A dramatic epidemiological shift has occurred in HER2+ breast cancer. Due to highly effective adjuvant therapies preventing recurrence, the majority of new metastatic cases (two-thirds) are now de novo, a complete reversal from 15 years ago when relapsed disease dominated.

Beyond overall response rates, a critical area of excitement for new ADCs in lung cancer is their potential to treat brain metastases. Early data showing hints of intracranial efficacy is a significant point of interest, as this addresses a common and difficult-to-treat site of disease progression, offering a potential advantage over other therapies.

Unlike the standard chemotherapy regimen TCHP, the newer drug T-DXd can cross the blood-brain barrier. This is a crucial advantage for high-risk HER2-positive breast cancer patients, as it offers the potential to prevent brain metastases, a common and devastating site of recurrence for this cancer subtype.

As novel therapies like blinatumomab and ponatinib achieve excellent systemic control of B-ALL, central nervous system (CNS) relapse emerges as a primary hurdle. This was noted in this trial and others, highlighting a critical unmet need to develop effective, non-chemotherapeutic strategies for CNS prophylaxis and treatment.

The B7H3-targeted antibody-drug conjugate (ADC) ifanatumab deruxtecan shows a high intracranial response rate in SCLC, numerically even better than its systemic response rate. This suggests excellent CNS penetration, offering a promising strategy for managing brain metastases, a common and difficult challenge in SCLC.

A non-obvious consequence of effective modern cancer drugs is that patients live longer, allowing more time for cancer cells to metastasize to the central nervous system. The brain's protective blood-brain barrier then ironically shields these new tumors from treatment, creating a growing patient population.

Counterintuitively, adding palbociclib to maintenance therapy showed a favorable quality of life in the PATINA trial. Despite known toxicities, the drug delayed the time to first symptom progression. This suggests that the benefit of superior disease control can outweigh the negative impact of treatment side effects on patient-reported outcomes.

Unlike the intact blood-brain barrier, the blood-tumor barrier within brain metastases is permeable. This "leakiness" allows large molecules like the ADC trastuzumab deruxtecan (TDXD) to enter and deliver its payload, providing a mechanism for its high CNS efficacy.

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.