二(氢过碘酸)合银(III)配离子氧化愈创甘油醚的反应动力学及机理

在碱性介质中,用传统的分光光度法研究了Ag(III)配离子,即[Ag(HIO6)2]5-,氧化药物分子愈创甘油醚的动力学及其机理.用质谱鉴定了氧化产物;反应对Ag(III)和愈创甘油醚均为一级;在温度25.0-40.0℃范围内,通过分析[OH-]和[IO4-]tot对反应速率的影响,二级速率常数有以下表达式:k′=(ka kb[OH-])K1/｛f([OH-])[IO4-]tot K1｝,在25.0℃及离子强度0.30mol·L-1时,对此反应有ka=(2.6±1.2)×10-2mol-1·L·s-1,kb=(2.8±0.1)mol-2·L2·s-1,及K1=(4.1±0.4)×10-4mol·L-1,求出了涉及ka,kb的活化参数,并据此推出反应机理为反应体系中的[Ag(HIO6)2]5-配离子在前期平衡后,反应活性中心与药物分子形成Ag(III)-过碘酸-愈创甘油醚分子三元配合物,配位甘油醚分子通过两个平行途径将两电子传递给中心原子Ag:一个途径无OH-离子参与,另一途径有OH-参与完成.     

基于VB的岭回归法测定扑热息痛等五组分含量的研究

将岭回归吸光光度法（LHG）应用于感冒液中扑热息痛,扑尔敏,咖啡因,愈创木酚甘油醚和对氮基酚等五组分含量的同时测定,运用VB语言进行程序设计。试验结果表明,该法样品各组分的平均回收率在97．9％－103．3％之间,样品不经分离即可测定,取得了满意的分析结果。     

Simultaneous determination of diclofenac potassium and methocarbamol in ternary mixture with guaifenesin by reversed phase liquid chromatography

New, simple, rapid and precise reversed phase liquid chromatographic (RP-LC) method has been developed for the simultaneous determination of diclofenac potassium (DP) and methocarbamol (MT) in ternary mixture with guaifenesin (GF), degradation product of methocarbamol. Chromatographic separation was achieved on a Symmetry^® Waters C18 column (150 mm × 4.6 mm, 5 μm). Gradient elution based on phosphate buffer pH (8)-acetonitrile at a flow rate of 1 mL min⁻¹ was applied. The UV detector was operated at 282 nm for DP and 274 nm for MT and GF. Linearity, accuracy and precision were found to be acceptable over the concentration ranges of 0.05-16, 0.5-160 and 0.5-160 μg mL⁻¹ for DP, MT and GF, respectively. The optimized method proved to be specific, robust and accurate for the quality control of the cited drugs in pharmaceutical preparation.     

Simultaneous Voltammetric Determination of Theophylline and Guaifenesin Using a Multiwalled Carbon Nanotube‐Ionic Liquid Modified Glassy Carbon Electrode

A glassy carbon electrode (GCE) modified with multiwalled carbon nanotubes (MWCNTs) and a hydrophobic ionic liquid (IL), was used for the simultaneous voltammetric determination of theophylline (TP) and guaifenesin (GF). The results showed that the oxidations of TP and GF were facilitated at modified electrode and peak‐to‐peak separation at MWCNT? IL/GCE (252 mV) was larger than that observed at unmodified GCE (165 mV). Voltammetric signals for TP and GF exhibited linear ranges of 0.5 to 98.0 µM (R²>0.99) and 1.5 to 480.0 µM (R²>0.99), respectively. The method was used to estimate TP and GF contents in some real samples.     

Simultaneous Determination of Guaifenesin and Theophylline by Chemometrics Methods

In this study, simultaneous spectrophotometry determination of guaifenesin and theophylline in pharmaceuticals by chemometric approaches has been reported. Spectra of mixtures of these drugs were recorded and corresponding first derivatives were calculated. Partial least squares regression (PLS) alone and ant colony optimization (ACO) coupled with PLS were used in analysis of the data. Ant colony system (ACS) as an efficient ACO algorithm was used. In addition, ACS was combined to genetic algorithm (GA) to produce better results. The analytical performances of these chemometric methods were characterized by relative prediction errors. These methods were successfully applied to pharmaceutical formulation.     

HPLC method for the simultaneous determination of atenolol and chlorthalidone in human breast milk

A high-performance liquid chromatographic method was optimized and validated for the determination of atenolol and chlorthalidone (CT) in human breast milk. The milk samples were extracted and purified using ACN and phosphoric acid for precipitation of proteins followed by removal of ACN and milk fats by extraction with methylene chloride. The samples were applied, after an extraction procedure, to a cyanide column using a mobile phase consisting of ACN/water (35:65 v/v) and buffered at pH 4.0 with flow rate of 1.0 mL/min. Quantitation was achieved with UV detection at 225 nm using guaifenesin as the internal standard. The effectiveness of protein precipitation and clean up procedure were investigated. The method was validated over the range of 0.3-20 microg/mL for atenolol and 0.25-5 microg/mL for CT.     

