高亲和力多巴胺 D2/D3 PET 放射性配体 18F-氟丙嗪和 11C-FLB457：使用多次注射方案比较纹外区域的动力学。

High-affinity dopamine D2/D3 PET radioligands 18F-fallypride and 11C-FLB457: a comparison of kinetics in extrastriatal regions using a multiple-injection protocol.

机构信息

Department of Medical Physics, University of Wisconsin-Madison, Madison, Wisconsin, USA.

出版信息

J Cereb Blood Flow Metab. 2010 May;30(5):994-1007. doi: 10.1038/jcbfm.2009.270. Epub 2009 Dec 30.

DOI:10.1038/jcbfm.2009.270

PMID:20040928

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2897717/

Abstract

(18)F-Fallypride and (11)C-FLB457 are commonly used PET radioligands for imaging extrastriatal dopamine D(2)/D(3) receptors, but differences in their in vivo kinetics may affect the sensitivity for measuring subtle changes in receptor binding. Focusing on regions of low binding, a direct comparison of the kinetics of (18)F-fallypride and (11)C-FLB457 was made using a MI protocol. Injection protocols were designed to estimate K(1), k(2), f(ND)k(on), B(max), and k(off) in the midbrain and cortical regions of the rhesus monkey. (11)C-FLB457 cleared from the arterial plasma faster and yielded a ND space distribution volume (K(1)/k(2)) that is three times higher than (18)F-fallypride, primarily due to a slower k(2) (FAL:FLB; k(2)=0.54 min(-1):0.18 min(-1)). The dissociation rate constant, k(off), was slower for (11)C-FLB457, resulting in a lower K(Dapp) than (18)F-fallypride (FAL:FLB; 0.39 nM:0.13 nM). Specific D(2)/D(3) binding could be detected in the cerebellum for (11)C-FLB457 but not (18)F-fallypride. Both radioligands can be used to image extrastriatal D(2)/D(3) receptors, with (11)C-FLB457 providing greater sensitivity to subtle changes in low-receptor-density cortical regions and (18)F-fallypride being more sensitive to endogenous dopamine displacement in medium-to-high-receptor-density regions. In the presence of specific D(2)/D(3) binding in the cerebellum, reference region analysis methods will give a greater bias in BP(ND) with (11)C-FLB457 than with (18)F-fallypride.

摘要

(18)F-氟丙基哌啶和 (11)C-FLB457 是常用于成像纹状体外多巴胺 D2/ D3 受体的 PET 放射性配体，但它们在体内动力学方面的差异可能会影响测量受体结合细微变化的敏感性。本研究采用 MI 方案，聚焦于低结合区域，直接比较了 (18)F-氟丙基哌啶和 (11)C-FLB457 的动力学。设计注射方案以估计恒河猴中脑和皮质区域的 K1、k2、fNDk(on)、Bmax 和 koff。(11)C-FLB457 从动脉血浆中清除更快，并且产生的 ND 空间分布容积 (K1/k2) 比 (18)F-氟丙基哌啶高 3 倍，这主要是由于 k2 较慢(FAL：FLB；k2=0.54 min-1：0.18 min-1)。(11)C-FLB457 的离解速率常数 koff 较慢，导致 K(Dapp) 低于 (18)F-氟丙基哌啶(FAL：FLB；0.39 nM：0.13 nM)。(11)C-FLB457 可在小脑检测到特异性 D2/D3 结合，但 (18)F-氟丙基哌啶不行。两种放射性配体均可用于成像纹状体外 D2/D3 受体，(11)C-FLB457 对低受体密度皮质区域的细微变化更敏感，而 (18)F-氟丙基哌啶对中至高受体密度区域的内源性多巴胺置换更敏感。在小脑存在特异性 D2/D3 结合的情况下，与 (18)F-氟丙基哌啶相比，(11)C-FLB457 的参考区域分析方法将导致 BP(ND) 更大的偏差。

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