Regional brain uptake and pharmacokinetics of [123I]N-ω -fluoroalkyl-2β-carboxy-3β-(4-iodophenyl) nortropane esters in baboons
1995; Elsevier BV; Volume: 22; Issue: 2 Linguagem: Inglês
10.1016/0969-8051(94)00096-3
ISSN1872-9614
AutoresRonald M. Baldwin, Yolanda Zea‐Ponce, Mohammed S. Al‐Tikriti, Sami S. Zoghbi, John Seibyl, Dennis S. Charney, Paul B. Hoffer, Shaoyin Wang, Richard A. Milius, John L. Neumeyer, Robert B. Innis,
Tópico(s)Neuroscience and Neuropharmacology Research
ResumoFour N-ω-fluoroalkyl-2β-carboxy-3β-(4-iodophenyl)nortropane esters [N-fluoroethyl, methyl ester (β-CIT-FE), N-fluoropropyl, methyl ester (β-CIT-FP), N-fluoroethyl, isopropyl ester (IP-β-CIT-FE), and N-fluoropropyl, isopropyl ester (IP-β-CIT-FP)] were labeled with123I and evaluated in baboons by dynamic SPECT regional brain imaging, measurement of pharmacokinetics in arterial plasma, and whole body imaging. The labeled tracers were prepared by iododestannylation of the corresponding 4-(trimethylstannyl) phenyl compounds in radiochemical yield 63–96% and radiochemical purity > 96%. Regional SPECT brain imaging was carried out over a period of 5 h with a Strichman 810X Brain Imager to assess regional uptake in the striatum and midbrain compared to reference regions in the occipital cortex and cerebellum; arterial blood samples were taken for analysis of metabolites by solvent extraction and HPLC. The methyl esters showed higher total and specific peak uptake in the striatum than the isopropyl esters. Midbrain uptake was uniformly lower than striatal uptake and washed out more rapidly. β-CIT-FE had more rapid striatal kinetics than β-CIT-FP, with specific striatal washout rates of 10–14 vs 4–6% peak/h. Biodistribution of [123I]β-CIT-FE and [123I]β-CIT-FP measured by whole body conjugate imaging demonstrated major uptake in the brain, liver, and GI tract, with excretion occurring through both the renal and hepatobiliary routes. Absorbed radiation dose estimates based on the MIRD schema indicated highest dose rates to the urinary bladder wall and lower large intestine wall (0.7 and 0.6 rad/mCi for [123I]β-CTT-FE and 0.7 and 0.9 rad/mCi for [123I]β-CIT-FP, respectively). The high uptake in the striatum and the relative specificity with respect to cortical, midbrain, and cerebellar areas, suggest that [123I](β-CIT-FE and [123I]β-CIT-FP may be valuable tracers for studying the dopamine system in vivo by tomographic imaging.
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