The new treatment paradigm for HER2-positive lung cancer will likely involve sequencing a TKI like zongertinib first, followed by an antibody-drug conjugate (ADC). Early data suggests that the efficacy of TKIs is significantly reduced when used after an ADC, making the TKI-first approach critical for maximizing patient outcomes.
While zongertinib demonstrates high systemic efficacy with a 77% response rate, its efficacy in the central nervous system (CNS) is significantly lower at 44%. This gap highlights a critical challenge for patients with brain metastases and underscores the need for combination therapies or next-generation drugs with better CNS penetration.
Historically, HER2-mutated lung cancer was treated with cytotoxic chemotherapy, unlike other oncogene-driven cancers that used targeted therapies upfront. Zongertinib's approval as a first-line oral TKI marks a significant philosophical shift, aligning its treatment strategy with the biomarker-driven care standard in lung oncology.
Even if randomized trials show zongertinib's efficacy is merely comparable to chemoimmunotherapy, its significantly milder safety profile—especially its lack of cardiac toxicity and manageable side effects—is expected to make it the preferred first-line choice. Patient quality of life and tolerability are becoming decisive factors in treatment selection.
Effective treatment of HER2-driven NSCLC requires more than just identifying mutations. HER2 is a multiplexed biomarker where both genetic mutations (TKD and non-TKD) and protein overexpression (via IHC) are independently actionable. Comprehensive testing is crucial to ensure patients are eligible for the full range of available targeted therapies, including TKIs and ADCs.