Zhang Runzhi, Zhao Wenjing, Tang Zehui, Xu Yan, Xie Hongyan, Wei Chuangwei, Liu Dongting, Dong Wei, Liu Jiayi, Xu Lei, Wen Zhaoying, Zhang Nan
Department of Radiology, Beijing Anzhen Hospital, Capital Medical University, Chaoyang District, Anzhen Road 2nd, Beijing, China, 100029.
Department of Nuclear Medicine, Beijing Anzhen Hospital, Capital Medical University, Chaoyang District, Anzhen Road 2nd, Beijing, China, 100029.
Eur J Radiol. 2025 Sep;190:112206. doi: 10.1016/j.ejrad.2025.112206. Epub 2025 May 27.
This study investigates the correlation between fat attenuation index (FAI) and plaque components before and after coronary plaque formation in humans.
This retrospective study included 249 patients who developed newly identified coronary plaques after two coronary computed tomography angiography (CCTA) examinations, with the first yielding normal results. Vessels with newly identified plaques were categorized into the new plaque group, while others formed the no new plaque group. A control group of 50 patients with consistently normal CCTA results was also included. The new plaque group was further divided into stable FAI and progressive FAI groups based on changes in FAI.
Before plaque formation, baseline FAI was highest in the new plaque group [(-80 (-84,-77) HU]. Baseline FAI was positively correlated with plaque volume, necrotic core volume, fibrofatty volume, and necrotic core percentage at both patient and vessel levels while showing a negative association with fibrous volume percentage (P < 0.05). After plaque formation, the percentage of necrotic core volume and diabetes mellitus were independent determinants of FAI increase in the patient level [OR: 1.31 (95 % CI: 1.12---1.53) and OR: 3.07 (95 % CI: 1.14---8.28), respectively]. At the vessel level, the percentage of necrotic core volume and fibrous volume were independent determinants of FAI increase [OR: 1.33 (95 % CI: 1.16---1.53) and OR: 0.98 (95 % CI: 0.96---0.99), respectively].
FAI was found to interact with the volume and components of newly formed coronary plaques, especially the necrotic core. A higher baseline FAI was associated with necrotic core formation, and the development of necrotic cores further increased FAI. Conversely, the formation of fibrous components appeared to mitigate the increase in FAI.
本研究调查人体冠状动脉斑块形成前后脂肪衰减指数(FAI)与斑块成分之间的相关性。
这项回顾性研究纳入了249例患者,这些患者在两次冠状动脉计算机断层扫描血管造影(CCTA)检查后出现新发现的冠状动脉斑块,首次检查结果正常。新发现斑块的血管被归类为新斑块组,其他血管则组成无新斑块组。还纳入了50例CCTA结果始终正常的患者作为对照组。根据FAI的变化,新斑块组进一步分为稳定FAI组和进展性FAI组。
在斑块形成前,新斑块组的基线FAI最高[(-80(-84,-77)HU]。在患者和血管水平上,基线FAI与斑块体积、坏死核心体积、纤维脂肪体积和坏死核心百分比呈正相关,而与纤维体积百分比呈负相关(P<0.05)。斑块形成后,坏死核心体积百分比和糖尿病是患者水平上FAI增加的独立决定因素[比值比:1.31(95%置信区间:1.12---1.53)和比值比:3.07(95%置信区间:1.14---8.28),分别]。在血管水平上,坏死核心体积百分比和纤维体积是FAI增加的独立决定因素[比值比:1.33(95%置信区间:1.16---1.53)和比值比:0.98(95%置信区间:0.96---0.99),分别]。
发现FAI与新形成的冠状动脉斑块的体积和成分相互作用,尤其是坏死核心。较高的基线FAI与坏死核心形成相关,坏死核心的发展进一步增加了FAI。相反,纤维成分的形成似乎减轻了FAI的增加。
