A significant challenge in assessing complete response after neoadjuvant immunotherapy for rectal cancer is the presence of mucin pools. These imaging abnormalities can persist for up to two years, mimicking residual tumor and complicating decisions about non-operative management.

Unlike rectal cancer where MRI aids response assessment, MSI-high colon cancer lacks a reliable imaging modality to confirm a pathologic complete response after neoadjuvant immunotherapy. This makes a "watch and wait" approach far more challenging and not currently recommended outside of a clinical trial.

While the ATOMIC trial established FOLFOX plus atezolizumab as a new standard for adjuvant therapy in MSI-high colon cancer, its design lacked an immunotherapy-only arm. This leaves a critical, unanswered question about the actual contribution and necessity of the chemotherapy component.

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.

After immunotherapy, many colorectal cancer patients have residual nodules on scans that appear to be partial responses. However, ctDNA testing can confirm these are often just scar tissue, not active disease. This provides the confidence to stop therapy at the two-year mark and avoid unnecessary surgeries for what are effectively complete responses.

A potential complication of successful neoadjuvant immunotherapy in rectal cancer is the development of stenosing scar tissue. This can block the lumen, making endoscopic surveillance impossible and necessitating surgery for a patient who may have otherwise achieved a complete clinical response.

Immunotherapies can be effective even without causing significant tumor shrinkage. Immunocore's drug KimTrack had a low 5-7% objective response rate (ORR) but demonstrated a massive overall survival (OS) benefit, challenging the reliance on traditional chemotherapy metrics for evaluating modern cancer treatments.

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.