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The NAOTRACT trial is pioneering the use of Tumor-Infiltrating Lymphocytes (TILs) as a predictive biomarker. Patients with high TILs receive a less intensive, anthracycline-free neoadjuvant regimen, potentially sparing them from toxicity while maintaining efficacy, representing a major step toward personalized immunotherapy.
With remission rates for advanced-stage Hodgkin lymphoma now exceeding 90%, the next research focus is on personalizing and reducing treatment intensity. Future trials will use tools like circulating tumor DNA (ctDNA) to identify patients who can receive less chemotherapy or need adapted therapy.
The success of neoadjuvant immunotherapy trials like Niagara and those with EV-Pembro means most patients will receive immune therapy before surgery. This fundamentally shifts the clinical landscape, making the question of starting adjuvant immunotherapy less relevant as perioperative treatment becomes the standard.
In neoadjuvant settings, ctDNA monitoring allows for real-time therapy adjustment. Data from the iSpy platform shows 80% of hormone-positive patients clear ctDNA with half the chemotherapy, enabling de-escalation, while the remaining 20% can be identified for escalated treatment.
Large-scale SEER database analysis shows that patients with T1A and T1B node-negative triple-negative breast cancer had similar outcomes whether they received chemotherapy or were just observed. This challenges the default use of chemotherapy for all patients with very early-stage TNBC.
In the Keynote 522 trial for early-stage TNBC, adding pembrolizumab to chemotherapy resulted in only a modest improvement in pathological complete response (pCR). Surprisingly, this small initial gain translated into much more robust and significant long-term improvements in event-free and overall survival.
The next frontier in CSCC isn't just about new drugs, but about optimizing existing ones. A key research area is determining the minimum number of immunotherapy doses required for an optimal response—potentially just one or two—to limit toxicity, reduce treatment burden, and personalize care for high-risk patients.
Despite major advances in immunotherapy, patient selection remains crude compared to targeted therapies. PD-L1 is still the primary, yet imperfect, biomarker used. Dr. Carbone highlights an urgent need to develop better predictive biomarkers to customize immunotherapy regimens, as is standard for targeted agents.
Data from trials like CheckMate 816 shows that achieving a Pathologic Complete Response (PCR) after neoadjuvant chemo-immunotherapy is a powerful early surrogate endpoint. Patients with PCR demonstrate markedly improved overall and event-free survival.
Clinical trial data suggests immunotherapy's timing is crucial in early-stage TNBC. Given with chemotherapy before surgery (neoadjuvant), it improves outcomes. However, when given alone after surgery (adjuvant), the IMPASSION 030 trial showed no benefit and was halted for futility, indicating pre-surgical tumor priming is essential.
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.