Attention to tracer dose principles is crucial in positron emission tomography (PET), and deviations can induce serious errors. In this study, we devise a method for determining receptor occupancy of the mass dose of the radioligand itself and the in vivo affinity.
Methods: The approach was used for [C-11]SB207145, a new PET radioligand for imaging the cerebral 5-HT4 receptors in humans. Test-retest PET studies with varying specific activities of [C-11]SB207145 were conducted in seven healthy subjects, and the output parameter regional BPND was modeled. Individual occupancy plots were first computed to estimate the mass dose that saturates 50% of receptors (ID50), and subsequently, the maximal mass dose that can be injected (arbitrarily set at an occupancy <5%) was calculated. Scatchard plots were computed to estimate the in vivo K-D.
Results: Increasing the mass dose resulted in a decrease in BPND, whilst the relative cerebellar uptake was unchanged. The ID50 was 85.4 +/- 30.2 mu g, and the upper mass dose limit was 4.5 +/- 1.6 mu g, which does not require ultrahigh specific activity. The estimated in vivo K-D was 2.8 nM (range 1.0-4.8), without any regional differences.
Conclusion: The presented method for estimating the upper mass dose limit is suggested as part of validation of PET radioligands.

• 出版日期2011-11