A biopsy can confirm ER-positive tissue, but FES PET-CT demonstrates that these receptors are functional and capable of binding. This distinction is critical, as some tumors may have non-functional receptors or heterogeneous expression. A positive FES scan provides strong evidence that a patient is a good candidate for endocrine therapy.
Unlike cancers that form distinct masses, invasive lobular carcinoma (ILC) grows in a 'single file' or 'creepy crawly' pattern. This subtle infiltration is extremely difficult to detect with standard imaging like mammograms, ultrasounds, MRIs, and even FDG PET-CT, often leading to underestimation of the disease's extent.
There is a growing suspicion that conventional imaging understages many presumed early-stage lobular cancers. Using FES PET-CT upfront could detect small-volume metastatic disease missed by other methods. This would reclassify patients to a metastatic setting, sparing them the morbidity of major local surgeries that would not be curative.
FES PET-CT relies on a tracer binding to estrogen receptors. If a patient is on ER modulators or down-regulators (like tamoxifen or fulvestrant), these drugs will block the tracer, causing a false-negative scan. Clinicians must plan for a washout period of several weeks before imaging, which requires careful treatment coordination.
While powerful, FES PET-CT is a specialized tool with key limitations. It is not effective for evaluating disease in the liver, a common site of breast cancer metastasis. Furthermore, it cannot detect any disease that has become estrogen receptor-negative. Therefore, it must be used as part of a broader imaging program, not as a standalone surveillance tool.
The processing of bone biopsy samples can sometimes result in a false-negative finding for estrogen receptor (ER) status. If clinical suspicion remains high for ER-positive disease, an FES PET-CT can be used as a tiebreaker. A positive FES scan can confirm functional ER presence, overriding the biopsy and drastically altering patient care.