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The high efficacy of checkpoint inhibitors in cutaneous squamous cell carcinoma is enabling a "de-escalation" strategy. Upfront systemic therapy can be so effective that it eliminates the need for subsequent morbid local treatments like extensive surgery or radiation, a major benefit for elderly patients.
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The success of immunotherapy in neoadjuvant and adjuvant settings has rendered the traditional, sequential referral model (dermatologist to surgeon to oncologist) obsolete. Optimal care now demands an integrated, team-based discussion among all specialists *before* the first treatment decision is made to determine the best sequence and timing.
Despite both being keratinocyte-derived skin cancers, basal cell carcinoma (BCC) responds much less robustly to immunotherapy than cutaneous squamous cell carcinoma (CSCC). The pathologic complete response rate to perioperative PD-1 inhibition in BCC is only 23%, less than half the 51% seen in CSCC, highlighting their distinct immunobiology.
T-cells have natural inhibitory signals, or "brakes" (like PD-1), to prevent over-activation. Some cancers exploit this. Checkpoint inhibitor drugs block these brakes, unleashing a patient's existing T-cells to attack cancer cells more aggressively. This approach has been miraculous for cancers like melanoma.
With 72% response rates to neoadjuvant immunotherapy, surgeons are shifting from immediate, aggressive surgery to a "wait-and-see" approach. Shrinking the tumor first can turn a morbid, disfiguring operation into a much simpler procedure, fundamentally changing the initial surgical evaluation for cutaneous squamous cell carcinoma (CSCC).
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.
Standard cancer surgery often removes lymph nodes—the factories producing immune cells. Administering immunotherapy *before* this destructive process is critical. It arms the immune system while it is still intact and capable of mounting a powerful, targeted response against the tumor.
Nonmelanoma skin cancers' sensitivity to checkpoint inhibitors is due to high tumor mutational burden (TMB) caused by chronic UV light damage. This high TMB creates numerous neoantigens, which the immune system can effectively target once immunotherapy reverses immune suppression.
Instead of a rigid, pre-defined treatment plan, clinicians are adopting a "response-determined" approach for cutaneous squamous cell carcinoma. A tumor initially deemed unresectable can become operable after just one or two doses of immunotherapy, requiring dynamic, ongoing collaboration between surgical and medical oncology teams to adjust the plan.
An emerging area of research is intralesional immunotherapy, where anti-PD-1 drugs are injected directly into early-stage cutaneous squamous cell carcinomas. This approach may provide effective local control for tumors in anatomically challenging locations while minimizing systemic toxicity.
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.
