Department of Radiology and Biomedical Imaging, University of California, San Francisco, CA, USA.
Siemens Medical Solutions Inc., Malvern, PA, USA.
Interv Neuroradiol. 2021 Apr;27(2):307-313. doi: 10.1177/1591019920961604. Epub 2020 Sep 26.
Digital subtraction angiography (DSA) remains the gold standard for angiographic evaluation of cerebrovascular pathology, however, multiple acquisitions requiring additional time and radiation are often needed. In contrast, 3D-DSA provides volumetric information from a single injection but neglects temporal information. Four-dimensional-DSA (4D-DSA) combines temporal information of 2D-DSA with volumetric information of 3D-DSA to provide time-resolved tomographic 3D reconstructions, potentially reducing procedure time and radiation. This work evaluates the diagnostic quality of virtual single-frame 4D-DSA relative to 2D-DSA images by assessing clinicians' ability to evaluate cerebrovascular pathology.
Single-frame images of four projections from 4D-DSA and their corresponding 2D-DSA images (n = 15) were rated by two neurointerventional radiologists. Images were graded based on diagnostic quality (0 = non-diagnostic, 1 = poor, 2 = acceptable, 3 = good). Dose area product (DAP) for each case was recorded for all 2D-DSA, 4D-DSA acquisitions, and the overall procedure.
The mean diagnostic quality of all four 4D-DSA projections from both raters was 1.75 while the mean of 2D-DSA projections was 2.8. Student's t-test revealed significant difference in diagnostic quality between 4D-DSA and 2D-DSA at all four projections (p < 0.001). On average 4D-DSA acquisitions accounted for 30% dose compared to the overall average aggregated dose per procedure.
The difference in image quality between virtual single-frame 4D-DSA and their respective 2D-DSA images is statistically significant. Furthermore, 4D-DSA acquisitions require less radiation dose than conventional procedures with 2D-DSA acquisitions.
数字减影血管造影(DSA)仍然是脑血管病变血管造影评估的金标准,然而,通常需要多次采集,需要额外的时间和辐射。相比之下,3D-DSA 从单次注射中提供容积信息,但忽略了时间信息。四维 DSA(4D-DSA)将 2D-DSA 的时间信息与 3D-DSA 的容积信息相结合,提供时间分辨的断层 3D 重建,有可能减少手术时间和辐射。本研究通过评估临床医生评估脑血管病变的能力,评估虚拟单帧 4D-DSA 相对于 2D-DSA 图像的诊断质量。
对来自 4D-DSA 的四个投影的单帧图像及其相应的 2D-DSA 图像(n=15)进行了两位神经介入放射科医生的评估。根据诊断质量对图像进行评分(0=非诊断性,1=差,2=可接受,3=良好)。记录每个病例的二维 DSA、4D-DSA 采集和整个过程的剂量面积乘积(DAP)。
两位评估者的所有四个 4D-DSA 投影的平均诊断质量均为 1.75,而 2D-DSA 投影的平均诊断质量为 2.8。学生 t 检验显示,在所有四个投影中,4D-DSA 与 2D-DSA 的诊断质量均有显著差异(p<0.001)。平均而言,4D-DSA 采集的剂量比每个程序的总平均聚集剂量少 30%。
虚拟单帧 4D-DSA 与各自的 2D-DSA 图像之间的图像质量差异具有统计学意义。此外,4D-DSA 采集的辐射剂量比传统的 2D-DSA 采集的辐射剂量少。