The effectiveness of radioligand therapy is counterintuitive: as tumors shrink and PSMA binding sites decrease, less radiation is delivered to the cancer. The VISION trial showed the first two doses delivered more radiation to the tumor than the subsequent four, questioning the value of a fixed, prolonged treatment schedule.

The PSMA Addition study, adding lutetium in metastatic hormone-sensitive prostate cancer, showed an RPFS benefit. However, initial data suggested adverse quality of life scores. Upcoming results on pain and skeletal events are critical to determine if the toxicity profile undermines its clinical utility in this earlier disease setting.

After years of successfully intensifying hormonal therapy, the focus in prostate cancer is shifting toward de-intensification. Researchers are exploring intermittent therapy for top responders and developing non-hormonal approaches like radioligands to spare patients the chronic, life-altering side effects of permanent castration.

Lutetium faces criticism for its fixed 6-cycle regimen, which may be suboptimal as the PSMA target diminishes with ADT. However, this critique is rarely applied to other drugs like PARP inhibitors, which are given until progression. This highlights a double standard and the tension between using a fixed regimen for regulatory approval versus finding the optimal dose in practice.

If lutetium-PSMA is approved and used upfront in hormone-sensitive disease, clinicians may become more comfortable with radioligands generally. This could lead them to use the enzalutamide-radium combination more frequently later on, paradoxically increasing radium's use by flipping the current treatment sequence.

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.

Clinicians may be biased towards lutetium-PSMA because it causes significant PSA drops, which radium-223 does not. This observable metric may not reflect superior overall efficacy, as radium's survival benefit is proven and it may even have unique synergistic potential with drugs like enzalutamide through different biological pathways.

A practical method to monitor radioligand therapy is a post-treatment SPECT scan. Since the therapeutic agent is radioactive, a simple planar scan about 24 hours after injection can visually confirm where the drug was delivered. This provides real-time feedback, beyond PSA levels, to potentially adapt treatment.

While Lutetium shows promise in hormone-sensitive prostate cancer, experts raise concerns about potential late-effect toxicities for patients surviving many years. This contrasts with docetaxel, where toxicity is acute and resolves after treatment, highlighting an unknown long-term risk-benefit profile for new radioligand therapies.