alexa A Novel Simple Method for Resolving Overlapped Spectral Data with A Wide Range of Applicability, and Its Application as a Stability Indicating Method for Determination of Tazarotene
ISSN : 2153-2435
Pharmaceutica Analytica Acta

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A Novel Simple Method for Resolving Overlapped Spectral Data with A Wide Range of Applicability, and Its Application as a Stability Indicating Method for Determination of Tazarotene

Eman S Elzanfaly, Ahmed S Saad* and Abd-Elaziz B Abd-Elaleem

Analytical Chemistry Department, Faculty of Pharmacy, Cairo University, Kasr-El Aini street, 11562 Cairo, Egypt

*Corresponding Author:
Dr. Ahmed S Saad
Analytical Chemistry Department
Faculty of Pharmacy, Cairo University
Kasr-El Aini street, 11562 Cairo, Egypt
E-mail: [email protected]

Received date: January 20, 2012; Accepted date: April 21, 2012; Published date: April 23, 2012

Citation: Elzanfaly ES, Saad AS, Abd-Elaleem AEB (2012) A Novel Simple Method for Resolving Overlapped Spectral Data with A Wide Range of Applicability, and Its Application as a Stability Indicating Method for Determination of Tazarotene. Pharmaceut Anal Acta 3:153. doi: 10.4172/2153-2435.1000153

Copyright: © 2012 Elzanfaly ES, et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

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Keywords

Spectrophotometry; Binary mixtures; Tazarotene; Stability indicating method; Alkaline degradation product and Ratio Difference method; ΔP method

Introduction

Many methods have been proposed for the analysis of binary mixtures among which the spectrophotometric based methods were the most simple, fast and applicable in almost all laboratories. Several manipulations were performed on the raw overlapping spectral data to enable mixture resolution for example, using different order derivatives [1-6], derivatives of the ratio spectrum [7-9] and ratio subtraction technique [10].

The aim of the present work was to develop a new simple, rapid, selective method for the simultaneous determination of components having overlapping spectra in binary mixtures, having the advantages of minimal data processing and wider range of application over the previously mentioned methods.

To prove the ability of the newly described method in resolving the overlapping spectral data and simultaneous determination of each component, it was applied for the analysis of a mixture of tazarotene (Tz) and its alkaline degradation product (Deg).

Tazarotene gel is used as monotherapy or in combination with other medications, such as topical corticosteroids, for the treatment of localized plaque psoriasis [11].

Theory

The method is based on the fact that upon dividing the absorption spectrum of a compound by another spectrum of the same compound, a straight line of constant amplitude (parallel to the baseline) will result. While upon dividing the absorption spectrum of a compound by the absorption spectrum of another compound, a new spectrum (ratio spectrum) will result, (Figures 1 and 2). This represents the same basis of derivative ratio and ratio subtraction methods. The difference will be in the manipulation of the resulting data.

pharmaceutica-analytica-acta-raio-spectra-divisor

Figure 1: The raio spectra of 5 μg/ml Tz (---), 5 μg/ml Deg (…) and a mixture containing 5 μg/ml Tz and 5 μg/ml Deg (__), using a divisor of 10 μg/ml Deg as a divisor.

pharmaceutica-analytica-acta-raio-spectra-mixture

Figure 2: The raio spectra of 5 μg/ml TZ (---), 5 μg/ml Deg (…) and a mixture containing 5 μg/ml TZ and 5 μg/ml Deg (__), using a divisor of 5 μg/ml Tz as a divisor.

In derivative ratio technique the following step would be applying a certain order derivative, while in ratio subtraction technique it will be followed by subtraction of a constant at a certain wavelength then multiplication with the same divisor. The developed method has the advantage of being simpler, as the following step will simply be calculating the difference between any two points in the ratio spectrum.

Mathematically it can be explained as follows:

In the ratio spectrum of a lab mixture of X and Y divided by a divisor Y’

P1 = P1X + K                           (1)

P2 = P2X + K                           (2)

Where, P1 and P2 are the amplitudes of the mixture spectrum at λ1 and λ2, respectively.

P1X and P2X are the amplitudes of X at λ1 and λ2, respectively.

K is the constant resulting from Y/Y’

ΔPλ1-λ2 =P1 – P2 = (P1X + K) – (P2X + K) = P1X - P2X                           (3)

So the component Y will be completely cancelled and the difference will represent the X component only.

A calibration curve constructed relating the difference in amplitudes in the ratio spectrum at λ1 and λ2 (ΔPλ1-λ2) using a certain concentration of Y as a divisor to the corresponding concentration of X, regression equation is computed for the determination of X in the unknown samples of the binary mixture.

