Kinetic analysis of the cannabinoid-1 receptor PET tracer [(18)F]MK-9470 in human brain
- PMID: 20033684
- DOI: 10.1007/s00259-009-1340-5
Kinetic analysis of the cannabinoid-1 receptor PET tracer [(18)F]MK-9470 in human brain
Abstract
Purpose: Quantitative imaging of the type 1 cannabinoid receptor (CB1R) opens perspectives for many neurological and psychiatric disorders. We characterized the kinetics and reproducibility of the CB1R tracer [(18)F]MK-9470 in human brain.
Methods: [(18)F]MK-9470 data were analysed using reversible models and the distribution volume V (T) and V (ND) k (3) (V (ND) k (3) = K (1) k (2)) were estimated. Tracer binding was also evaluated using irreversible kinetics and the irreversible uptake constant K (i) and fractional uptake rate (FUR) were estimated. The effect of blood flow on these parameters was evaluated. Additionally, the possibility of determining the tracer plasma kinetics using a reduced number of blood samples was also examined.
Results: A reversible two-tissue compartment model using a global k (4) value was necessary to describe brain kinetics. Both V (T) and V (ND) k (3) were estimated satisfactorily and their test-retest variability was between 10% and 30%. Irreversible methods adequately described brain kinetics and FUR values were equivalent to K (i). The linear relationship between K (i) and V (ND) k (3) demonstrated that K (i) or FUR and thus the simple measure of tracer brain uptake provide CB1R availability information. The test-retest variability of K (i) and FUR was <10% and estimates were independent of blood flow. Brain uptake can be used as a receptor availability index, albeit at the expense of potential bias due to between-subject differences in tracer plasma kinetics.
Conclusion: [(18)F]MK-9470 specific binding can be accurately determined using FUR values requiring a short scan 90 to 120 min after tracer administration. Our results suggest that [(18)F]MK-9470 plasma kinetics can be assessed using a few venous samples.
Comment in
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Approaches to quantify radioligands that wash out slowly from target organs.Eur J Nucl Med Mol Imaging. 2010 May;37(5):917-9. doi: 10.1007/s00259-010-1426-0. Eur J Nucl Med Mol Imaging. 2010. PMID: 20358196 Free PMC article. No abstract available.
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