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应用 T₁ mapping 和 Gd-螯合物标记聚合物的眼部药代动力学研究。

Ocular pharmacokinetic study using T₁ mapping and Gd-chelate- labeled polymers.

机构信息

Department of Radiology Utah Center for Advanced Imaging Research, University of Utah, 729 Arapeen Dr., Salt Lake City, Utah 84108, USA.

出版信息

Pharm Res. 2011 Dec;28(12):3180-8. doi: 10.1007/s11095-011-0507-5. Epub 2011 Jun 21.

DOI:10.1007/s11095-011-0507-5
PMID:21691891
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3230720/
Abstract

PURPOSE

Recent advances in drug discovery have led to the development of a number of therapeutic macromolecules for treatment of posterior eye diseases. We aimed to investigate the clearance of macromolecular contrast probes (polymers conjugated with Gd-chelate) in the vitreous after intravitreal injections with the recently developed ms-DSEPI-T12 MRI and to examine the degradation of disulfide-containing biodegradable polymers in the vitreous humor in vivo.

METHODS

Intravitreal injections of model contrast agents poly[N-(2-hydroxypropyl)methacrylamide]-GG-1,6-hexanediamine-(Gd-DO3A), biodegradable (Gd-DTPA)-cystine copolymers, and MultiHance were performed in rabbits; their distribution and elimination from the vitreous after injections were determined by MRI.

RESULTS

Times for macromolecular contrast agents to decrease to half their initial concentrations in the vitreous ranged from 0.4-1.3 days post-injection. Non-biodegradable polymers demonstrated slower vitreal clearance than those of disulfide-biodegradable polymers. Biodegradable polymers had similar clearance as MultiHance.

CONCLUSIONS

Usefulness of T(1) mapping and ms-DSEPI-T12 MRI to study ocular pharmacokinetics was demonstrated. Results suggest an enzymatic degradation mechanism for the disulfide linkage in polymers in the vitreous leading to breakup of polymers in vitreous humor over time.

摘要

目的

药物发现的最新进展导致了许多治疗大分子的发展,用于治疗后眼部疾病。我们旨在研究玻璃体内大分子对比探针(与 Gd-螯合物偶联的聚合物)在玻璃体内的清除率,使用最近开发的 ms-DSEPI-T12 MRI,并研究体内玻璃体液中含二硫键的可生物降解聚合物的降解情况。

方法

通过 MRI 确定模型对比剂聚[N-(2-羟丙基)甲基丙烯酰胺]-GG-1,6-己二胺-(Gd-DO3A)、可生物降解(Gd-DTPA)-半胱氨酸共聚物和 MultiHance 在兔眼内的分布和注射后从玻璃体内的消除情况。

结果

大分子对比剂在玻璃体内浓度降至初始浓度一半的时间范围为注射后 0.4-1.3 天。不可生物降解的聚合物在玻璃体内的清除速度比二硫键可生物降解聚合物慢。可生物降解聚合物的清除速度与 MultiHance 相似。

结论

证明了 T1 映射和 ms-DSEPI-T12 MRI 在研究眼药代动力学方面的有效性。结果表明,在玻璃体内聚合物中二硫键的降解机制是酶促的,导致聚合物随时间在玻璃体液中分解。

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