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.
Unlike traditional chemotherapy, radioligand therapy's toxicity may be inversely correlated with tumor volume. In low-burden disease, fewer cancer cells act as a 'sink' for the drug, potentially leading to higher radiation exposure and side effects in healthy, PSMA-expressing tissues like salivary glands.
A critical distinction exists between a clinical adverse event (AE) and its impact on a patient's quality of life (QOL). For example, a drop in platelet count is a reportable AE, but the patient may be asymptomatic and feel fine. This highlights the need to look beyond toxicity tables to understand the true patient experience.
Radioligand therapy has a unique toxicity profile, described as 'the gift that keeps on giving,' where side effects can worsen even after the treatment course is complete. This contrasts with chemotherapy like docetaxel, where a patient's quality of life often rebounds and improves once the drug is stopped.
The PR21 trial showed better overall survival for docetaxel followed by Lutetium, despite similar progression-free survival. The likely reason is not drug superiority but patient behavior: a higher percentage of patients complete the second therapy when starting with chemo, highlighting how treatment fatigue significantly impacts survival.
The PSMA edition trial's fixed six-cycle Lutetium regimen, designed nearly a decade ago, is now seen as suboptimal. This illustrates how the long duration of clinical trials means their design may not reflect the latest scientific understanding (e.g., adaptive dosing) by the time results are published and debated.
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.