While platinum chemotherapy is considered the standard treatment after a patient progresses on a first-line ADC-IO combination, experts admit this is a standard "based on nothing." There is no clinical trial data to prove its efficacy in this specific setting; it serves only as a placeholder for new clinical trials.

Real-world data suggests that using one antibody-drug conjugate (ADC) immediately after another is often ineffective. A potential strategy to overcome this resistance is to administer a different class of chemotherapy before starting the second ADC.

The B96 trial's positive outcome in historically immunotherapy-resistant ovarian cancer is not just about adding pembrolizumab. The regimen's success is attributed to the thoughtful use of continuous weekly paclitaxel, a form of metronomic chemotherapy known to have favorable immunogenic effects, which was a deliberate, science-backed choice.

The future of GYN oncology immunotherapy is diverging. For responsive cancers like endometrial, the focus is on refining biomarkers and overcoming resistance. For historically resistant cancers like ovarian, the strategy shifts to using combinatorial approaches (e.g., CAR-NKs, vaccines) to fundamentally alter the tumor microenvironment itself, making it more receptive to an immune response.

The anticipated approval of the highly effective EV-Pembro combination in the perioperative setting will create a new clinical challenge. When these patients eventually relapse years later, clinicians will face a dilemma: re-challenge with the same potent regimen that worked before or switch to older, likely less effective chemotherapies.

Experts question the efficacy of sequencing ADCs like EV (Nectin-4 target) and DV (HER2 target) because they share the same MMAE chemo payload. Since resistance is often tied to the payload, not the target antibody, switching targets may not overcome resistance, though anecdotal responses have been observed.

For endometrial or cervical cancer patients who progress after receiving a checkpoint inhibitor, re-challenging with a single-agent immunotherapy is a less desirable approach. Emerging data suggests that a combination therapy—such as an ICI paired with a TKI like lenvatinib or a bispecific antibody—offers a more promising chance of response.

Rather than moving through distinct lines of therapy, a future strategy could involve an "ADC switch." When a patient progresses on an ADC-IO combination, the IO backbone would remain while the ADC is swapped for one with a different, non-cross-resistant mechanism, adapting the treatment in real-time.

Emerging data shows that a second ADC, particularly one with the same payload, often has limited efficacy. This suggests clinicians must be highly strategic in selecting the first ADC, as it may be their most impactful opportunity for this class of drugs.