Healy Joe, Searle Emily, Panta Raj Kumar, Chernoglazov Alex, Roake Justin, Butler Phil, Butler Anthony, Gieseg Steven P
Free Radical Biochemistry Laboratory, School of Biological Sciences, University of Canterbury, Christchurch, New Zealand; MARS Bioimaging Ltd., Christchurch, New Zealand.
Department of Radiology, University of Otago, Christchurch, New Zealand; MARS Bioimaging Ltd., Christchurch, New Zealand; European Organization for Nuclear Research (CERN), Geneva, Switzerland.
Atherosclerosis. 2023 Aug;378:117160. doi: 10.1016/j.atherosclerosis.2023.06.007. Epub 2023 Jun 27.
Atherosclerotic plaques are characterized as being vulnerable to rupture based on a series of histologically defined features, including a lipid-rich necrotic core, spotty calcification and ulceration. Existing imaging modalities have limitations in their ability to distinguish between different materials and structural features. We examined whether X-ray spectral photon-counting computer tomography (SPCCT) images were able to distinguish key plaque features in a surgically excised specimen from the carotid artery with comparison to histological images.
An excised carotid plaque was imaged in the diagnostic X-ray energy range of 30-120 keV using a small-bore SPCCT scanner equipped with a Medipix3RX photon-counting spectral X-ray detector with a cadmium telluride (CdTe) sensor. Material identification and quantification (MIQ) images of the carotid plaque were generated using proprietary MIQ software at 0.09 mm volumetric pixels (voxels). The plaque was sectioned, stained and photographed at high resolution for comparison.
A lipid-rich core with spotty calcification was identified in the MIQ images and confirmed by histology. MIQ showed a core region containing lipid, with a mean concentration of 260 mg lipid/ml corresponding to a mean value of -22HU. MIQ showed calcified regions with mean concentration of 41 mg Ca/ml corresponded to a mean value of 123HU. An ulceration of the carotid wall at the bifurcation was identified to be lipid-lined, with a small calcification identified near the breach of the artery wall.
SPCCT derived material identification and quantification images showed hallmarks of vulnerable plaque including a lipid-rich necrotic core, spotty calcifications and ulcerations.
基于一系列组织学定义的特征,包括富含脂质的坏死核心、散在钙化和溃疡,动脉粥样硬化斑块被认为易于破裂。现有的成像方式在区分不同物质和结构特征方面存在局限性。我们研究了X射线光谱光子计数计算机断层扫描(SPCCT)图像与组织学图像相比,是否能够区分手术切除的颈动脉标本中的关键斑块特征。
使用配备有碲化镉(CdTe)传感器的Medipix3RX光子计数光谱X射线探测器的小口径SPCCT扫描仪,在30-120 keV的诊断X射线能量范围内对切除的颈动脉斑块进行成像。使用专有的MIQ软件以0.09 mm的体素生成颈动脉斑块的物质识别和定量(MIQ)图像。对斑块进行切片、染色并以高分辨率拍照以进行比较。
在MIQ图像中识别出富含脂质的核心并伴有散在钙化,组织学检查证实了这一点。MIQ显示核心区域含有脂质,平均浓度为260 mg脂质/ml,对应于平均值-22HU。MIQ显示钙化区域的平均浓度为41 mg Ca/ml,对应于平均值123HU。颈动脉分叉处的溃疡被确定为脂质内衬,在动脉壁破裂处附近发现一个小钙化。
SPCCT衍生的物质识别和定量图像显示了易损斑块的特征,包括富含脂质的坏死核心、散在钙化和溃疡。
