Comprehensive Joint Modeling of First-Line Therapeutics in Non-Small Cell Lung Cancer

Benjamin SchneiderISU, Sébastien BenzekryCOMPO, Jonathan MochelISU
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Abstract

First-line antiproliferatives for non-small cell lung cancer (NSCLC) have a relatively high failure rate due to high intrinsic resistance rates and acquired resistance rates to therapy. 57% patients are diagnosed in late-stage disease due to the tendency of early-stage NSCLC to be asymptomatic. For patients first diagnosed with metastatic disease the 5-year survival rate is approximately 5%. To help accelerate the development of novel therapeutics and computer-based tools for optimizing individual therapy, we have collated data from 11 different clinical trials in NSCLC and developed a semi-mechanistic, clinical model of NSCLC growth and pharmacodynamics relative to the various therapeutics represented in the study. In this study, we have produced extremely precise estimates of clinical parameters fundamental to cancer modeling such as the rate of acquired resistance to various pharmaceuticals, the relationship between drug concentration and rate of cancer cell death, as well as the fine temporal dynamics of anti-VEGF therapy. In the simulation sets documented in this study, we have used the model to make meaningful descriptions of efficacy gain in making bevacizumab-antiproliferative combination therapy sequential, over a series of days, rather than concurrent.
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非小细胞肺癌一线治疗药物的综合联合建模
治疗非小细胞肺癌(NSCLC)的一线抗增殖药由于内在耐药率和获得性耐药率较高,失败率也相对较高。由于早期 NSCLC 多无症状,57% 的患者确诊时已是晚期。首次确诊为转移性疾病的患者的 5 年生存率约为 5%。为了帮助加快开发新型疗法和基于计算机的工具来优化个体治疗,我们整理了来自 11 项不同 NSCLC 临床试验的数据,并开发了一个半机制临床模型,用于分析 NSCLC 的生长以及与研究中各种疗法相关的药效学。在这项研究中,我们对癌症建模的基本临床参数进行了极为精确的估计,如各种药物的获得性耐药率、药物浓度与癌细胞死亡率之间的关系,以及抗血管内皮生长因子疗法的精细时间动态。在本研究记录的模拟集中,我们利用该模型对贝伐珠单抗-抗增殖联合疗法的疗效进行了有意义的描述。
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