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超越单个平均肿瘤:使用包含患者反应异质性的临床 QSP 模型来理解 IO 联合治疗。

Beyond the single average tumor: Understanding IO combinations using a clinical QSP model that incorporates heterogeneity in patient response.

机构信息

Vantage Research LLC, Delaware City, Delaware, USA.

Vantage Research Pvt. Ltd, Chennai, India.

出版信息

CPT Pharmacometrics Syst Pharmacol. 2021 Jul;10(7):684-695. doi: 10.1002/psp4.12637. Epub 2021 Jun 5.

DOI:10.1002/psp4.12637
PMID:33938166
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8302246/
Abstract

A quantitative systems pharmacology model for metastatic melanoma was developed for immuno-oncology with the goal of predicting efficacy of combination checkpoint therapy with pembrolizumab and ipilimumab. This literature-based model is developed at multiple scales: (i) tumor and immune cell interactions at a lesion level; (ii) multiple heterogeneous target lesions, nontarget lesion growth, and appearance of new metastatic lesion at a patient level; and (iii) interpatient differences at a population level. The model was calibrated to pembrolizumab and ipilimumab monotherapy in patients with melanoma from Robert et al., specifically, waterfall plot showing target lesion response and overall response rate (Response Evaluation Criteria in Solid Tumors [RECIST] version 1.1), which additionally considers nontarget lesion growth and appearance of new metastatic lesions. We then used the model to predict waterfall and RECIST version 1.1 for combination treatment reported in Long et al. A key insight from this work was that nontarget lesions growth and appearance of new metastatic lesion contributed significantly to disease progression, despite reduction in target lesions. Further, the lesion level simulations of combination therapy show substantial efficacy in warm lesions (intermediary immunogenicity) but limited advantage of combination in both cold and hot lesions (low and high immunogenicity). Because many patients with metastatic disease are expected to have a mixture of these lesions, disease progression in such patients may be driven by a subset of cold lesions that are unresponsive to checkpoint inhibitors. These patients may benefit more from the combinations which include therapies to target cold lesions than double checkpoint inhibitors.

摘要

开发了一种用于免疫肿瘤学的转移性黑色素瘤定量系统药理学模型,旨在预测帕博利珠单抗和伊匹单抗联合检查点治疗的疗效。该基于文献的模型是在多个尺度上开发的:(i)病变水平的肿瘤和免疫细胞相互作用;(ii)多个异质靶病变、非靶病变生长以及新转移性病变的出现;以及(iii)患者水平的个体间差异。该模型通过对黑色素瘤患者的罗伯特等人的帕博利珠单抗和伊匹单抗单药治疗进行了校准,具体来说,瀑布图显示了靶病变反应和总体反应率(实体瘤反应评估标准 [RECIST] 1.1 版),该标准还考虑了非靶病变生长和新转移性病变的出现。然后,我们使用该模型预测了朗等人报告的联合治疗的瀑布和 RECIST 1.1。这项工作的一个重要见解是,尽管靶病变减少,但非靶病变的生长和新转移性病变的出现对疾病进展有重大影响。此外,联合治疗的病变水平模拟显示,在温暖病变(中间免疫原性)中具有显著疗效,但在冷病变和热病变(低免疫原性和高免疫原性)中联合治疗的优势有限。因为许多转移性疾病患者预计会有这些病变的混合,这些患者的疾病进展可能是由对检查点抑制剂无反应的冷病变子集驱动的。这些患者可能会从包括针对冷病变的治疗的联合治疗中获益更多,而不是双重检查点抑制剂。

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