Cardiovascular Center, Yokosuka Kyosai Hospital, 1-16 Yonegahama-dori, Yokosuka, Kanagawa 238-8558, Japan.
Int J Cardiovasc Imaging. 2012 Oct;28(7):1749-62. doi: 10.1007/s10554-011-9992-1. Epub 2011 Dec 7.
The efficacy of multidetector computed tomography (MDCT) for assessing coronary plaque composition has not been fully elucidated by comparison with histological findings. This study investigated the efficacy and limitations of CT density for identifying non-calcified lipid-rich plaque compared with histopathological findings. We studied 41 target lesions treated by directional coronary atherectomy in 41 patients with coronary artery disease who had non-calcified plaques detected by 16-slice MDCT before intervention. The lesions were histopathologically classified as lipid-rich or non-lipid-rich plaques, as well as according to the presence or absence of histopathological microcalcification. The mean CT density was determined in 5 regions of interest per slice and compared among the groups. The optimum cut-off value for identifying lipid-rich plaque was determined by receiver operating characteristic (ROC) analysis using histological findings for reference. Eighteen lesions were histopathologically classified as lipid-rich (5 with microcalcification and 13 without it) and 23 lesions were non-lipid-rich (8 with microcalcification and 15 without it). The mean CT density was significantly lower for lipid-rich plaque without microcalcification compared with other plaque types (P = 0.0001). ROC analysis revealed that the optimum cut-off value for distinguishing lipid-rich from non-lipid-rich plaque without microcalcification was 50 HU (sensitivity: 92.3%; specificity: 93.3%). Histopathological microcalcification had a marked influence on the plaque CT density. Sixteen-slice MDCT can identify lipid-rich plaque by a low CT density. However, high CT density dose not exclude the possibility of lipid-rich plaque, and combined morphological assessment is necessary to differentiate plaque components.
多排螺旋 CT(MDCT)在评估冠状动脉斑块组成方面的疗效尚未通过与组织学发现进行比较而得到充分阐明。本研究通过与组织病理学发现进行比较,调查了 CT 密度在识别非钙化富含脂质斑块方面的功效和局限性。我们研究了 41 例接受经皮冠状动脉腔内血管成形术治疗的病变,这些病变是在介入前通过 16 层 MDCT 检测到的 41 例冠心病患者的非钙化斑块。这些病变根据组织病理学将富含脂质或非富含脂质斑块,以及有无组织病理学微钙化进行分类。确定每个切片 5 个感兴趣区的平均 CT 密度,并在组间进行比较。使用组织学发现作为参考,通过接收者操作特征(ROC)分析确定识别富含脂质斑块的最佳截断值。18 个病变被组织病理学分类为富含脂质(5 个有微钙化,13 个没有),23 个病变为非富含脂质(8 个有微钙化,15 个没有)。无微钙化的富含脂质斑块的平均 CT 密度明显低于其他斑块类型(P = 0.0001)。ROC 分析显示,区分无微钙化的富含脂质和非富含脂质斑块的最佳截断值为 50 HU(敏感性:92.3%;特异性:93.3%)。组织学微钙化对斑块 CT 密度有显著影响。16 层 MDCT 可以通过低 CT 密度识别富含脂质的斑块。然而,高 CT 密度并不能排除富含脂质斑块的可能性,需要结合形态学评估来区分斑块成分。