Similarly component Y can be obtained by using certain concentration of X as a divisor.

Experimental

Apparatus

SHIMADZU UV- 1601 PC, dual beam UV-visible spectrophotometer with two matched 1 cm quartz cells, connected to an IBM compatible personal computer (PC) and a HP-600 inkjet printer. Bundled UV-PC personal spectroscopy software version (3.7) was used to process the absorption and the derivative spectra. The spectral band width was 0.2 nm with wavelength scanning speed of 2800 nm.min-1.

Reference samples

Tazarotene was kindly supplied by Marcyrl Pharmaceuticals and Chemical Industries Company (Cairo, Egypt).

Pharmaceutical formulation

Acnitaz® gel, labeled to contain 0.1 g% Tazarotene, batch number 85332, manufactured by Marcyrl Pharmaceuticals and Chemical Industries Company, Cairo, Egypt.

Materials and reagents

1. All chemicals used were of analytical grade and solvent are of spectroscopic gradMethanol (Adwic).

2. Potassium hydroxide (1 M methanolic solution) (Adwic).

Preparation of the degradation product of tazarotene

50 mg of pure TZ was accurately weighed and dissolved in 25 ml methanol and 25 ml 1 M KOH, then reflux the solution at 100°C for 30 minutes. The time required for complete degradation was followed by spotting on TLC plates at 5 minutes intervals for 30 minutes. The plates was developed using benzene: chloroform: ammonia (5: 5: 0.01 by volume) till complete degradation [10,12].

The degraded solution was applied as a band onto several preparative TLC plates. The plates were developed using the aforementioned solvent system in chromatographic tank previously saturated for 30 minutes with the developing solvents and then dried in air.

The bands were visualized under UV light at 254 nm, then the bands were scraped and the silica was suspended in the least amount of methanol. Filtered and filtrate was left to dry at room temperature (25°C) to obtain the degradation product. The purity of the degradation product obtained was tested by dissolving a small portion in methanol, applying onto TLC plates and developing using the previously mentioned solvent system. The structure of the isolated degradation product was elucidated using IR and mass spectrometry.

Standard solutions

1. Tz standard stock solution; 20.0 μg/ml in methanol

2. Deg standard stock solution; 20.0 μg/ml in methanol

Procedures

Construction of calibration curves

Calibration curve of Tz: Aliquots (0.5-5.0 ml) of Tz stock solution (20 μg/ml) were transferred into a series of 10 ml volumetric flasks, and the volume was completed with distilled water. The zero order spectra of the prepared solutions were divided by the spectrum of 10 μg/ml Deg. The peak amplitudes of the ratio spectra were measured at 268 and 308 nm.

Calibration graphs relating the ΔP268-308nm to the corresponding concentrations of Tz were constructed, and the corresponding regression equation was computed.

Calibration curve of Deg: Aliquots (0.5-5.0 ml) of Deg stock solution (20 μg/ml) were transferred into a series of 10 ml volumetric flasks, and the volume was completed with distilled water. The zero order spectra of the prepared solutions were divided by the spectrum of 5 μg/ml Tz. The peak amplitudes of the ratio spectra were measured at 306 and 265 nm.

Calibration graphs relating ΔP306-265nm to the corresponding concentrations of Deg were constructed, and the corresponding regression equation was computed.

Analysis of laboratory prepared mixtures

Laboratory prepared mixtures containing different ratios of Tz and Deg were prepared, the zero order spectrum of each laboratory prepared mixture was first divided by the spectrum of 10 μg/ml Deg and ΔP268-308nm was calculated to determine tazarotene, after substitution in the corresponding regression equation.

The zero order spectra were then divided by the spectrum of 30 μg/ ml Tz and ΔP306-265nm was calculated to determine alkaline degradation product, after substitution in the corresponding regression equation.

Application of the proposed method as a stability indicating method for Tz in acnitaz gel

0.5 gm gel was accurately weighed into a 100 ml beaker and sonicated in 15 ml methanol for 10 minutes, filtered into 50 ml volumetric flask. The residue was washed three times each using 10 ml methanol and completed to the mark with the same solvent. Transfer accurately 4 ml of the extracted solution into a 10 ml measuring flask. The procedure was completed as described under calibration curve.

The validity of the method was assessed by applying the standard addition technique.

Results and Discussion

A simple spectrophotometric method was developed for the simultaneous determination of the components in binary mixtures with overlapping spectra without previous separation. The binary mixture of Tz and Deg was chosen as an example for the application of the new method.

The absorption spectra of Tz and Deg show high degree of interference as shown in Figure 3, that the application of the direct spectrophotometry failed to determine either of them in their mixture.

pharmaceutica-analytica-acta-absorption-spectra-methanol

Figure 3: The absorption spectra of 5 μg/ml Tz (---)and 5 μg/ml Deg (…) in methanol.

