The synthesis of MP–CDCA conjugates and dissolution kinetics of model cholesterol gallstones

The comb-like copolymers of polycarboxylic acid were synthesized and then reacted with chenodeoxycholic acid (CDCA) to obtain a series of conjugates, MP n–CDCA, where n is the number of the groups of oxyethylene in each graft chain. This was confirmed by infrared spectroscopy and thin-layer chromato...

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Veröffentlicht in:	Acta biomaterialia 2008-09, Vol.4 (5), p.1421-1426
Hauptverfasser:	Gong, Rui-yu, Lü, Zhi-liang, Zhang, Li-dong, Du, Li-ping, Zhang, Da, Qiao, Xue-liang, Li, Jian-rong
Format:	Artikel
Sprache:	eng
Schlagworte:	Body Fluids - chemistry Carboxylic Acids - chemistry Carboxylic Acids - therapeutic use Chenodeoxycholic Acid - chemistry Chenodeoxycholic Acid - therapeutic use Cholesterol - chemistry Diffusion Dissolving in vitro Drug Evaluation, Preclinical Gallstones - chemistry Gallstones - drug therapy Humans Kinetics Model gallstone Steric interactive potential energy
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creator	Gong, Rui-yu Lü, Zhi-liang Zhang, Li-dong Du, Li-ping Zhang, Da Qiao, Xue-liang Li, Jian-rong
description	The comb-like copolymers of polycarboxylic acid were synthesized and then reacted with chenodeoxycholic acid (CDCA) to obtain a series of conjugates, MP n–CDCA, where n is the number of the groups of oxyethylene in each graft chain. This was confirmed by infrared spectroscopy and thin-layer chromatography. We investigated the effects of dissolving model cholesterol gallstones with the MP n–CDCA conjugates in phosphate-buffered saline at pH 7.4. The dissolution rates of CDCA, MP40–CDCA, MP30–CDCA, MP20–CDCA and MP10–CDCA were 5.33, 5.717, 17.59, 6.868 and 9.615 × 10 −7 kg m −2 s −1, micellar solubilities were 0.2431, 3.095, 12.972, 5.248 and 5.790 kg m −3 and total resistances were 5.33, 5.717, 17.59, 6.868 and 9.615 × 10 −7 kg m −2 s −1, respectively. These studies suggested that the interfacial resistance was the dominant rate-determining factor in dissolving model cholesterol gallstones. Model cholesterol gallstones could be more effectively dissolved by increasing the steric interactive potential energy of side chains and ensuring that the hydrophilic–lipophilic properties of MP–CDCA are within an appropriate range. The micellar dissolution rates of model cholesterol gallstones by MP20–CDCA were significantly faster than by the other conjugates.
doi_str_mv	10.1016/j.actbio.2008.01.015
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subjects	Body Fluids - chemistry Carboxylic Acids - chemistry Carboxylic Acids - therapeutic use Chenodeoxycholic Acid - chemistry Chenodeoxycholic Acid - therapeutic use Cholesterol - chemistry Diffusion Dissolving in vitro Drug Evaluation, Preclinical Gallstones - chemistry Gallstones - drug therapy Humans Kinetics Model gallstone Steric interactive potential energy
title	The synthesis of MP–CDCA conjugates and dissolution kinetics of model cholesterol gallstones
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