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.
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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.
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 drug exhibits a multimodal mechanism. It not only reverses chemoresistance and halts tumor growth but also 'turns cold tumors hot' by forcing cancer cells to display markers that make them visible to the immune system. This dual action of direct attack and immune activation creates a powerful synergistic effect.
Immuno-oncology is not a one-time fix because cancer cells are described as "smart" adversaries that quickly adapt and develop resistance. The future of treatment lies in staying a step ahead, constantly switching therapeutic mechanisms to outmaneuver the cancer's ability to learn.
By delivering a high, sustained local drug concentration, Nenology's platform shifts cancer cell death from a passive process (apoptosis) to immunogenic cell death. This releases antigens that actively prime the immune system, creating a secondary anti-tumor effect and potentially boosting the efficacy of other immunotherapies.
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.
Actuate employed a master protocol that tested their drug alongside eight different standard-of-care chemotherapies in patients who had already failed them. This design efficiently demonstrated the drug's ability to reverse chemo-resistance across multiple histologies, informing their Phase 2 strategy.
Perioperative enfortumab vedotin-pembrolizumab (EV-Pembro) is surprisingly well-tolerated on a per-cycle basis compared to the traditional GEMSYS chemotherapy regimen. This challenges preconceived notions about the toxicity of this powerful combination, though cumulative toxicity over longer durations remains a key factor.
While immunotherapy was a massive leap forward, Dr. Saav Solanki states the next innovation frontier is combining it with newer modalities. Antibody-drug conjugates (ADCs) and T-cell engagers are being used to recruit the immune system into the tumor microenvironment, helping patients who don't respond to current immunotherapies.
Dr. Radvanyi advocates for a paradigm shift: treating almost all cancers with neoadjuvant immunotherapy immediately after diagnosis. This "kickstarts" an immune response before standard treatments like surgery and chemotherapy, which are known to be immunosuppressive, can weaken the patient's natural defenses against the tumor.
