Preoperative prediction of high-grade osteosarcoma response to neoadjuvant therapy based on a plain CT radiomics model: A dual-center study

IF 3.4 2区医学 Q2 Medicine Journal of Bone Oncology Pub Date : 2024-06-08 DOI:10.1016/j.jbo.2024.100614

Fan Yang , Ying Feng , Pengfei Sun , Alberto Traverso , Andre Dekker , Bin Zhang , Zhen Huang , Zhixiang Wang , Dong Yan

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Abstract

Objective

To develop a model combining clinical and radiomics features from CT scans for a preoperative noninvasive evaluation of Huvos grading of neoadjuvant chemotherapy in patients with HOS.

Methods

183 patients from center A and 42 from center B were categorized into training and validation sets. Features derived from radiomics were obtained from unenhanced CT scans.Following dimensionality reduction, the most optimal features were selected and utilized in creating a radiomics model through logistic regression analysis. Integrating clinical features, a composite clinical radiomics model was developed, and a nomogram was constructed. Predictive performance of the model was evaluated using ROC curves and calibration curves. Additionally, decision curve analysis was conducted to assess practical utility of nomogram in clinical settings.

Results

LASSO LR analysis was performed, and finally, three selected image omics features were obtained.Radiomics model yielded AUC values with a good diagnostic effect for both patient sets (AUCs: 0.69 and 0.68, respectively). Clinical models (including sex, age, pre-chemotherapy ALP and LDH levels, new lung metastases within 1 year after surgery, and incidence) performed well in terms of Huvos grade prediction, with an AUC of 0.74 for training set. The AUC for independent validation set stood at 0.70. Notably, the amalgamation of radiomics and clinical features exhibited commendable predictive prowess in training set, registering an AUC of 0.78. This robust performance was subsequently validated in the independent validation set, where the AUC remained high at 0.75. Calibration curves of nomogram showed that the predictions were in good agreement with actual observations.

Conclusion

Combined model can be used for Huvos grading in patients with HOS after preoperative chemotherapy, which is helpful for adjuvant treatment decisions.

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基于普通 CT 放射组学模型的高级别骨肉瘤对新辅助治疗的术前预测：双中心研究

方法将来自 A 中心的 183 例患者和来自 B 中心的 42 例患者分为训练集和验证集。在降维后，选出最理想的特征，通过逻辑回归分析建立放射组学模型。通过整合临床特征，建立了一个复合临床放射组学模型，并构建了一个提名图。利用 ROC 曲线和校准曲线对模型的预测性能进行了评估。此外，还进行了决策曲线分析，以评估提名图在临床环境中的实用性。结果进行了LASSO LR分析，最后得到了三个选定的图像全息特征。临床模型（包括性别、年龄、化疗前 ALP 和 LDH 水平、术后 1 年内新发肺转移以及发病率）在预测 Huvos 分级方面表现良好，训练集的 AUC 为 0.74。独立验证集的 AUC 为 0.70。值得注意的是，放射组学和临床特征的组合在训练集上表现出了值得称赞的预测能力，AUC 为 0.78。这种强大的性能随后在独立验证集中得到了验证，AUC 仍高达 0.75。结论综合模型可用于术前化疗后 HOS 患者的 Huvos 分级，有助于辅助治疗决策。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Bone Oncology ONCOLOGY-

CiteScore

7.20

自引率

2.90%

发文量

审稿时长

34 days

期刊介绍： The Journal of Bone Oncology is a peer-reviewed international journal aimed at presenting basic, translational and clinical high-quality research related to bone and cancer. As the first journal dedicated to cancer induced bone diseases, JBO welcomes original research articles, review articles, editorials and opinion pieces. Case reports will only be considered in exceptional circumstances and only when accompanied by a comprehensive review of the subject. The areas covered by the journal include: Bone metastases (pathophysiology, epidemiology, diagnostics, clinical features, prevention, treatment) Preclinical models of metastasis Bone microenvironment in cancer (stem cell, bone cell and cancer interactions) Bone targeted therapy (pharmacology, therapeutic targets, drug development, clinical trials, side-effects, outcome research, health economics) Cancer treatment induced bone loss (epidemiology, pathophysiology, prevention and management) Bone imaging (clinical and animal, skeletal interventional radiology) Bone biomarkers (clinical and translational applications) Radiotherapy and radio-isotopes Skeletal complications Bone pain (mechanisms and management) Orthopaedic cancer surgery Primary bone tumours Clinical guidelines Multidisciplinary care Keywords: bisphosphonate, bone, breast cancer, cancer, CTIBL, denosumab, metastasis, myeloma, osteoblast, osteoclast, osteooncology, osteo-oncology, prostate cancer, skeleton, tumour.