Mueller Franziska, Schmidt Christina Carina, Stahl Robert, Forbrig Robert, Fischer Thomas David, Brem Christian, Seelos Klaus, Isik Hakan, Rudolph Jan, Hoppe Boj Friedrich, Kunz Wolfgang G, Thon Niklas, Ricke Jens, Ingrisch Michael, Stoecklein Sophia, Liebig Thomas, Rueckel Johannes
Department of Radiology, University Hospital, LMU Munich, 81377 Munich, Germany.
Institute of Neuroradiology, University Hospital, LMU Munich, 81377 Munich, Germany.
J Clin Med. 2025 Jun 11;14(12):4121. doi: 10.3390/jcm14124121.
Aneurysm-related subarachnoid hemorrhage is a life-threatening form of stroke. While medical image acquisition for aneurysm screening is limited to high-risk patients, advances in artificial intelligence (AI)-based image analysis suggest that AI-driven routine screening of imaging studies acquired for other clinical reasons could be valuable. : A representative cohort of 1761 routine cranial magnetic resonance imaging scans [cMRIs] (with time-of-flight angiographies) from patients without previously known intracranial aneurysms was established by combining 854 general radiology 1.5T and 907 neuroradiology 3.0T cMRIs. TOF-MRAs were analyzed with a commercial AI algorithm for aneurysm detection. Neuroradiology consultants re-assessed cMRIs with AI results, providing Likert-based confidence scores (0-3) and work-up recommendations for suspicious findings. Original cMRI reports from more than 90 radiologists and neuroradiologists were reviewed, and patients with new findings were contacted for consultations including follow-up imaging (cMRI / catheter angiography [DSA]). Statistical analysis was conducted based on descriptive statistics, common diagnostic metrics, and the number needed to screen (NNS), defined as the number of cMRIs that must be analyzed with AI to achieve specific clinical endpoints. : Initial cMRI reporting by radiologists/neuroradiologists demonstrated a high risk of incidental aneurysm non-reporting (94.4% / 86.4%). A finding-based analysis revealed high AI algorithm sensitivities (100% [3T] / 94.1% [1.5T] for certain aneurysms of any size, well above 90% for any suspicious findings > 2 mm), associated with AI alerts triggered in 22% of cMRIs with PPVs of 7.5-25.2% (depending on the inclusion of inconclusive findings). The NNS to prompt further imaging work-/follow-up was 22, while the NNS to detect an aneurysm with a possible therapeutic impact was 221. Reference readings and patient consultations suggest that routine AI-driven cMRI screening would lead to additional imaging for 4-5% of patients, with 0.45% to 0.74% found to have previously undetected aneurysms with possibly therapeutic implications. AI-based second-reader screening substantially reduces incidental aneurysm non-reporting but may disproportionally increase follow-/work-up imaging demands also for minor or inconclusive findings with associated patient concern. Future research should focus on (subgroup-specific) AI optimization and cost-effectiveness analyses.
动脉瘤相关蛛网膜下腔出血是一种危及生命的中风形式。虽然用于动脉瘤筛查的医学图像采集仅限于高危患者,但基于人工智能(AI)的图像分析进展表明,对因其他临床原因进行的成像研究进行AI驱动的常规筛查可能具有价值。通过合并854例普通放射科1.5T和907例神经放射科3.0T的常规头颅磁共振成像扫描(cMRI,含时间飞跃血管造影),建立了一个来自此前无颅内动脉瘤的患者的代表性队列。使用商业AI算法分析时间飞跃磁共振血管造影(TOF-MRA)以检测动脉瘤。神经放射科顾问根据AI结果重新评估cMRI,给出基于李克特量表的置信度评分(0 - 3)以及对可疑发现的进一步检查建议。审查了90多位放射科医生和神经放射科医生的原始cMRI报告,并联系有新发现的患者进行会诊,包括后续成像检查(cMRI / 导管血管造影[DSA])。基于描述性统计、常见诊断指标以及筛查所需数量(NNS)进行统计分析,筛查所需数量定义为必须用AI分析的cMRI数量,以实现特定临床终点。放射科医生/神经放射科医生的初始cMRI报告显示偶然动脉瘤漏报风险很高(分别为94.4% / 86.4%)。基于发现的分析显示AI算法具有高敏感性(对于任何大小的某些动脉瘤,3T时为100%,1.5T时为94.1%,对于任何>2mm的可疑发现,敏感性远高于90%),在22%的cMRI中触发了AI警报,阳性预测值为7.5 - 25.2%(取决于是否纳入不确定发现)。促使进一步成像检查/随访的NNS为22,而检测到具有可能治疗意义的动脉瘤的NNS为221。参考解读和患者会诊表明,常规AI驱动的cMRI筛查将导致4 - 5%的患者进行额外成像检查,发现0.
