Background: Genetic profiling represents the future of neuro-oncology but suffers from inadequate biopsies in heterogeneous tumors like Glioblastoma (GBM). Contrast-enhanced MRI (CE-MRI) targets enhancing core (ENH) but yields adequate tumor in only ~60% of cases. Further, CE-MRI poorly localizes infiltrative tumor within surrounding non-enhancing parenchyma, or brain-around-tumor (BAT), despite the importance of characterizing this tumor segment, which universally recurs. In this study, we use multiple texture analysis and machine learning (ML) algorithms to analyze multi-parametric MRI, and produce new images indicating tumor-rich targets in GBM.
Methods: We recruited primary GBM patients undergoing image-guided biopsies and acquired pre-operative MRI: CE-MRI, Dynamic-Susceptibility-weighted-Contrast-enhanced-MRI, and Diffusion Tensor Imaging. Following image coregistration and region of interest placement at biopsy locations, we compared MRI metrics and regional texture with histologic diagnoses of high- vs low-tumor content (≥80% vs <80% tumor nuclei) for corresponding samples. In a training set, we used three texture analysis algorithms and three ML methods to identify MRI-texture features that optimized model accuracy to distinguish tumor content. We confirmed model accuracy in a separate validation set.
Results: We collected 82 biopsies from 18 GBMs throughout ENH and BAT. The MRI-based model achieved 85% cross-validated accuracy to diagnose high- vs low-tumor in the training set (60 biopsies, 11 patients). The model achieved 81.8% accuracy in the validation set (22 biopsies, 7 patients).
Conclusion: Multi-parametric MRI and texture analysis can help characterize and visualize GBM’s spatial histologic heterogeneity to identify regional tumor-rich biopsy targets.
Details
- Multi-Parametric MRI and Texture Analysis to Visualize Spatial Histologic Heterogeneity and Tumor Extent in Glioblastoma
- Hu, Leland S. (Author)
- Ning, Shuluo (Author)
- Eschbacher, Jennifer M. (Author)
- Gaw, Nathan (Author)
- Dueck, Amylou C. (Author)
- Smith, Kris A. (Author)
- Nakaji, Peter (Author)
- Plasencia, Jonathan (Author)
- Ranjbar, Sara (Author)
- Price, Stephen J. (Author)
- Tran, Nhan (Author)
- Loftus, Joseph (Author)
- Jenkins, Robert (Author)
- O'Neill, Brian P. (Author)
- Elmquist, William (Author)
- Baxter, Leslie C. (Author)
- Gao, Fei (Author)
- Frakes, David (Author)
- Karis, John P. (Author)
- Zwart, Christine (Author)
- Swanson, Kristin R. (Author)
- Sarkaria, Jann (Author)
- Wu, Teresa (Author)
- Mitchell, J. Ross (Author)
- Li, Jing (Author)
- Ira A. Fulton Schools of Engineering (Contributor)
- Digital object identifier: 10.1371/journal.pone.0141506
- Identifier TypeInternational standard serial numberIdentifier Value1045-3830
- Identifier TypeInternational standard serial numberIdentifier Value1939-1560
- The article is published at http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0141506
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Hu, L. S., Ning, S., Eschbacher, J. M., Gaw, N., Dueck, A. C., Smith, K. A., . . . Li, J. (2015). Multi-Parametric MRI and Texture Analysis to Visualize Spatial Histologic Heterogeneity and Tumor Extent in Glioblastoma. Plos One, 10(11). doi:10.1371/journal.pone.0141506