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.

As multiple new drugs like antibody-drug conjugates (ADCs) become available for SCLC, the critical research question will shift from *if* they work to *when* they should be used. Future biomarker strategies must focus on optimizing treatment sequences, considering factors like the drug's target and payload.

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.

Unlike novel challenges from bispecifics, upcoming SCLC therapies like antibody-drug conjugates (ADCs) and radiopharmaceuticals will benefit from existing familiarity. Community practices are already comfortable with these drug classes from their use in breast cancer (ADCs) and prostate cancer (radioligands), which should streamline their integration.

Unlike older antibody-drug conjugates (ADCs), newer agents are designed so their chemotherapy payload can diffuse out of the target cell and kill nearby tumor cells that may not even express the target antigen. This "bystander effect" significantly enhances their anti-tumor activity.

The long-standing platinum doublet backbone for frontline SCLC may soon be challenged. The high efficacy of novel agents like antibody-drug conjugates and bispecific antibodies in later lines is prompting trials that consider moving them into the first-line setting, a strategy previously considered "unthinkable."

In notoriously hard-to-treat small cell lung cancer (SCLC), ADCs are emerging as a crucial next step. They hold promise for patients who progress after chemoimmunotherapy and newer targeted agents like tarlatamab, a setting where treatment options are currently scarce. ADCs could provide meaningful responses in this significant unmet need.

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.

Despite being "targeted therapies," multiple promising antibody-drug conjugates (ADCs) for small cell lung cancer (SCLC) show no correlation between the target protein's expression level and patient response. This suggests the payload or other factors are the primary drivers of efficacy, complicating biomarker development for patient selection.