Physical, chemical and biological evaluations of CMD-A2-Gd-DOTA. A new paramagnetic dextran polymer.

Acta radiologica. Supplementum Pub Date : 1997-01-01
C Corot, M Schaefer, S Beauté, P Bourrinet, S Zehaf, V Bénizé, M Sabatou, D Meyer
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Abstract

Purpose: We investigated the synthesis and physical, chemical and biological characterisation of a carboxymethyl-dextran polymer substituted with the paramagnetic macrocyclic complex Gd-DOTA using an amino spacer.

Material and methods: The product was synthesised in 4 steps. Using rigorous purification conditions in each step, a polymer was obtained, i.e. CMD-A2-Gd-DOTA, whose polydispersity profile was comparable to the initial dextran (I = 1.66-Mw = 50.5 kDa). Approximately 22% of the glucose groups were replaced by Gd-DOTA and 39% were replaced by carboxyl groups. The paramagnetic efficacy of the polymer was 3 times higher than Gd-DOTA alone, which suggests that the injected doses of Gd(III) can be reduced. The vascular residence time of the polymer was measured in rats and rabbits, showing that the pharmacokinetics of the product is similar whatever the dose. Forty-five percent of the product was excreted in urine after 24 h and 1.64% was found in the liver. No acute toxicity was observed at the maximum dose injected (> 5 mmol Gd/kg) and the general biocompatibility of the product tested in vitro was comparable to that of Gd-DOTA.

Results and conclusion: These results show the advantages of using paramagnetic macrocyclic complexes in the synthesis of macromolecules to preserve biological stability, in contrast with linear chelates. Additional studies will be carried out to demonstrate the benefits of this type of product, particularly in functional imaging.

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cd - a2 - gd - dota的物理、化学和生物学评价。一种新型顺磁性葡聚糖聚合物。
目的:研究顺磁大环配合物Gd-DOTA取代羧甲基葡聚糖聚合物的合成及其物理、化学和生物学性质。材料与方法:分4步合成。在严格的纯化条件下,得到了一种聚合物,即CMD-A2-Gd-DOTA,其多分散性与初始葡聚糖相当(I = 1.66-Mw = 50.5 kDa)。大约22%的葡萄糖组被Gd-DOTA取代,39%被羧基取代。聚合物的顺磁效能是单独Gd- dota的3倍,这表明Gd(III)的注射剂量可以减少。测定了该聚合物在大鼠和家兔体内的血管停留时间,结果表明,无论剂量大小,该产品的药代动力学都是相似的。24 h后45%的产物随尿液排出,1.64%在肝脏中发现。在最大注射剂量(> 5 mmol Gd/kg)下未见急性毒性,体外生物相容性与Gd- dota相当。结果与结论:这些结果表明,与线性螯合物相比,顺磁大环配合物在大分子合成中具有保持生物稳定性的优势。进一步的研究将证明这类产品的好处,特别是在功能成像方面。
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