The suggested method starts by scanning zero order spectra of the prepared standard solutions of Tz and Deg in distilled water. Different divisor concentrations of Deg and Tz were tried, for the determination of Tz and Deg, respectively, followed by the careful choice of the wavelength couple to correlate their differences in amplitudes ΔP to their corresponding concentrations.

Careful choice of the divisor is mandatory; the selected divisors should compromise between minimal noise and maximum sensitivity. The divisor concentrations 10 μg/ml Deg and 5 μg/ml Tz gave the best results regarding average recovery percent when used for the prediction of Tz and Deg concentrations, respectively.

Different wavelengths were chosen on the ratio spectra of the two drugs and the linearity at those wavelengths singly was assessed. A good linearity at 268 and 308 nm for Tz, and at 306 and 265 nm for Deg was obtained, (Table 1).

Wavelength (nm) 268 308 306 265
r Tz 0.9997 0.9995    
Deg     0.9996 0.9993

Table 1: Correlation coefficients (r) at different wavelengths on the ratio spectrum of Tz and Deg.;

A linear correlation was obtained between ΔP268-308nm and ΔP268-308nm, against the corresponding concentration of Tz and Deg, respectively (Table 2).

Parameter Tz Deg
Accuracy (mean ± SD) 100.16 ± 1.17 99.77 ± 1.52
Specificity 99.68 ± 1.36 100.86 ± 1.09
Precision    
Repeatability * 99.59 ± 0.46 100.62 ± 0.55
Intermediate precision** 99.84 ± 0.55 100.78 ± 0.95
Linearity    
Wavelengths 268 and 308 nm 306 and 265 nm
Slope 0.0833 0.1186
Intercept -0.0089 0.0094
Correlation coefficient (r) 0.9998 0.9998
Range 1 – 10 μg/ml 1 – 10 μg/ml

Table 2: Assay validation sheet of the proposed methods for the determination of Tz and Deg.

The proposed method was successfully applied for the simultaneous determination of Tz and Deg in laboratory prepared mixtures containing different ratios of Tz and Deg. The mean percentage recoveries and standard deviations were shown in Table 3.

Concentration
μg/ml
Recovery %
of Tz
Recovery %
of Deg
Tz Deg 268 - 308 nm 306-265 nm
9.00 1.00 99.92 102.21
8.00 2.00 101.78 101.87
7.00 3.00 98.96 100.56
6.00 4.00 101.35 101.22
5.00 5.00 100.31 102.28
4.00 6.00 99.89 99.50
3.00 7.00 98.70 100.58
2.00 8.00 98.58 100.05
1.00 9.00 97.59 99.52
Mean 99.68 100.86
Std 1.36 1.09
RSD% 1.36 1.08

Table 3: Determination of Tz and Deg in laboratory prepared mixtures by the proposed method.

The suggested method was found to be applicable and valid for the analysis of Acnitaz® gel with no interference of the excipients. The validity of the proposed procedure was assessed by applying the standard addition technique (Table 4).

Product Proposed Method Standard addition
Taken  μg/ml Added μg/ml Found  μg/ml Recovery   %
Tz in
Acnitaz® gel 0.1g% Tz
101.74 ± 1.22 4.00 2.00 2.04 102.00
4.00 3.90 97.50
6.00 6.08 101.33
Mean 100.28
SD 2.43
RSD% 2.42

Table 4: Determination of Tz and Deg in Acnitaz® gel by the proposed method and application of standard addition technique.

The validation parameters according to USP guidelines [13] of accuracy, repeatability and intermediate precision are presented in Table 2. The data showed that the results obtained by the new method are accurate, precise, robust and specific over the specified range.

* The intraday (n = 3), average of three concentrations (4, 5, 6 μg/ ml) for Tz and (4, 5, 6 μg/ml) for Deg repeated three times within the day.

** The interday (n = 3), average of three concentrations (4, 5, 6 μg/ ml) for Tz and (4, 5, 6 μg/ml) for Deg repeated three times in three successive days.

The suggested method was able to determine either component in the binary mixture without limitations, whereas the ratio subtraction method [10] can only determine the component with the less extended spectrum, therefore enabling a wider range of application.

Conclusion

The present work described a simple method for manipulating overlapped spectral data for simultaneous determination of compounds in binary mixtures. The method was successfully applied for simultaneous determination of Tz and Deg in pure powder form and in pharmaceutical formulation. The method was validated and showed that it can be used for the regular quality control testing due to its simplicity and wide range of applicability.

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