COMPETITIVE DISPLACEMENT OF SERUM PROTEIN BINDING TO REGULATE PHARMACOKINETICS OF A CEREBRAL BLOOD FLOW RADIOPHARMACEUTICAL
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概要
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It is well-known that only free drug in blood is concerned with pharmacological activity. In case a therapeutic drug is administered with another displacer, which may displace competitively at the binding site of serum protein, the free fraction of this drug would be increased and consequently produce a high biological activity. So if the binding of radiopharmaceuticaltso serum proteinc an be inhibited by displacers with high protein binding affinity, the total clearance and tissue distribution of this tracer would be enhanced. In this study, the interaction between <SUP>123</SUP>I-labeled <I>N</I>-isopropyl-<I>p</I>-iodoamphetamine (<SUP>123</SUP>I-IMP) and several binding displacers was evaluated to improve cerebral imaging in rats and a monkey. The serum protein binding of <SUP>123</SUP>I-IMP was evaluated by ultrafiltration. The free fraction rate of <SUP>123</SUP>I-IMP was increased up to 1.2 times of control with albumin displacers. 6-Methoxy-2-naphtylacetic acid (6MNA), a clinically available HSA site II displacer, was selected for following studies. The rat biodistribution showed more rapid clearance of <SUP>123</SUP>I-IMP with 6MNA loading. In scintigraphic study in rats, cerebral accumulation was slightly accelerated. It was also observed hasten cerebral accumulation in monkey dynamic scintigraphy. Indeed, 6MNA treatment increased free <SUP>123</SUP>I-IMP in monkey serum study. Therefore, rapid and high cerebral accumulation was achieved. The displacement method could easily be applied to human study. The displacement of <SUP>123</SUP>I-IMP binding on serum protein could shorten imaging time and reduce radiation dose for patients. Furthermore, in other radiopharmaceuticals with high protein binding, the competitive displacement on specific binding sites can control their tissue distribution and kinetics in clinical application.
- 日本薬物動態学会の論文
日本薬物動態学会 | 論文
- COMPETITIVE DISPLACEMENT OF SERUM PROTEIN BINDING TO REGULATE PHARMACOKINETICS OF A CEREBRAL BLOOD FLOW RADIOPHARMACEUTICAL
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