controlled, cooled-tip 7-F catheter system, radiofrequency lesions (10 to 40 W for 30 s) were created on the epicardium of the right ventricle in eight mongrel dogs. After injection of 0.225 mmol/kg gadolinium, T1-weighted fast gradient echo images were obtained during a follow-up of 10 h using an intrathoracic high-resolution coil. Radiofrequency ablations were analyzed on the MR images and compared with gross anatomy and histopathology.
RESULTS
Four distinct phases of signal enhancement were observed. After gadolinium injection, radiofrequency lesions were delineated clearly as contrast-free areas of low signal intensity (contrast-to-noise ratio [CNR] = -21.1 +/- 19.8). Signal enhancement in the lesion periphery started 4.0 +/- 1.8 min after injection and progressively extended toward the lesion center at a rate of 0.02 mm/min. Full delayed enhancement was observed after 98 +/- 21 min (CNR = +17.8 +/- 9.0). During the follow-up period, CNR started to decrease, but the lesions were detectable for as long as 10 h of follow-up. During the first three phases of enhancement, MRI correlated well with the pathological findings (r = 0.88, r = 0.88, and r = 0.86 [p < 0.001], respectively).
CONCLUSIONS
Radiofrequency ablation can be evaluated accurately by using gadolinium-enhanced MRI, which may allow the noninvasive assessment of procedural success. The dissimilar wash-in and wash-out kinetics compared with myocardial infarction suggest a different pathophysiological process with complete loss of microvasculature.
目的
本研究旨在评估射频消融钆增强成像的特征。
背景
钆增强磁共振成像(MRI)已成功用于评估心肌梗死后的组织坏死。在电生理学中,射频能量用于制造靶向心肌坏死以治疗各种心律失常。
方法
使用功率控制、冷端7F导管系统,在8只杂种犬的右心室心外膜上制造射频损伤(10至40瓦,持续30秒)。注射0.225 mmol/kg钆后,使用胸腔内高分辨率线圈在10小时的随访期间获取T1加权快速梯度回波图像。在MR图像上分析射频消融,并与大体解剖和组织病理学进行比较。
结果
观察到四个不同的信号增强阶段。注射钆后,射频损伤清晰显示为低信号强度的无对比剂区域(对比噪声比[CNR]=-21.1±19.8)。损伤周边的信号增强在注射后4.0±1.8分钟开始,并以0.02 mm/分钟的速度逐渐向损伤中心扩展。98±21分钟后观察到完全延迟增强(CNR=+17.8±9.0)。在随访期间,CNR开始下降,但损伤在长达10小时的随访中均可检测到。在增强的前三个阶段,MRI与病理结果相关性良好(分别为r=0.88、r=0.88和r=0.86[p<0.001])。
结论
使用钆增强MRI可准确评估射频消融,这可能允许对手术成功进行无创评估。与心肌梗死相比,不同的流入和流出动力学表明微血管完全丧失的病理生理过程不同。
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