Determination of structural properties in the adsorption of drugs on chitosan-hydrogels for type 2 diabetes by means of the PM6 method

Pub Date : 2020-05-01 DOI:10.15446/rev.colomb.quim.v49n2.84723

Nancy Liliana Delgadillo Armendariz, Norma Aurea Rangel Vásquez, Edgar Márquez Brazón

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引用次数: 1

Abstract

Computational chemistry performs the modeling and calculation of physicochemical properties that allow understanding of the different molecular interactions at the nanometric scale in medical applications such as the design of controlled release systems. The PM6 model was used to analyze metformin and glibenclamide. First, the energy properties as the Gibbs free energy and enthalpies were obtained. The results showed the affinity of both drugs with water (glibenclamide: -7.96 and metformin: -11.49) due to the formation of hydrogen bonds, which were verified by the electronegativities corresponding to the dipole moment and to the partition coefficient (Log P).Subsequently, the main properties for the design of a release system using the metformin/glibenclamide complex in the chitosan hydrogel were determined. In this process it was appreciated that the Gibbs free energy (-2157.60 kcal/mol) determined the thermodynamic stability of the adsorption. In addition, the Log P (-25.82) indicated an instantaneous solubility through the formation of hydrogen bonds and were verified by the electronic distribution and the change in dipole moment.

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PM6法测定2型糖尿病药物在壳聚糖水凝胶上吸附的结构性质

计算化学执行物理化学性质的建模和计算，以便在纳米尺度上理解医疗应用中的不同分子相互作用，例如控制释放系统的设计。采用PM6模型对二甲双胍和格列本脲进行分析。首先，得到了其能量性质，如吉布斯自由能和焓。结果表明，由于氢键的形成，两种药物与水(格列本脲:-7.96，二甲双胍:-11.49)具有亲和力，并通过偶极矩对应的电负性和分配系数(Log P)进行了验证。随后，确定了二甲双胍/格列本脲配合物在壳聚糖水凝胶中的释放体系设计的主要性质。在此过程中，吉布斯自由能(-2157.60 kcal/mol)决定了吸附的热力学稳定性。此外，logp(-25.82)通过氢键的形成表明了瞬时溶解度，并通过电子分布和偶极矩的变化得到了验证。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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