Simultaneuus Spectrophotometric Deermination of Phenazo-Pyridine and Nitrofurantoin in Tablets

Abstract

Two spectrophotometric methods are proposed for the simultaneous spectrophotometric determination of phenaaopyridine and nitrofurantoin in tablets. No preliminary separation step is required. The first method involves the use of the modified Vierardt equation as developed by Glenn. The second method is based on the spectral changes induced bg reduction using Zn/HCl; the absorption spectrum of nitrofurantoin completely disappears, Phenazopyridine on the other hand develops a new absorption spectra at 320 nm, the absorbance ratio of the peak at 380 nm to that at 320 nm could be adopted to develop a spectrophotometric method for the determination of both compounds in admixture. The suggested methods were applied to the determination of the two compounds in tablets, and the results obtained were accurate and precise.     

Simultaneous Spectrophotometric Estimation of Rabeprazole Sodium and Itopride HCl

Abstract

Two simple, rapid, accurate, and economical analytical methods have been developed for the simultaneous estimation of Rabeprazole Sodium and Itopride Hydrochloride in combined capsule dosage form. First method is based on the determination of Q‐value and second method is based on simultaneous equation method. Rabeprazole Sodium has absorbance maxima at 284 nm and Itopride Hydrochloride has absorbance maxima at 258 nm in methanol AR. The absorption ratio (Q‐value) was determined at 266.6 nm (Iso‐bestic point) and 284 nm (λmax of Rabeprazole Sodium). Both the drugs obey Beer's law in the concentration ranges employed for these methods. Both the methods were found to be simple, rapid, accurate, and can be adopted in routine analysis of drugs in formulations. The accuracy and reproducibility of the proposed method was statistically validated by recovery studies     

Spectrophotometric Determination of Amoxycillin in Dosage Forms

Abstract

Two spectrophotometric methods are proposed for the determination of amorycillin and its doeage fonne. Both procedures depend on the phenolic nature of the compound. The first method is based on condeneation with 4-aminoautipyrine in the presence of an alkaline oxidising agent. A red coloured antipyrine dye peaking at 500 nm. is produced. The second method involves the use of folin's reagent, a blue colour with λ max at 670 nm is obtained. The proposed methods could be applied successfully for the determination of dosage forms containing amoxycillin, and the results obtained were compared favourably with those obtained with the official methods.     

Simple UV and visible spectrophotometric methods for the determination of doxycycline hyclate in pharmaceuticals

Doxycycline hyclate (DOX), a broad spectrum antibiotic with activity against a wide range of gram-positive and gram-negative bacteria, is widely used as a pharmacological agent and as an effector molecule in inducible gene expression system. Three simple, selective, rapid, accurate, precise and cost-effective spectrophotometric methods for the determination of DOX in bulk drug and in tablets have been developed and validated. First method (method A) is based on the measurement of absorbance of DOX in 0.1 M HCl at 240 nm. The second method (method B) is based on the measurement of yellow chromogen at 375 nm which is formed in 0.1 M NaOH. The third method is based on the measurement of 2: 1 complex formed between DOX and iron(III) in H₂SO₄ medium, the complex peaking at 420 nm (method C). The optimum conditions for all the three methods are optimized. Beer’s law was obeyed over the ranges 2.5–50.0, 1.50–30.0 and 10–100 g/mL for method A, method B and method C, respectively. The apparent molar absorptivity values are calculated to be 1.03 × 10⁴, 1.73 × 10⁴, and 5.21 × 10³ L mol⁻¹ cm⁻¹ for method A, method B, and method C, respectively. The Sandell sensitivity, limit of detection (LOD) and limit quantification (LOQ) values are also reported. All the methods were validated in accordance with current ICH guidelines. The developed methods were employed with high degree of precision and accuracy for the estimation of total drug content in commercial tablet formulations of DOX.     

Spectrophotometric Determination of Some Antibacterial Drugs Using p-Nitrophenol

Abstract

A simple, quick and sensitive spectrophotometric method for pipemidic acid, norfloxacin and ciprofloxacin lactate is described, based on a reaction with p-nitrophenol in water medium, apparently by a charge-transfer mechanism, to yield 1:1 complexes with analytically useful maximum absorption at 404 nm, 407nm and 403nm. Optimum conditions for determination, linear calibration range and apparent molar absorptivities have been reported. The methods are highly accurate and have been successfully applied to the determination of pipemidic acid, norfloxacin and ciprofloxacin lactate in tablets. The results are in good agreement with the official methods.     

