The prognostic value of a positive ctDNA test in urothelial cancer intensifies throughout the treatment journey. Failure to clear ctDNA after neoadjuvant therapy and then surgery is associated with a dramatically increasing hazard ratio for death, signaling profound treatment failure.

Data from trials like Niagara suggests a powerful new paradigm for assessing treatment success. Combining urine tumor DNA (uTDNA) for local disease and circulating tumor DNA (ctDNA) for systemic relapse offers a more dynamic view than traditional pathology and is poised to become the superior surrogate endpoint in bladder cancer trials.

Circulating tumor DNA (ctDNA) is a powerful biomarker for identifying high-risk bladder cancer patients. However, its imperfection presents a new clinical dilemma: with a ~12% relapse rate even in ctDNA-negative patients, clinicians must decide whether to withhold adjuvant therapy and accept that risk, or overtreat the 88% who are likely cured.

Upcoming trials like RETAIN and IMVigor011 are using circulating tumor DNA (ctDNA) to guide complex treatment choices in muscle-invasive bladder cancer. This biomarker-driven approach aims to personalize therapy, potentially enabling bladder preservation for some patients and identifying others who need additional adjuvant treatment.

In adjuvant bladder cancer trials, ctDNA status is both prognostic and predictive. Patients with positive ctDNA after surgery are at high risk of relapse but benefit from immune checkpoint inhibitors. Conversely, ctDNA-negative patients have a lower risk and derive no benefit, making ctDNA a critical tool to avoid unnecessary, toxic therapy.

While promising, current ctDNA technology is not robust enough to justify stopping effective neoadjuvant systemic therapy in bladder cancer, even if a patient becomes ctDNA negative. Experts argue against using it to de-escalate treatment outside of a clinical trial due to the risk of undertreating a lethal disease.

Beyond a simple positive/negative result, the quantitative level of ctDNA is highly prognostic in bladder cancer. Similar to PSA in prostate cancer, higher ctDNA levels correlate with a significantly worse prognosis, offering a more nuanced risk assessment tool than a binary test.

A positive ctDNA result post-surgery in an immunotherapy-naive patient warrants starting treatment. Conversely, if a patient received neoadjuvant immunotherapy and remains ctDNA positive after surgery, it signals resistance, making continuation of the same therapy illogical and creating a clinical paradox.

The interpretation of ctDNA is context-dependent. Unlike in the adjuvant setting, in the neoadjuvant setting, remaining ctDNA positive post-treatment signifies that the current therapy has failed. These high-risk patients need a different therapeutic approach, not an extension of the ineffective one.