Pan Yaling, Wan Yidong, Wang Yajie, Yu Taihen, Cao Fang, He Dong, Ye Qin, Lu Xiangjun, Wang Huogen, Wu Yinbo
Center for Rehabilitation Medicine, Department of Radiology, Zhejiang Provincial People's Hospital (Affiliated People's Hospital), Hangzhou Medical College, Hangzhou, 310014, Zhejiang, China.
HiThink Research, Hangzhou, 310023, Zhejiang, China.
Osteoporos Int. 2025 May;36(5):893-905. doi: 10.1007/s00198-024-07338-4. Epub 2025 Mar 27.
Our study focused on predicting thoracolumbar osteoporotic vertebral fractures through radiomic analysis of non-fractured thoracic vertebrae using conventional chest CT. Four types of radiomics models were developed and showed acceptable prediction performance. Radiomics models incorporating both cortical-appendicular and trabecular bone may have superior performance compared to those using either feature set individually. The RAD score models based on thoracic vertebral combinations achieved comparable performance with lumbar bone mineral density (BMD) measurements.
To develop and validate radiomics models based on chest CT for predicting the risk of thoracolumbar osteoporotic vertebral fractures (OVFs).
A total of 494 patients (including 198 patients with thoracolumbar OVFs) who underwent conventional chest CT scans were included in this retrospective analysis and were divided into training set 1 (n = 334) and validation set 1 (n = 160). Radiomics features (RFs) were extracted from each thoracic vertebral level on chest CT images. Four types of radiomics models (trabecular RFs, cortical-appendicular RFs, mixed RFs, and RAD score) were constructed and compared. Additionally, RAD score models based on trabecular and cortical-appendicular bone of different vertebral combinations (T1-T6, T7-T12, and top 3 vertebrae) were performed, respectively. A subset of patients with available bone mineral density (BMD) data formed training set 2 (n = 199) and validation set 2 (n = 88). We combined RAD score of different vertebral combinations with lumbar BMD for predicting thoracolumbar OVFs, and further adjusted for age. Predictive performance was evaluated using the area under the receiver operating characteristic curve (AUC).
Among the radiomics models, the RAD score model based on trabecular and cortical-appendicular bone achieved highest AUC at the most vertebral levels. The RAD score model of top 3 (T5 + T8 + T10) vertebrae achieved higher AUC (0.813) than T7-T12 (AUC = 0.780) with a statistically significant difference (P = 0.02) and T1-T6 (AUC = 0.772) without a statistically significant difference (P = 0.062). Prior to adjusting for age, both RAD score models (AUCs 0.774-0.807) and RAD score + BMD models (AUCs 0.771-0.800) demonstrated slightly superior performance compared to BMD (AUC = 0.736) alone in predicting OVFs, although the differences were not statistically significant (P > 0.05). Following adjustment for age, our RAD score models, which utilized different vertebral combinations (AUCs 0.784-0.804), were found to be comparable to lumbar BMD (AUC = 0.785) in predicting OVFs (P > 0.05).
Radiomics analysis based on conventional chest CT can provide valuable information for predicting thoracolumbar OVFs. Radiomics models incorporating both cortical-appendicular and trabecular bone may have superior performance compared to those using either feature set alone. RAD score models based on thoracic vertebral combinations comparable performance compared to lumbar BMD highlights its clinical utility.
我们的研究聚焦于通过使用传统胸部CT对未骨折的胸椎进行放射组学分析来预测胸腰椎骨质疏松性椎体骨折。开发了四种类型的放射组学模型,其预测性能可接受。与单独使用任一特征集的模型相比,结合皮质附属骨和小梁骨的放射组学模型可能具有更优的性能。基于胸椎组合的RAD评分模型与腰椎骨密度(BMD)测量具有相当的性能。
开发并验证基于胸部CT的放射组学模型,以预测胸腰椎骨质疏松性椎体骨折(OVF)的风险。
本回顾性分析纳入了494例行传统胸部CT扫描的患者(包括198例胸腰椎OVF患者),并将其分为训练集1(n = 334)和验证集1(n = 160)。从胸部CT图像上的每个胸椎水平提取放射组学特征(RF)。构建并比较了四种类型的放射组学模型(小梁RF、皮质附属RF、混合RF和RAD评分)。此外,分别基于不同椎体组合(T1 - T6、T7 - T12和前三椎体)的小梁骨和皮质附属骨构建了RAD评分模型。一组有可用骨密度(BMD)数据的患者形成训练集2(n = 199)和验证集2(n = 88)。我们将不同椎体组合的RAD评分与腰椎BMD相结合来预测胸腰椎OVF,并进一步对年龄进行校正。使用受试者操作特征曲线(AUC)下的面积评估预测性能。
在放射组学模型中,基于小梁骨和皮质附属骨的RAD评分模型在大多数椎体水平上获得了最高的AUC。前三椎体(T5 + T8 + T10)的RAD评分模型的AUC(0.813)高于T7 - T12(AUC = 0.780),差异有统计学意义(P = 0.02),高于T1 - T6(AUC = 0.772),差异无统计学意义(P = 0.062)。在对年龄进行校正之前,RAD评分模型(AUC为0.774 - 0.807)和RAD评分 + BMD模型(AUC为0.771 - 0.800)在预测OVF方面的表现略优于单独的BMD(AUC = 0.736),尽管差异无统计学意义(P > 0.05)。在对年龄进行校正后,我们利用不同椎体组合的RAD评分模型(AUC为0.784 - 0.804)在预测OVF方面与腰椎BMD(AUC = 0.785)相当(P > 0.05)。
基于传统胸部CT的放射组学分析可为预测胸腰椎OVF提供有价值的信息。与单独使用任一特征集的模型相比,结合皮质附属骨和小梁骨的放射组学模型可能具有更优的性能。基于胸椎组合的RAD评分模型与腰椎BMD具有相当的性能,突出了其临床实用性。
