Standard guidelines for treating metastatic prostate cancer are based on conventional imaging (CT/bone scan). The panel argues that PSMA PET-positive biochemical recurrence represents a different, earlier disease state. This necessitates new treatment paradigms, like definitive therapy durations, not covered by current guidelines.

While many clinical trials haven't officially counted PSMA-PET only disease as metastatic, clinicians have latitude. If a PSMA-PET scan reveals aggressive, multifocal disease, especially with a rapidly rising PSA, it should be treated as incurable metastatic cancer, justifying the initiation of systemic therapy.

The EMBARK trial showed that enzalutamide monotherapy was superior to standard ADT monotherapy for metastasis-free survival. This suggests potent AR antagonism may be a more effective strategy than simply depleting the testosterone ligand, challenging the long-held dogma of ADT being the fundamental building block for systemic prostate cancer therapy.

While the landmark EMBARK study enrolled patients with no metastatic disease on conventional imaging (CT/bone scan), a similar population scanned with advanced PSMA PET imaging showed 84% had M1 disease. This suggests that treatments for this population are effective against micrometastases not visible on older scans, blurring the lines between localized and metastatic states.

The patient population in pivotal trials like EMBARK, defined as non-metastatic by conventional imaging, is being re-evaluated. A UCLA study showed that over 80% of a similar patient group would have been positive on a PSMA PET scan, suggesting the "M0" classification is largely an artifact of older imaging technology and that these patients likely have micrometastatic disease.

For patients with oligometastatic disease who achieve a deep PSA response (e.g., to zero), oncologists consider finite treatment durations (e.g., 18-24 months) followed by observation. This "do less harm" approach challenges the standard of continuous therapy until progression, aiming for long-term treatment-free intervals.

The EMBARK study demonstrates that an intermittent approach to androgen deprivation therapy (ADT), especially with combination ADT and enzalutamide, can provide patients with low-volume metastatic disease a median of 1.5 years off therapy, improving quality of life without compromising outcomes.

For patients with conventionally negative imaging but positive PSMA PET scans (oligometastatic disease), continuous intensified therapy may be overtreatment. A new paradigm involves metastasis-directed therapy followed by a short course of escalated treatment, then stopping to observe. This "time-limited" approach balances efficacy with reducing long-term treatment burden.

Though EMBARK trial patients were negative on conventional imaging, an analysis suggests over 80% had PSMA PET-detectable disease. This reframes the landmark study, suggesting its findings may apply more to treating low-volume metastatic disease intermittently rather than purely biochemical recurrence.