True early cancer detection involves finding microscopic tumor DNA in blood samples. This can identify cancer years before it's visible on an MRI, creating an opportunity for a patient's own immune system to potentially eliminate it before it ever becomes a clinical disease.

Contrary to trends in wellness, a full-body MRI doesn't catch cancer early. A mass visible on an MRI already contains billions of cells and may have spread. Furthermore, it often leads to a rabbit hole of invasive tests for benign abnormalities, causing unnecessary harm.

In cases of suspected glioma recurrence post-radiation, FET PET imaging can provide a more accurate diagnosis than MRI perfusion, even when MRI findings suggest tumor growth. This allows clinicians to avoid unnecessary changes in therapy based on potentially misleading MRI data.

An expert argues the path to curing metastatic cancer may mirror pediatric ALL's history: combining all highly active drugs upfront. Instead of sequencing treatments after failure, the focus should be on powerful initial regimens that eradicate cancer, even if it means higher initial toxicity.

For patients with otherwise well-controlled disease who develop isolated oligoprogression in the brain, evidence suggests a better survival outcome from adding local therapy (like SRS) and continuing the current effective systemic therapy, rather than switching the systemic regimen entirely.

AI identified circulating tumor DNA (ctDNA) testing as a highly sensitive method for detecting cancer recurrence earlier than scans or symptoms. Despite skepticism from oncologists who deemed it unproven, the speaker plans to use it for proactive monitoring—a strategy he would not have known about otherwise.

The InVigor11 study was the first to show that detecting recurrence via a ctDNA test before it's visible on scans is not just a prognostic sign, but an actionable clinical state. Intervening with therapy at this early stage was proven to improve patient outcomes, establishing a new paradigm for cancer surveillance.

When imaging is ambiguous between radiation necrosis and tumor progression in the brain, a short course of high-dose dexamethasone can serve as a diagnostic tool. Imaging improvement after steroids strongly suggests radionecrosis, potentially avoiding an invasive biopsy.

A Chinese hospital's AI program is achieving early success not just by detecting cancer, but by screening asymptomatic patients' routine CT scans taken for unrelated issues. This unlocks a powerful and safe method for widespread early screening of dangerous cancers like pancreatic, which was previously unfeasible.