Zhou Weiyan, Huang Qi, Wen Jianbo, Li Ming, Zhu Yuhua, Liu Yan, Dai Yakang, Guan Yihui, Zhou Zhirui, Hua Tao
PET Center, Huashan Hospital, Fudan University, Shanghai, China.
Department of Radiology, Huashan Hospital, Fudan University, Shanghai, China.
Front Oncol. 2021 Nov 19;11:772703. doi: 10.3389/fonc.2021.772703. eCollection 2021.
We aimed to investigate the predictive models based on O-[2-(F)fluoroethyl]-l-tyrosine positron emission tomography/computed tomography (F-FET PET/CT) radiomics features for the genotype identification in adult gliomas.
Fifty-eight consecutive pathologically confirmed adult glioma patients with pretreatment F-FET PET/CT were retrospectively enrolled. One hundred and five radiomics features were extracted for analysis in each modality. Three independent radiomics models (PET-Rad Model, CT-Rad Model and PET/CT-Rad Model) predicting mutation status were generated using the least absolute shrinkage and selection operator (LASSO) regression analysis based on machine learning algorithms. All-subsets regression and cross validation were applied for the filter and calibration of the predictive radiomics models. Besides, semi-quantitative parameters including maximum, peak and mean tumor to background ratio (TBRmax, TBRpeak, TBRmean), standard deviation of glioma lesion standardized uptake value (SUV), metabolic tumor volume (MTV) and total lesion tracer uptake (TLU) were obtained and filtered for the simple model construction with clinical feature of brain midline involvement status. The area under the receiver operating characteristic curve (AUC) was applied for the evaluation of the predictive models.
The AUC of the simple predictive model consists of semi-quantitative parameter SUV and dichotomized brain midline involvement status was 0.786 (95% CI 0.659-0.883). The AUC of PET-Rad Model building with three F-FET PET radiomics parameters was 0.812 (95% CI 0.688-0.902). The AUC of CT-Rad Model building with three co-registered CT radiomics parameters was 0.883 (95% CI 0.771-0.952). While the AUC of the combined F-FET PET/CT-Rad Model building with three CT and one PET radiomics features was 0.912 (95% CI 0.808-0.970). DeLong test results indicated the PET/CT-Rad Model outperformed the PET-Rad Model ( = 0.048) and simple predictive model ( = 0.034). Further combination of the PET/CT-Rad Model with the clinical feature of dichotomized tumor location status could slightly enhance the AUC to 0.917 (95% CI 0.814-0.973).
The predictive model combining F-FET PET and integrated CT radiomics features could significantly enhance and well balance the non-invasive genotype prediction in untreated gliomas, which is important in clinical decision making for personalized treatment.
我们旨在研究基于O-[2-(氟)氟乙基]-L-酪氨酸正电子发射断层扫描/计算机断层扫描(F-FET PET/CT)影像组学特征的预测模型,用于成人胶质瘤的基因型识别。
回顾性纳入58例经病理证实的成年胶质瘤患者,这些患者在治疗前均接受了F-FET PET/CT检查。在每个模态中提取105个影像组学特征进行分析。使用基于机器学习算法的最小绝对收缩和选择算子(LASSO)回归分析,生成三个独立的预测突变状态的影像组学模型(PET-Rad模型、CT-Rad模型和PET/CT-Rad模型)。采用全子集回归和交叉验证对预测影像组学模型进行筛选和校准。此外,获取包括最大、峰值和平均肿瘤与背景比值(TBRmax、TBRpeak、TBRmean)、胶质瘤病变标准化摄取值(SUV)的标准差、代谢肿瘤体积(MTV)和总病变示踪剂摄取量(TLU)等半定量参数,并结合脑中线受累状态的临床特征进行筛选,以构建简单模型。采用受试者操作特征曲线下面积(AUC)评估预测模型。
由半定量参数SUV和二分法脑中线受累状态组成的简单预测模型的AUC为0.786(95%CI 0.659-0.883)。基于三个F-FET PET影像组学参数构建的PET-Rad模型的AUC为0.812(95%CI 0.688-0.902)。基于三个配准CT影像组学参数构建的CT-Rad模型的AUC为0.883(95%CI 0.771-0.952)。而基于三个CT和一个PET影像组学特征构建的联合F-FET PET/CT-Rad模型 的AUC为0.912(95%CI 0.808-0.970)。DeLong检验结果表明,PET/CT-Rad模型优于PET-Rad模型(P = 0.048)和简单预测模型(P = 0.034)。将PET/CT-Rad模型与二分法肿瘤位置状态的临床特征进一步结合,可使AUC略有提高,达到0.917(95%CI 0.814-0.973)。
结合F-FET PET和综合CT影像组学特征的预测模型可显著提高并很好地平衡未治疗胶质瘤的无创基因型预测,这对个性化治疗的临床决策具有重要意义。
