While liquid biopsies are a valuable, less invasive tool, a negative result is inconclusive for ruling out actionable mutations in NSCLC. It may simply mean the tumor isn't shedding enough DNA. Therefore, a negative liquid biopsy should never be the final word; it must be followed by a tissue biopsy to ensure patients don't miss out on targeted therapies.

When patients with EGFR-mutated lung cancer progress on osimertinib, a re-biopsy is essential not just for new genomic markers. It's critical for identifying histologic transformation to small cell or squamous cell cancer, which mandates a complete switch to chemotherapy-based regimens.

To maximize the chances of successful biomarker identification from a liquid biopsy, especially when tissue is scant, the blood sample must be drawn before initiating any chemotherapy. This pre-treatment timing is critical for improving the diagnostic yield of blood-based next-generation sequencing (NGS) testing.

While ctDNA can detect molecular relapse 3-5 months before radiographic progression, experts argue this lead time is too short and doesn't sufficiently alter management to justify routine use outside of trials. The lack of superior subsequent therapies currently limits its clinical actionability and value.

While liquid biopsies (ctDNA) excel at detecting mutations, tissue biopsies are irreplaceable for assessing the fundamental biology of the most life-threatening metastatic sites. For instance, a direct liver biopsy is needed to confirm estrogen receptor expression, a critical factor that ctDNA cannot determine.

A negative liquid biopsy (ctDNA) result for HER2 amplification does not prove a patient is HER2-negative. The test's sensitivity is limited by tumor fraction in the blood. While a positive ctDNA result is highly specific and trustworthy, a negative result is simply 'not detected' and requires a tissue biopsy to definitively determine HER2 status for treatment decisions.

Even with contemporaneously collected samples, biomarker concordance between solid tissue and liquid biopsies is not uniform. Data shows ESR1 mutations are consistently more likely to be discordant—often found only in liquid—than PIK3CA or AKT mutations, reinforcing the need for gene-specific testing strategies.

Despite the risk of missing mutations, oncologists predominantly use convenient, less-invasive liquid biopsies to test for biomarkers at disease progression. A more invasive tissue biopsy is generally reserved for situations where the cancer behaves unexpectedly, such as a sudden shift from bone-only to visceral disease, which might suggest a missed biological driver.

The standard of care for GIST is evolving to mandate molecular testing at two key points: initial diagnosis and at the time of progression on first-line therapy. Using ctDNA at progression is now deemed critical to identify acquired resistance mechanisms, which directly informs the selection of subsequent, more effective therapies and avoids ineffective treatments.