Toward image-based personalization of glioblastoma therapy: A clinical and biological validation study of a novel, deep learning-driven tumor growth model.
Marie-Christin Metz, Ivan Ezhov, Jan C Peeken, Josef A Buchner, Jana Lipkova, Florian Kofler, Diana Waldmannstetter, Claire Delbridge, Christian Diehl, Denise Bernhardt, Friederike Schmidt-Graf, Jens Gempt, Stephanie E Combs, Claus Zimmer, Bjoern Menze, Benedikt Wiestler
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Abstract
Background: The diffuse growth pattern of glioblastoma is one of the main challenges for accurate treatment. Computational tumor growth modeling has emerged as a promising tool to guide personalized therapy. Here, we performed clinical and biological validation of a novel growth model, aiming to close the gap between the experimental state and clinical implementation.
Methods: One hundred and twenty-four patients from The Cancer Genome Archive (TCGA) and 397 patients from the UCSF Glioma Dataset were assessed for significant correlations between clinical data, genetic pathway activation maps (generated with PARADIGM; TCGA only), and infiltration (Dw) as well as proliferation (ρ) parameters stemming from a Fisher-Kolmogorov growth model. To further evaluate clinical potential, we performed the same growth modeling on preoperative magnetic resonance imaging data from 30 patients of our institution and compared model-derived tumor volume and recurrence coverage with standard radiotherapy plans.
Results: The parameter ratio Dw/ρ (P < .05 in TCGA) as well as the simulated tumor volume (P < .05 in TCGA/UCSF) were significantly inversely correlated with overall survival. Interestingly, we found a significant correlation between 11 proliferation pathways and the estimated proliferation parameter. Depending on the cutoff value for tumor cell density, we observed a significant improvement in recurrence coverage without significantly increased radiation volume utilizing model-derived target volumes instead of standard radiation plans.
Conclusions: Identifying a significant correlation between computed growth parameters and clinical and biological data, we highlight the potential of tumor growth modeling for individualized therapy of glioblastoma. This might improve the accuracy of radiation planning in the near future.
背景:胶质母细胞瘤的弥漫生长模式是精确治疗的主要挑战之一。计算肿瘤生长模型已成为指导个性化治疗的一种有前途的工具。在此,我们对一种新型生长模型进行了临床和生物学验证,旨在缩小实验状态与临床实施之间的差距:方法:评估了癌症基因组档案(TCGA)中的124例患者和加州大学旧金山分校胶质瘤数据集中的397例患者的临床数据、遗传通路激活图(用PARADIGM生成;仅TCGA)、浸润(Dw)和增殖(ρ)参数之间的显著相关性,这些参数来自Fisher-Kolmogorov生长模型。为了进一步评估临床潜力,我们对本机构 30 名患者的术前磁共振成像数据进行了同样的生长建模,并将模型得出的肿瘤体积和复发覆盖率与标准放疗计划进行了比较:结果:参数比Dw/ρ(P P 结论:计算得出的肿瘤生长参数与临床和生物学数据之间存在明显的相关性,这凸显了肿瘤生长模型在胶质母细胞瘤个体化治疗中的潜力。在不久的将来,这可能会提高放射计划的准确性。
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