Simultaneous Spectrophotometric Estimation and Validation of Three Component Tablet Formulation Containing Pioglitazone Hydrochloride,Metformin Hydrochloride and Glibenclamide

Abstract

Simultaneous estimation of active ingredients in multicomponent pharmaceutical products normally requires the use of separation techniques, such as HPLC, HPTLC, or GC, followed by their quantitation. Presented here are two spectrophotometric methods that do not require prior separation for simultaneous estimation of three drugs—pioglitazone HCl, metformin HCl, and glibenclamid—in a tablet formulation. Shimadzu UV 1700, capable of multicomponent analysis, was used for quantitation. In method I, absorbance of the sample solution was measured at 285 nm and 300 nm for the estimation of pioglitazone HCl and glibenclaimide, and at 237 nm for estimation of metformin hydrochloride, respectively. Method II is based on a multiwavelength spectroscopic method. Recording the absorbances of standard solutions at 237 nm, 268 nm, 280 nm, and 300 nm were processed by means of statistical calculations and results of the sample solution were obtained. All three drugs obey Beer's law in the concentration ranges used for the methods. The result of the analysis for both methods were tested and validated for various parameters according to ICH guidelines. The utility of the developed methods has been demonstrated by an analysis of commercial formulation containing all the three drugs.     

Flow Injection Analysis of Famotidine with Spectrophotometric Detection

Abstract

A flow injection determination of famotidine has been described. The method is based on the reaction of the drug with cupric acetate to form a blue coloured complex which shows absorption maxima at 314 nm and 630 nm. For an injection volume of 100 μl calibration graphs were rectilinear from 10- 50 μg. ml^?1 and 50–500 μg.ml^?1 of drug at the two wavelengths respectively. Samples could be analysed at rates upto 60 per hour with a relative standard deviation less than 1.4%. The method was evaluated by analysis of the pure drug and commercial formulations. The results compare well with those obtained by official methods.     

Spectrophotometric Determination of Aminoglutethimide by Diazotization and Subsequent Coupling

Abstract

Three simple and sensitive spectrophotometric methods for the determination of aminoglutethimide are described. The first method is based on the diazotization of the drug and the reaction product is quantified spectrophotometrically at 273 nm. The second and third methods involve coupling of the diazotized salt of the drug with either ethyl acetoacetate (EAA) in alkaline medium or N-(1-naphthyl)ethylenediamine hydrochloride (NED) in acid medium, to give colored reaction products measurable at 368 nm and 558 nm, respectively. The optimization of different experimental conditions is described. The proposed methods were applied successfully to the determination of amino-glutethimide in tablets with good accuracy and precision. The reliability of the developed methods were established by comparing the obtained results with those given by the official United States Pharmacopeial XXII methods.     

Real-Time Distinguishing of the Xylene Isomers Using Photoionization and Dissociation Mass Spectra Obtained by Femtosecond Laser Mass Spectrometry (FLMS)

Abstract

Distinguishing chemicals and improvement on analytical methods has a direct impact on modern chemical analysis. In this work, the dissociative ionization of xylene isomers was investigated using a femtosecond laser mass spectrometry (FLMS) method with a custom-built linear time-of-flight (TOF) instrument. Laser beams at 800?nm and 400?nm were used and intensity-dependent analysis of the obtained mass spectra was performed using principal component analysis (PCA) to distinguish the xylene isomers, which give identical mass spectra in appearance that cannot be distinguished using normal mass spectrometry methods. The results show that there is a statistically highly significant difference between the xylene isomers for two principal components (1 ? α?>?99.99%) and minimal information loss (<5%) took place during the PCA procedure. Also, the use of the k-medoid clustering method showed that the isomers may be distinguished in real-time for a wide range of ionization laser pulse powers with approximately 99% accuracy. The results suggest that real-time isomer analysis by the FLMS method is suitable for mass spectral identification applications. The FLMS method has been shown to be an important alternative to other mass spectrometric methods that use different ionization mechanisms.     

Spectrophotometric and Spectrofluorometric Determination of Heptaminol and mexiletine in Their Dosage Forms

Abstract

Two simple, rapid specific methods were developed for the determination of heptaminol and mexiletine and their dosage forms. The methods are based on the reaction of either heptaminol or mexiletine with acetylacetone-formaldehyde reagent to give a yellow chromophore measurable spectrophotometrically at 344 or 338 nm or flurometrically at 480 nm for heptaminol and mexiletine, respectively. The color was stable for at least 1/2 h. Beer's law was valid within a concentration range of 15–30 and 8–20 μg ml^?1 spectrophotometrically and 0.2–0.8 and 0.4–1.0 μg ml^?1 fluorometrically for heptaminol and mexiletine, respectively.     

