High-dose furmonertinib plus bevacizumab in EGFR-mutant non-small cell lung cancer with brain metastases after resistance to third-generation EGFR-TKIs: A retrospective study

IF 5 2区医学 Q2 Medicine

Translational Oncology Pub Date : 2025-08-18 DOI:10.1016/j.tranon.2025.102500

Yin Pan , Meichen Li , Mingjie Yu, Jing Chen, Hui Yu, Kaijing Liu, Likun Chen

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Abstract

Introduction

Third-generation EGFR tyrosine kinase inhibitors (TKIs) have improved outcomes in EGFR-mutant non–small cell lung cancer (NSCLC), but resistance occurs, especially in patients with Brain metastases (BMs). Antiangiogenic therapy may enhance CNS drug delivery and EGFR-TKI efficacy. We evaluated the efficacy of high-dose furmonertinib plus bevacizumab in patients with BMs after third-generation EGFR-TKI failure.

Methods

We conducted a single-center retrospective study in EGFR-mutant NSCLC patients with BMs (leptomeningeal and/or parenchymal) who had progressed after ≥1 third-generation EGFR-TKI. Patients received furmonertinib 160 mg daily plus bevacizumab 7.5 mg/kg every 3 weeks until progression or unacceptable toxicity. Primary endpoints were intracranial and overall progression-free survival (iPFS, PFS); secondary endpoints were intracranial and systemic objective response rates (iORR, ORR) and safety.

Results

Among the 78 enrolled patients (median follow-up: 11.8 months), median iPFS and PFS were 7.2 months (95 % CI: 5.6–10.5) and 5.85 months (95 % CI: 4.6–7.4), respectively. The iORR was 37.1 %, and ORR was 28.6 %. OS data remain immature at the time of analysis. In patients with both parenchymal and leptomeningeal metastases (n = 47), median iPFS was 7.63 months (95 % CI: 5.0–10.8), and median PFS was 5.7 months (95 % CI: 4.5–10.0); iORR and ORR were 40.5 % and 34.2 %, respectively. In the parenchymal-only subgroup (n = 31), median iPFS and PFS were 7.20 months (95 % CI: 5.5–NR) and 6.4 months (95 % CI: 4.4–11.3), iORR and ORR were 32 % and 20 %. In multivariate analysis, EGFR exon 19 deletion was independently associated with prolonged iPFS (HR = 0.32, P = 0.011) and PFS (HR = 0.47, P = 0.047). CNS radiotherapy administered during treatment also emerged as an independent prognostic factor for both iPFS (HR = 0.34, P = 0.022) and PFS (HR = 0.40, P = 0.018).

Conclusion

In this retrospective study, high-dose furmonertinib combined with bevacizumab demonstrated favorable intracranial and systemic activity with an acceptable safety profile in EGFR-mutant NSCLC patients with CNS metastases after resistance to third-generation EGFR-TKIs. These findings provide preliminary evidence supporting the potential clinical benefit of this chemotherapy-sparing strategy. Importantly, these findings warrant further validation in biomarker-stratified prospective trials to guide patient selection and optimize treatment outcomes.

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大剂量呋莫那替尼加贝伐单抗治疗第三代EGFR-TKIs耐药后脑转移的egfr突变非小细胞肺癌：一项回顾性研究

第三代EGFR酪氨酸激酶抑制剂（TKIs）改善了EGFR突变的非小细胞肺癌（NSCLC）的预后，但发生耐药性，特别是脑转移（BMs）患者。抗血管生成治疗可增强中枢神经系统药物传递和EGFR-TKI疗效。我们评估了高剂量呋莫那替尼加贝伐单抗在第三代EGFR-TKI失败后脑转移患者中的疗效。方法：我们对egfr突变的NSCLC脑转移（脑轻脑膜和/或实质）患者进行了一项单中心回顾性研究，这些患者在接受≥1次第三代EGFR-TKI治疗后进展。患者接受每日160 mg的福莫那替尼加每3周7.5 mg/kg的贝伐单抗治疗，直至出现进展或不可接受的毒性。主要终点是颅内和总无进展生存期（iPFS， PFS）；次要终点是颅内和全身客观缓解率（iORR， ORR）和安全性。结果78例入组患者（中位随访11.8个月），中位iPFS和PFS分别为7.2个月（95% CI: 5.6-10.5）和5.85个月（95% CI: 4.6-7.4）。iORR为37.1%，ORR为28.6%。在分析时，操作系统数据仍然不成熟。在实质转移和轻脑膜转移患者中（n = 47），中位iPFS为7.63个月（95% CI: 5.0-10.8），中位PFS为5.7个月（95% CI: 4.5-10.0）；iORR为40.5%，ORR为34.2%。在纯实质亚组（n = 31）中，中位iPFS和PFS分别为7.20个月（95% CI: 5.5-NR）和6.4个月（95% CI: 4.4-11.3）， iORR和ORR分别为32%和20%。在多变量分析中，EGFR外显子19缺失与iPFS延长（HR = 0.32, P = 0.011）和PFS延长（HR = 0.47, P = 0.047）独立相关。治疗期间给予中枢神经系统放疗也成为iPFS （HR = 0.34, P = 0.022）和PFS （HR = 0.40, P = 0.018）的独立预后因素。结论：在这项回顾性研究中，高剂量呋莫那替尼联合贝伐单抗在第三代EGFR-TKIs耐药后伴有中枢神经系统转移的egfr突变NSCLC患者中显示出良好的颅内和全身活性，具有可接受的安全性。这些发现提供了初步证据，支持这种化疗节省策略的潜在临床益处。重要的是，这些发现需要在生物标志物分层前瞻性试验中进一步验证，以指导患者选择和优化治疗结果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Translational Oncology ONCOLOGY-

CiteScore

8.40

自引率

2.00%

发文量

314

审稿时长

54 days

期刊介绍： Translational Oncology publishes the results of novel research investigations which bridge the laboratory and clinical settings including risk assessment, cellular and molecular characterization, prevention, detection, diagnosis and treatment of human cancers with the overall goal of improving the clinical care of oncology patients. Translational Oncology will publish laboratory studies of novel therapeutic interventions as well as clinical trials which evaluate new treatment paradigms for cancer. Peer reviewed manuscript types include Original Reports, Reviews and Editorials.