Department of Radiology and Biomedical Imaging, Yale University School of Medicine, 300 Cedar St, New Haven, CT 06520.
Department of Diagnostic and Interventional Radiology, Pediatric Radiology and Neuroradiology, Rostock University Medical Center, Rostock, Germany.
AJR Am J Roentgenol. 2023 Feb;220(2):245-255. doi: 10.2214/AJR.22.28077. Epub 2022 Aug 17.
Posttreatment recurrence is an unpredictable complication after liver transplant for hepatocellular carcinoma (HCC) that is associated with poor survival. Biomarkers are needed to estimate recurrence risk before organ allocation. This proof-of-concept study evaluated the use of machine learning (ML) to predict recurrence from pretreatment laboratory, clinical, and MRI data in patients with early-stage HCC initially eligible for liver transplant. This retrospective study included 120 patients (88 men, 32 women; median age, 60.0 years) with early-stage HCC diagnosed who were initially eligible for liver transplant and underwent treatment by transplant, resection, or thermal ablation between June 2005 and March 2018. Patients underwent pretreatment MRI and posttreatment imaging surveillance. Imaging features were extracted from postcontrast phases of pretreatment MRI examinations using a pretrained convolutional neural network. Pretreatment clinical characteristics (including laboratory data) and extracted imaging features were integrated to develop three ML models (clinical model, imaging model, combined model) for predicting recurrence within six time frames ranging from 1 through 6 years after treatment. Kaplan-Meier analysis with time to recurrence as the endpoint was used to assess the clinical relevance of model predictions. Tumor recurred in 44 of 120 (36.7%) patients during follow-up. The three models predicted recurrence with AUCs across the six time frames of 0.60-0.78 (clinical model), 0.71-0.85 (imaging model), and 0.62-0.86 (combined model). The mean AUC was higher for the imaging model than the clinical model (0.76 vs 0.68, respectively; = .03), but the mean AUC was not significantly different between the clinical and combined models or between the imaging and combined models ( > .05). Kaplan-Meier curves were significantly different between patients predicted to be at low risk and those predicted to be at high risk by all three models for the 2-, 3-, 4-, 5-, and 6-year time frames ( < .05). The findings suggest that ML-based models can predict recurrence before therapy allocation in patients with early-stage HCC initially eligible for liver transplant. Adding MRI data as model input improved predictive performance over clinical parameters alone. The combined model did not surpass the imaging model's performance. ML-based models applied to currently underutilized imaging features may help design more reliable criteria for organ allocation and liver transplant eligibility.
移植后复发是肝癌(HCC)肝移植后无法预测的并发症,与生存不良有关。需要生物标志物在器官分配前估计复发风险。这项概念验证研究评估了使用机器学习(ML)来预测接受肝移植的早期 HCC 患者治疗前实验室、临床和 MRI 数据中的复发。这项回顾性研究纳入了 120 名(88 名男性,32 名女性;中位年龄 60.0 岁)患有早期 HCC 的患者,这些患者最初符合肝移植标准,并在 2005 年 6 月至 2018 年 3 月期间接受了移植、切除或热消融治疗。患者接受了治疗前 MRI 和治疗后影像学监测。使用预先训练的卷积神经网络从治疗前 MRI 的对比增强相位中提取影像学特征。将治疗前临床特征(包括实验室数据)和提取的影像学特征整合起来,开发了三种 ML 模型(临床模型、影像学模型、联合模型),用于预测治疗后 1 至 6 年内的 6 个时间框架内的复发。使用 Kaplan-Meier 分析,以复发时间为终点,评估模型预测的临床相关性。在随访期间,120 名患者中有 44 名(36.7%)发生肿瘤复发。在六个时间框架内,三个模型的预测复发的 AUC 范围为 0.60-0.78(临床模型)、0.71-0.85(影像学模型)和 0.62-0.86(联合模型)。影像学模型的平均 AUC 高于临床模型(分别为 0.76 和 0.68; <.03),但临床模型和联合模型之间或影像学模型和联合模型之间的平均 AUC 没有显著差异( >.05)。对于 2 年、3 年、4 年、5 年和 6 年时间框架,所有三个模型预测为低风险的患者与预测为高风险的患者的 Kaplan-Meier 曲线差异显著( <.05)。研究结果表明,在最初符合肝移植标准的接受早期 HCC 治疗的患者中,基于 ML 的模型可以在治疗前预测复发。将 MRI 数据作为模型输入,可提高预测性能,优于仅使用临床参数。联合模型的性能并未超过影像学模型。应用于目前未充分利用的影像学特征的基于 ML 的模型可能有助于为器官分配和肝移植资格制定更可靠的标准。
