The role of biomarkers and dosimetry parameters in overall and progression free survival prediction for patients treated with personalized 90 Y glass microspheres SIRT: a preliminary machine learning study.

Background: Overall Survival (OS) and Progression-Free Survival (PFS) analyses are crucial metrics for evaluating the efficacy and impact of treatment. This study evaluated the role of clinical biomarkers and dosimetry parameters on survival outcomes of patients undergoing ⁹⁰ Y selective internal radiation therapy (SIRT).
Materials/methods: This preliminary and retrospective analysis included 17 patients with hepatocellular carcinoma (HCC) treated with ⁹⁰ Y SIRT. The patients underwent personalized treatment planning and voxel-wise dosimetry. After the procedure, the OS and PFS were evaluated. Three structures were delineated including tumoral liver (TL), normal perfused liver (NPL), and whole normal liver (WNL). 289 dose-volume constraints (DVCs) were extracted from dose-volume histograms of physical and biological effective dose (BED) maps calculated on ^99m Tc-MAA and ⁹⁰ Y SPECT/CT images. Subsequently, the DVCs and 16 clinical biomarkers were used as features for univariate and multivariate analysis. Cox proportional hazard ratio (HR) was employed for univariate analysis. HR and the concordance index (C-Index) were calculated for each feature. Using eight different strategies, a cross-combination of various models and feature selection (FS) methods was applied for multivariate analysis. The performance of each model was assessed using an averaged C-Index on a three-fold nested cross-validation framework. The Kaplan-Meier (KM) curve was employed for univariate and machine learning (ML) model performance assessment.
Results: The median OS was 11 months [95% CI: 8.5, 13.09], whereas the PFS was seven months [95% CI: 5.6, 10.98]. Univariate analysis demonstrated the presence of Ascites (HR: 9.2[1.8,47]) and the aim of SIRT (segmentectomy, lobectomy, palliative) (HR: 0.066 [0.0057, 0.78]), Aspartate aminotransferase (AST) level (HR:0.1 [0.012-0.86]), and MAA-Dose-V ₂₀₅ (%)-TL (HR:8.5[1,72]) as predictors for OS. ⁹⁰ Y-derived parameters were associated with PFS but not with OS. MAA-Dose-V ₂₀₅ (%)-WNL, MAA-BED-V ₄₀₀ (%)-WNL with (HR:13 [1.5-120]) and ⁹⁰ Y-Dose-mean-TL, ⁹⁰ Y-D ₅₀ -TL-Gy, ⁹⁰ Y-Dose-V ₂₀₅ (%)-TL, ⁹⁰ Y-Dose- D ₅₀ -TL-Gy, and ⁹⁰ Y-BED-V ₄₀₀ (%)-TL (HR:15 [1.8-120]) were highly associated with PFS among dosimetry parameters. The highest C-index observed in multivariate analysis using ML was 0.94 ± 0.13 obtained from Variable Hunting-variable-importance (VH.VIMP) FS and Cox Proportional Hazard model predicting OS, using clinical features. However, the combination of VH. VIMP FS method with a Generalized Linear Model Network model predicting OS using Therapy strategy features outperformed the other models in terms of both C-index and stratification of KM curves (C-Index: 0.93 ± 0.14 and log-rank p-value of 0.023 for KM curve stratification).
Conclusion: This preliminary study confirmed the role played by baseline clinical biomarkers and dosimetry parameters in predicting the treatment outcome, paving the way for the establishment of a dose-effect relationship. In addition, the feasibility of using ML along with these features was demonstrated as a helpful tool in the clinical management of patients, both prior to and following ⁹⁰ Y-SIRT.
(© 2024. The Author(s).)