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一种确定的筛选设计在合成司帕沙星与四氰基乙烯电荷转移络合物中的应用:光谱、热力学、动力学及密度泛函理论计算研究

Application of a definitive screening design for the synthesis of a charge-transfer complex of sparfloxacin with tetracyanoethylene: spectroscopic, thermodynamic, kinetics, and DFT computational studies.

作者信息

El-Shafie Ahmed S, Khashan Areej W, Hussein Yasser H A, El-Azazy Marwa

机构信息

Department of Chemistry and Earth Sciences, College of Arts and Sciences, Qatar University Doha 2713 Qatar

出版信息

RSC Adv. 2019 Aug 8;9(43):24722-24732. doi: 10.1039/c9ra03141c.

DOI:10.1039/c9ra03141c
PMID:35528693
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9069835/
Abstract

Herein, a spectrochemical approach was adopted to study the charge-transfer (CT) complexation of sparfloxacin (SFX) with tetracyanoethylene (TCNE). In this study, a three-level design of experiments (DOE) involving a definitive screening design (DSD) was implemented. This is the first effort to operate this new category of design to determine a pharmaceutical compound in its pure form and in formulations. The proposed design allowed the establishment of a regression model that described the relation between the factorial input and the response surface. Moreover, two charge-transfer states (CTSs) were observed at 390 and 464 nm. The DFT calculations conducted using B3LYP/6-31+G showed that SFX had several donation sites (donor, D), whereas TCNE had two acceptor (A) sites. The two states were influenced differently by the experimental conditions as per the findings of the DSD analysis. In general, the diluting solvent had the largest impact. Probability plots, histograms, individual value plots, residual plots as well as analysis of variance (ANOVA) were delineated at the 95.0% confidence interval (CI). A Job's plot showed that a 1 : 1 complex was formed. The results were further confirmed using Benesi-Hildebrand plots. The proposed approach was proved to be linear in the range of 10-90 μg mL SFX when the absorbance was measured at 464 nm. Different set-ups were adopted for studying the reaction kinetics. Analytical method performance was assessed following the ICH guiding principles, and the results obtained were found to be satisfactory. Complex formation was found to be an exothermic reaction.

摘要

在此,采用光谱化学方法研究了司帕沙星(SFX)与四氰基乙烯(TCNE)的电荷转移(CT)络合作用。在本研究中,实施了一种包含确定性筛选设计(DSD)的三级实验设计(DOE)。这是首次运用此类新设计来测定纯形式及制剂中的药物化合物。所提出的设计允许建立一个回归模型,该模型描述了因子输入与响应面之间的关系。此外,在390和464 nm处观察到两个电荷转移态(CTS)。使用B3LYP/6 - 31 + G进行的密度泛函理论(DFT)计算表明,SFX有几个供体位点(供体,D),而TCNE有两个受体(A)位点。根据DSD分析的结果,这两个状态受实验条件的影响不同。一般来说,稀释溶剂的影响最大。在95.0%置信区间(CI)绘制了概率图、直方图、个体值图、残差图以及方差分析(ANOVA)。Job曲线表明形成了1∶1的络合物。使用Benesi - Hildebrand曲线进一步证实了结果。当在464 nm处测量吸光度时,所提出的方法在10 - 90 μg/mL SFX范围内被证明是线性的。采用了不同的设置来研究反应动力学。按照国际协调会议(ICH)指导原则评估分析方法的性能,发现所获得的结果令人满意。发现络合物形成是一个放热反应。

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