Hosse Clarissa, Fehrenbach Uli, Pivetta Fabio, Malinka Thomas, Wagner Moritz, Walter-Rittel Thula, Gebauer Bernhard, Kolck Johannes, Geisel Dominik
Charité-Universitätsmedizin Berlin, Department of Radiology, Berlin, Germany (C.H., U.F., F.P., M.W., T.W.R., B.G., J.K., D.G.).
Charité-Universitätsmedizin Berlin, Department of Radiology, Berlin, Germany (C.H., U.F., F.P., M.W., T.W.R., B.G., J.K., D.G.).
Acad Radiol. 2025 Sep;32(9):4982-4987. doi: 10.1016/j.acra.2025.05.039. Epub 2025 Jun 25.
This study evaluates the feasibility of a novel deep learning-accelerated half-fourier single-shot turbo spin-echo sequence (HASTE-DL) compared to the conventional HASTE sequence (HASTE) in postoperative single-sequence MRI for the detection of fluid collections following abdominal surgery. As small fluid collections are difficult to visualize using other techniques, HASTE-DL may offer particular advantages in this clinical context.
A retrospective analysis was conducted on 76 patients (mean age 65±11.69 years) who underwent abdominal MRI for suspected septic foci following abdominal surgery. Imaging was performed using 3-T MRI scanners, and both sequences were analyzed in terms of image quality, contrast, sharpness, and artifact presence. Quantitative assessments focused on fluid collection detectability, while qualitative assessments evaluated visualization of critical structures. Inter-reader agreement was measured using Cohen's kappa coefficient, and statistical significance was determined with the Mann-Whitney U test.
HASTE-DL achieved a 46% reduction in scan time compared to HASTE, while significantly improving overall image quality (p<0.001), contrast (p<0.001), and sharpness (p<0.001). The inter-reader agreement for HASTE-DL was excellent (κ=0.960), with perfect agreement on overall image quality and fluid collection detection (κ=1.0). Fluid detectability and characterization scores were higher for HASTE-DL, and visualization of critical structures was significantly enhanced (p<0.001). No relevant artifacts were observed in either sequence.
HASTE-DL offers superior image quality, improved visualization of critical structures, such as drainages, vessels, bile and pancreatic ducts, and reduced acquisition time, making it an effective alternative to the standard HASTE sequence, and a promising complementary tool in the postoperative imaging workflow.
本研究评估了一种新型深度学习加速的半傅里叶单次激发快速自旋回波序列(HASTE-DL)与传统HASTE序列(HASTE)相比,在腹部手术后单序列MRI检测液体聚集方面的可行性。由于使用其他技术难以观察到小的液体聚集,HASTE-DL在这种临床情况下可能具有特殊优势。
对76例(平均年龄65±11.69岁)腹部手术后因怀疑存在感染灶而接受腹部MRI检查的患者进行回顾性分析。使用3-T MRI扫描仪进行成像,并从图像质量、对比度、清晰度和伪影存在情况对两种序列进行分析。定量评估侧重于液体聚集的可检测性,而定性评估则评估关键结构的可视化情况。使用Cohen's kappa系数测量阅片者间的一致性,并通过Mann-Whitney U检验确定统计学意义。
与HASTE相比,HASTE-DL的扫描时间减少了46%,同时显著提高了整体图像质量(p<0.001)、对比度(p<0.001)和清晰度(p<0.001)。HASTE-DL的阅片者间一致性极佳(κ=0.960),在整体图像质量和液体聚集检测方面完全一致(κ=1.0)。HASTE-DL的液体可检测性和特征评分更高,关键结构的可视化明显增强(p<0.001)。两种序列均未观察到相关伪影。
HASTE-DL具有卓越的图像质量,改善了引流管、血管、胆管和胰管等关键结构的可视化,缩短了采集时间,使其成为标准HASTE序列的有效替代方案,以及术后成像工作流程中有前景的补充工具。