Spectrophotometric Determination of Ipratropium Bromide in Liquid for Nebulization

ABSTRACT

Three simple and sensitive spectrophotometric methods for the determination of ipratropium bromide (IPB) in liquid for nebulization are described. Method A, is based on the formation of a charge transfer complex with iodine. The reaction product is measured spectrophotometrically at 278 nm. Method B, is based oh the formation of an ion – association complex between the drug and an acidic dye, Bromocresol green (BCG), which is extractable into chloroform and has an absorption maximum at 418 nm. Method C, uses derivative spectrophotometry for the determination of IPB by measuring the D₂-value at 232 nm. Beer's law is obeyed over the concentration range 1-10, 2-16 and 5-30 μg ml^? for method A, B and C, respectively. The optimum conditions for the formation of the charge transfer or ion-association complexes were optimized. The proposed methods were applied for the determination of IPB in liquid for nebulization. Evaporation to dryness and extraction of the residue with isopropanol, were performed before application of methods A & B. Mean percentage recoveries were found to be 99.67 ± 0.79, 99.26 ± 1.06 and 100.21 ± 0.85 for method A, B, and C, respectively.     

镉基杂化晶体的介电相变和蓝白光致发光双重特性

通过采用容易无序的胺,我们合成了2种有机无机杂化晶体,分别为基于bempy （bempy=1-甲基-1-溴乙基吡咯烷阳离子）的溴盐化合物（bempy） Br （1）和镉基溴化物（bempy）₂CdBr₄（2）,并对其结构相变、介电相变和蓝白荧光进行了详细的表征分析。化合物1在测试温度范围内未观察到可逆相变,化合物2为高温介电相变,介电和差示扫描量热法测试表征其相变温度为357 K。同时,化合物1和2均具备蓝白光致发光特性,荧光测试表明,化合物1和2分别在538 nm和547、750 nm处存在发射峰。化合物2具备介电相变和蓝白光致发光的双重特性。     

Application of Derivative and Ratio Spectra Derivative Spectrophotometry for the Determination of Pseudoephedrine Hydrochloride and Acrivastine in Capsules

Abstract

Two new spectrophotometric methods are used for the determination of acrivastine and pseudoephedrine hydochloride in their mixture without previous chemical separation. In the first, second derivative spectrophotometry, the measurements are made at 288.0 nm for acrivastine and at 270.2 nm for pseudoephedrine hydrochloride in the second derivative spectra of their solution in 0.1M NaOH. In the second, ratio spectra derivative spectrophotometry, the amplitudes are measured at 276.0 nm and 298.5 nm corresponding to two maximums for acrivastine, and at 252.6 nm and 268.3 nm corresponding to a maximum and a minumum, respectively, for pseudoephedrine hydrochloride in first derivative of their ratio spectra plotted by using of their solutions as divisor. The methods were successfully applied for the determination of these drugs in a commercial pharmaceutical formulation capsule.     

Simultaneous Determination of Cilazapril and Hydrochlorothiazide in Tablets by Spectrophotometric Methods

Abstract

In this study, two new spectrophotometric methods were used for the simultaneous determination of cilazapril and hydrochlorothiazide in their binary mixture. In the first method, derivative spectrophotometry, dA/dδ values were measured at 242.8 nm and 282.8 nm for cilazapril and hydrochlorothiazide, respectively, in the first derivative spectra of their combination. The relative standard deviation of the method was found to be 0.77% for cilazapril and 0.24% for hydrochlorothiazide. In the second, the absorbancy ratio method, the quantification of cilazapril and hydrochlorothiazide was performed by using the absorbances read at 210.4 nm. 250.2 nm and 270.6 nm in the zero-order spectra of their mixture; relative standard deviations of the method were found to be 1.26 % and 0.81 % for cilazapril and hydrochlorothiazide, respectively. These two methods have been successfully applied to a tablet containing these drugs.     

New extractive spectrophotometric methods for the determination of nortriptyline hydrochloride in pure form and pharmaceutical dosages

Two simple, rapid and sensitive extractive spectrophotometric methods have been developed for the assay of nortriptyline hydrochloride (NTPH) in pure and pharmaceutical formulations. These methods are based on the formation of chloroform soluble ion-association complexes of NTPH with bromocresol green (BCG) and with methyl orange (MO) in KCl-HCl buffer of pH 2. The colored species exhibited absorption maxima at 416 and 422 nm for BCG and MO with molar absorptivity values of 2.88 × 10⁴ and 2.29 × 10⁴ L/mol cm, respectively. Reaction conditions were optimized to obtain the maximum color intensity. Various analytical parameters have been evaluated and the results have been validated by statistical data. The methods were successfully applied to the analysis of NTPH in pharmaceutical formulations. The article is published in the original.     

