Darré Hippolyte, Masson Perrine, Nativel Arnaud, Villain Laura, Lefaudeux Diane, Couty Claire, Martin Bastien, Jacob Evgueni, Duruisseaux Michaël, Palgen Jean-Louis, Monteiro Claudio, L'Hostis Adèle
Novadiscovery SA, Pl. Giovanni da Verrazzano, 69009 Lyon, France.
Respiratory Department and Early Phase, Louis Pradel Hospital, Hospices Civils de Lyon Cancer Institute, 69100 Lyon, France.
Biomedicines. 2024 Mar 21;12(3):704. doi: 10.3390/biomedicines12030704.
Mutationsin epidermal growth factor receptor (EGFR) are found in approximately 48% of Asian and 19% of Western patients with lung adenocarcinoma (LUAD), leading to aggressive tumor growth. While tyrosine kinase inhibitors (TKIs) like gefitinib and osimertinib target this mutation, treatments often face challenges such as metastasis and resistance. To address this, we developed physiologically based pharmacokinetic (PBPK) models for both drugs, simulating their distribution within the primary tumor and metastases following oral administration. These models, combined with a mechanistic knowledge-based disease model of -mutated LUAD, allow us to predict the tumor's behavior under treatment considering the diversity within the tumor cells due to different mutations. The combined model reproduces the drugs' distribution within the body, as well as the effects of both gefitinib and osimertinib on EGFR-activation-induced signaling pathways. In addition, the disease model encapsulates the heterogeneity within the tumor through the representation of various subclones. Each subclone is characterized by unique mutation profiles, allowing the model to accurately reproduce clinical outcomes, including patients' progression, aligning with RECIST criteria guidelines (version 1.1). Datasets used for calibration came from NEJ002 and FLAURA clinical trials. The quality of the fit was ensured with rigorous visual predictive checks and statistical tests (comparison metrics computed from bootstrapped, weighted log-rank tests: 98.4% (NEJ002) and 99.9% (FLAURA) similarity). In addition, the model was able to predict outcomes from an independent retrospective study comparing gefitinib and osimertinib which had not been used within the model development phase. This output validation underscores mechanistic models' potential in guiding future clinical trials by comparing treatment efficacies and identifying patients who would benefit most from specific TKIs. Our work is a step towards the design of a powerful tool enhancing personalized treatment in LUAD. It could support treatment strategy evaluations and potentially reduce trial sizes, promising more efficient and targeted therapeutic approaches. Following its consecutive prospective validations with the FLAURA2 and MARIPOSA trials (validation metrics computed from bootstrapped, weighted log-rank tests: 94.0% and 98.1%, respectively), the model could be used to generate a synthetic control arm.
在亚洲约48%的肺腺癌(LUAD)患者和西方19%的肺腺癌患者中发现了表皮生长因子受体(EGFR)突变,这会导致肿瘤生长迅速。虽然吉非替尼和奥希替尼等酪氨酸激酶抑制剂(TKIs)针对这种突变,但治疗往往面临转移和耐药等挑战。为了解决这个问题,我们为这两种药物开发了基于生理的药代动力学(PBPK)模型,模拟口服给药后它们在原发性肿瘤和转移灶中的分布。这些模型与基于机制知识的突变型LUAD疾病模型相结合,使我们能够在考虑由于不同突变导致的肿瘤细胞多样性的情况下,预测治疗下肿瘤的行为。联合模型再现了药物在体内的分布,以及吉非替尼和奥希替尼对EGFR激活诱导信号通路的影响。此外,疾病模型通过各种亚克隆的表征概括了肿瘤内的异质性。每个亚克隆都具有独特的突变谱,使模型能够准确再现临床结果,包括患者的病情进展,符合RECIST标准指南(第1.1版)。用于校准的数据集来自NEJ002和FLAURA临床试验。通过严格的视觉预测检查和统计测试(从自举加权对数秩检验计算的比较指标:98.4%(NEJ002)和99.9%(FLAURA)相似性)确保了拟合质量。此外,该模型能够预测一项比较吉非替尼和奥希替尼的独立回顾性研究的结果,该研究在模型开发阶段未被使用。这种输出验证强调了机制模型在通过比较治疗效果和识别最能从特定TKIs中获益的患者来指导未来临床试验方面的潜力。我们的工作朝着设计一种强大工具迈出了一步,该工具可增强LUAD的个性化治疗。它可以支持治疗策略评估,并有可能减少试验规模,有望实现更高效、更有针对性的治疗方法。在通过FLAURA2和MARIPOSA试验进行连续前瞻性验证后(从自举加权对数秩检验计算的验证指标分别为94.0%和98.1%),该模型可用于生成一个合成对照臂。
