Journal of Ovarian Research (Aug 2023)

CT radiomics prediction of CXCL9 expression and survival in ovarian cancer

  • Rui Gu,
  • Siyi Tan,
  • Yuping Xu,
  • Donghui Pan,
  • Ce Wang,
  • Min Zhao,
  • Jiajun Wang,
  • Liwei Wu,
  • Shaojie Zhao,
  • Feng Wang,
  • Min Yang

DOI
https://doi.org/10.1186/s13048-023-01248-5
Journal volume & issue
Vol. 16, no. 1
pp. 1 – 13

Abstract

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Abstract Background C-X-C motif chemokine ligand 9 (CXCL9), which is involved in the pathological processes of various human cancers, has become a hot topic in recent years. We developed a radiomic model to identify CXCL9 status in ovarian cancer (OC) and evaluated its prognostic significance. Methods We analyzed enhanced CT scans, transcriptome sequencing data, and corresponding clinical characteristics of CXCL9 in OC using the TCIA and TCGA databases. We used the repeat least absolute shrinkage (LASSO) and recursive feature elimination(RFE) methods to determine radiomic features after extraction and normalization. We constructed a radiomic model for CXCL9 prediction based on logistic regression and internal tenfold cross-validation. Finally, a 60-month overall survival (OS) nomogram was established to analyze survival data based on Cox regression. Results CXCL9 mRNA levels and several other genes involving in T-cell infiltration were significantly relevant to OS in OC patients. The radiomic score (rad_score) of our radiomic model was calculated based on the five features for CXCL9 prediction. The areas under receiver operating characteristic (ROC) curves (AUC-ROC) for the training cohort was 0.781, while that for the validation cohort was 0.743. Patients with a high rad_score had better overall survival (P < 0.001). In addition, calibration curves and decision curve analysis (DCA) showed good consistency between the prediction and actual observations, demonstrating the clinical utility of our model. Conclusion In patients with OC, the radiomics signature(RS) of CT scans can distinguish the level of CXCL9 expression and predict prognosis, potentially fulfilling the ultimate purpose of precision medicine.

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