Using dispersive liquid-liquid microextraction and liquid chromatography for determination of guaifenesin enantiomers in human urine

A simple, rapid, and efficient method, dispersive liquid–liquid microextraction (DLLME) coupled with high‐performance liquid chromatography‐fluorescence detector, has been developed for the determination of guaifenesin (GUA) enantiomers in human urine samples after an oral dose administration of its syrup formulation. Urine samples were collected during the time intervals 0–2, 2–4, and 4–6 h and concentration and ratio of two enantiomers was determined. The ratio of R‐(?) to S‐(+) enantiomer concentrations in urine showed an increase with time, with R/S ratios of 0.66 at 2 h and 2.23 at 6 h. For microextraction process, a mixture of extraction solvent (dichloromethane, 100 μL) and dispersive solvent (THF, 1 mL) was rapidly injected into 5.0 mL diluted urine sample for the formation of cloudy solution and extraction of enantiomers into the fine droplets of CH₂Cl₂. After optimization of HPLC enantioselective conditions, some important parameters, such as the kind and volume of extraction and dispersive solvents, extraction time, temperature, pH, and salt effect were optimized for dispersive liquid–liquid microextraction process. Under the optimum extraction condition, the method yields a linear calibration curve in the concentration range from 10 to 2000 ng/mL for target analytes. LOD was 3.00 ng/mL for both of the enantiomers.     

An Electrochemical Sensor Based on Carbon Nanotube Bimetallic Au‐Pt Inorganic‐Organic Nanofiber Hybrid Nanocomposite Electrode Applied for Detection of Guaifenesin

A glassy carbon electrode modified with carbon nanotube and bimetallic inorganic‐organic nanofiber hybrid nanocomposite was prepared and used for determination of trace levels of guaifenesin. A modified glassy carbon electrode was developed for the rapid, selective, sensitive and low cost monitoring of guaifenesin. Oxidation of guaifenesin on the surface of the modified electrode was investigated with differential pulse voltammetry and the results showed that the modified electrode remarkably improved sensitivity and selectivity for the electrochemical assay of guaifenesin. Detection limit and quantitation limit were found to be 0.0175 µM and 0.0583 µM, respectively.     

Development and validation of a stability-indicating LC method for simultaneous determination of related compounds of guaifenesin,terbutaline sulfate and ambroxol HCl in cough syrup formulation

A new liquid chromatographic method has been developed and validated for the determination of terbutaline sulfate (TLS), guaifenesin (GFN) and ambroxol HCl (AML), for its potential impurities in drug substances and drug products. Efficient chromatographic separation was achieved on X-Terra RP-18 column with a simple mobile phase combination containing a gradient mixture of solvents A and B at a flow rate of 1.0 mL min⁻¹ and quantitation was carried out using ultraviolet detection at 222 nm with column temperature of 35 °C. The resolution between TLS, GFN and AML, its associated impurities was found to be greater than 1.5. Regression analysis shows an r value (correlation coefficient) greater than 0.998. This method was capable to detect all the process impurities of TLS, GFN and AML, at a level below 0.015% with respect to a test concentration of 0.125, 5.0 and 1.5 mg mL⁻¹, respectively. The % RSD for the inter-day and intra-day precisions for all the impurities of TLS, GFN and AML were found to be less than 3.0. The method has shown good, consistent recoveries. The drugs were subjected to stress conditions of acid, base, water hydrolysis, oxidation, photolysis and thermal degradation, as prescribed by international conference on harmonization (ICH).     

二(氢过碘酸)合银(III)配离子氧化愈创甘油醚的反应动力学及机理

在碱性介质中, 用传统的分光光度法研究了Ag(III)配离子, 即[Ag(HIO6)2]5-, 氧化药物分子愈创甘油醚的动力学及其机理. 用质谱鉴定了氧化产物；反应对Ag(III) 和愈创甘油醚均为一级；在温度25.0-40.0 ℃范围内, 通过分析[OH-]和[IO-4]tot对反应速率的影响, 二级速率常数有以下表达式：k′=(ka+kb[OH-])K1/{f([OH-])[IO-4]tot+K1}, 在25.0 ℃及离子强度0.30 mol·L-1时, 对此反应有ka=(2.6±1.2)×10-2 mol-1·L·s-1, kb=(2.8±0.1) mol-2·L2·s-1, 及K1=(4.1±0.4)×10-4 mol·L-1, 求出了涉及ka, kb的活化参数, 并据此推出反应机理为反应体系中的[Ag(HIO6)2]5-配离子在前期平衡后, 反应活性中心与药物分子形成Ag(III)-过碘酸-愈创甘油醚分子三元配合物, 配位甘油醚分子通过两个平行途径将两电子传递给中心原子Ag：一个途径无OH-离子参与, 另一途径有OH-参与完成.