Division of Health Sciences, Department of Medical Physics and Engineering, Osaka University Graduate School of Medicine, Suita, Osaka, 560-0871, Japan.
Department of Radiological Sciences, Faculty of Health Sciences, Morinomiya University of Medical Sciences, Osaka, 559-8611, Japan.
Sci Rep. 2024 Aug 7;14(1):18308. doi: 10.1038/s41598-024-69540-y.
Late gadolinium enhancement (LGE) is a widely used magnetic resonance imaging method for assessing cardiac disease. However, the relationship between different LGE signal thresholds and microscopic tissue staining images is unclear. In this study, we performed cardiovascular MRI on myocardial infarction (MI) model rats and evaluated the relationship between LGE with different signal thresholding methods and tissue staining images. We prepared 16 rats that underwent MRI 14-18 days following a surgery to create an MI model. We captured cine and LGE images of the cardiac short-axis and longitudinal two- and four-chamber views. The mean ± 2SD, ± 3SD, and ± 5SD of the pixel values in the non-infarcted area were defined as the LGE area. We compared areas of Sirius red staining, determined by the color tone, with their respective LGE areas at end-diastole and end-systole. We observed that the LGE area calculated as the mean ± 2SD of the non-infarcted area at end-diastole demonstrated a significant positive correlation with the area of Sirius red staining (Pearson's correlation coefficient in both: 0.81 [p < 0.01]). Therefore, the LGE area calculated as the mean ± 2SD of the non-infarcted area at end-diastole best reflected the MI area in tissue staining.
钆延迟增强(LGE)是一种广泛用于评估心脏疾病的磁共振成像方法。然而,不同 LGE 信号阈值与微观组织染色图像之间的关系尚不清楚。在本研究中,我们对心肌梗死(MI)模型大鼠进行了心血管 MRI 检查,并评估了不同信号阈值方法与组织染色图像之间的 LGE 关系。我们准备了 16 只大鼠,在手术后 14-18 天进行了 MRI 检查,以建立 MI 模型。我们采集了心脏短轴和长轴的两腔和四腔视图的电影和 LGE 图像。非梗死区像素值的平均值±2SD、±3SD 和±5SD 定义为 LGE 区。我们比较了心动末期和收缩末期通过色调确定的天狼星红染色面积与其各自的 LGE 区。我们观察到,在心动末期,非梗死区的平均值±2SD 计算的 LGE 区与天狼星红染色面积呈显著正相关(两者的 Pearson 相关系数均为 0.81 [p<0.01])。因此,在心动末期,非梗死区的平均值±2SD 计算的 LGE 区最能反映组织染色中的 MI 区。