Determination of Meloxicam in Tablet Formulations by Ultraviolet Spectrophotometry and High-Performance Liquid Chromatography

ABSTRACT

Assay procedures based on UV spectrophotometry and high-performance liquid chromatography (HPLC) have been developed for the determination of meloxicam in tablet formulations. The HPLC method used a reversed-phase C18 column with 0.05M Tris acetic acid buffer - tetrabutylammonium reagent–acetonitrile as eluent, and UV detection at 360nm with isoxicam as the internal standard. The UV method was based on measuring an acidic solution of the drug at 341nm. A comparison was established in terms of linearity, sensitivity, precision, and accuracy. Both methods were simple and rapid. HPLC was more precise and more accurate, the UV technique was slightly faster.     

Simultaneous Determination of Timolol Maleate and Pilocarpine Hydrochloride in Ophthalmic Solutions by First Derivative UV Spectrophotometry and PLS-1 Multivariate Calibration

ABSTRACT

The use of UV spectrophotometry (first-derivative/zero-crossing and zero-order spectra/multivariate calibration) is reported for the analysis of two miotic agents in ophthalmic solutions. The resolution of these mixtures has been accomplished without prior separation or derivatisation by using: 1) first-derivative measurements at two appropriate zero-crossing points: λ₁ = 222 nm, where the absorption corresponding to excipients is negligible, and λ₂ = 307 nm, where the contribution of pilocarpine and excipients to the overall absorption is negligible, and 2) partial least squares (PLS-1) regression analysis of zero-order spectral data. Although the components show an important degree of spectral overlap, they have been simultaneously determined with high accuracy, and with no interference from ophthalmic solution excipients.     

Spectrophotometric Determination of Cefadroxil and Metyrosine in Dosage Forms

Abstract

A simple and sensitive spectrophotometric method is described for the determination of cefadroxil and metyrosine in pure form and in pharmaceutical formulations. The method is based on reacting these drugs with 4-aminoantipyrine (AAP) in the presence of an alkaline oxidising agent. The coloured products were measured spectrophotometrically at 500 nm and 470 nm for cefadroxil and metyrosine, respectively. Beer's law was obeyed over the concentration range 1-28 and 2-44 μg ml^-1 for cefadroxil monohydrate and metyrosine, respectively. The molar ratio in both cases was established and a proposal for the reaction pathway was suggested. The percentage recoveries obtained were in accordance with those given by the reference methods.     

Utility of Derivative Spectrophotometry in the Determination of Carbochromen Hydrochloride and Dipyridamole in the Presence of Their Oxidative Degradation Products

Abstract

Direct spectrophotometric methods for the determination of carbochromen hydrochloride and dipyridamole, each in the presence of its oxidative degradation products, are presented. the methods are based on the first derivative (D₁) and second derivative (D₂) spectrophotometric measurement (absolute trough, U) at 336 nm and (Peak-trough, Y) at 309–342 nm for carbochromen hydrochloride and at 240–260 nm(U) and 246–268 nm(Y) for dipyridamole. Plots of D₁ or D₂ versus concentration were linear over the concentration range of 8.00–16.00 μg/ml for carbochromen hydrochloride and 4.00–12.00 μg/ml for dipyridamole. Oxidative degradation of these drugs has been optimized with respect to hydrogen peroxide concentration. Determining the intact in coexistence with its oxidative degradation product, the proposed derivative spectrophotometric methods proved to be of high potential in correcting the systematic error appearing in the results of the A_max method due to the latter. Assaying the commercial tablets, the proposed method gave results of high accuracy and reproducibility.     

Simultaneous Determination of Levomepromazine Hydrochloride and Its Sulfoxide by UV‐Derivative Spectrophotometry and Bivariate Calibration Method

Abstract

Two spectrophotometric methods are proposed for the simultaneous quantification of levomepromazine hydrochloride (LV) and its main degradation product levomepromazine sulfoxide (LV‐SO). One of them is based on the first order derivative spectra generated by the Savitzky‐Golay algorithm (third‐order polynomial degree, Δλ=10 nm). Determination of levomepromazine hydrochloride and its sulfoxide was realized by measurements of amplitudes of derivative spectra at 332 nm and 278 nm, respectively. The Beer law was obeyed in the concentration range 1.5–50 µg/mL for LV and 2.5–50 µg/mL for LV‐SO. The second of the proposed methods utilized the bivariate calibration algorithm. The determination was performed at 302 nm for levomepromazine and at 334 nm for sulfoxide. The elaborated methods allowed determination of LV in the concentration range 1.0–25 µg/mL while LV‐SO was determined in the concentration range 2.0–50 µg/mL.