The emergence of positive data from trials like PATINA creates a dilemma for oncologists treating patients who are already stable on an older maintenance therapy. The consensus suggests not altering a successful regimen to avoid disrupting patient stability, revealing a cautious approach to integrating new evidence into established care.

Cancers with estrogen receptor (ER) expression of 50% or less, while technically HR+, often behave biologically like basal or triple-negative tumors. These cancers are not primarily endocrine-driven and show a significant benefit from the addition of immune checkpoint inhibitors, challenging traditional subtype classifications.

The B96 trial's potential approval for platinum-resistant ovarian cancer introduces a new treatment sequencing challenge. Clinicians must decide between this immunotherapy combination and the ADC mervituximab, which has a clear biomarker (foliate receptor alpha). The lack of a reliable biomarker for the B96 regimen complicates this decision-making process for patients.

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.

Despite significant interest, circulating tumor DNA (ctDNA) is not yet an actionable tool for guiding the duration of maintenance immunotherapy in endometrial cancer. While studies like DuoE show ctDNA levels correlate with outcomes, there is no evidence to support using its clearance to decide when to stop treatment. It remains a prognostic, not a predictive, biomarker for this purpose.

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.

Developers often test novel agents in late-line settings because the control arm is weaker, increasing the statistical chance of success. However, this strategy may doom effective immunotherapies by testing them in biologically hostile, resistant tumors, masking their true potential.

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.

In high-risk non-muscle invasive bladder cancer (NMIBC), trials like CREST and POTOMAC show adding a systemic immune checkpoint inhibitor to BCG therapy introduces significant toxicity. The benefit is primarily in local control, which may not justify the risk, especially with other effective intravesical options available.