|Year : 2010 | Volume
| Issue : 1 | Page : 78-82
A novel method for quantitative determination of aceclofenac in bulk drug and tablets using sodium salicylate as a hydrotropic solubilizing agent
RK Maheshwari, Shruti Moondra
Department of Pharmacy, Shri G.S. Institute of Technology and Science, Indore, India
|Date of Submission||20-Jan-2010|
|Date of Decision||21-Feb-2010|
|Date of Acceptance||19-Mar-2010|
|Date of Web Publication||2-Nov-2010|
R K Maheshwari
Department of Pharmacy, Shri G.S. Institute of Technology and Science, Indore
Source of Support: None, Conflict of Interest: None
| Abstract|| |
In titrimetric analysis costlier organic solvents are more often employed to solubilize the poorly water-soluble drugs. Volatility and pollution are drawbacks of such solvents. Various techniques are employed to enhance the aqueous solubility of poorly water-soluble drugs. Hydrotropic solubilization phenomenon has been widely used to enhance the aqueous solubility of large number of poorly water-soluble drugs. Aqueous solubility of aceclofenac bulk drug [a poorly water-soluble NSAID] was enhanced to a great extent i.e., 400 folds with 2.5 M sodium salicylate. The primary objective of the present investigation was to employ this hydrotropic solution to extract the drug from its dosage forms, precluding the use of costlier organic solvents. The proposed method of analysis is new, simple, accurate, environmentally friendly and reproducible. Statistical data proved the accuracy, reproducibility and the precision of the proposed method. The results of titrimetric analysis by use of hydrotropy compared very well with the results of Pharmacopoeial method.
Keywords: Hydrotropy, Solubilization, Aceclofenac, Sodium salicylate, Titrimetry
|How to cite this article:|
Maheshwari R K, Moondra S. A novel method for quantitative determination of aceclofenac in bulk drug and tablets using sodium salicylate as a hydrotropic solubilizing agent. J Adv Pharm Technol Res 2010;1:78-82
|How to cite this URL:|
Maheshwari R K, Moondra S. A novel method for quantitative determination of aceclofenac in bulk drug and tablets using sodium salicylate as a hydrotropic solubilizing agent. J Adv Pharm Technol Res [serial online] 2010 [cited 2021 Jul 30];1:78-82. Available from: https://www.japtr.org/text.asp?2010/1/1/78/70527
| Introduction|| |
Hydrotropy refers to the ability of a concentrated solution of a chemical compound to increase the aqueous solubility of another compound [usually a sparingly soluble organic compound]. Compounds that have this property are called 'hydrotopes'. Sodium benzoate, sodium salicylate, sodium acetate, sodium ascorbate, niacinamide and sodium citrate are the most popular examples of hydrotropic agents which have been used to solubilize a large number of poorly water-soluble compounds ,,,,,,,,,,,,, . Hydrotropic solution, sodium salicylate was employed as solubilizing agent to carryout the analysis of aceclofenac [a poorly water-soluble NSAID] by titrimetric estimation. Chemically, aceclofenac is 2 - [ [2, 6- dichlorophenyl] amino] benzeneacetic acid carboxymethyl ester. There was tremendous increase in solubility of aceclofenac in 2.5 M sodium salicylate solution. Therefore, it was thought worthwhile to solubilize this drug in hydrotropic solution to carry out the titrations precluding the use of an organic solvent.
| Experimental|| |
Materials and Reagents
The bulk drug sample of aceclofenac was generously supplied by Aristo Pharmaceuticals Limited, Mandideep, (M.P.) Commercial tablets of aceclofenac were procured from local market. Other chemicals used were of analytical grade.
| Methods|| |
Preliminary solubility studies of aceclofenac
Solubility of aceclofenac was determined in distilled water and 2.5 M sodium salicylate solution at 27+1ºC. Enhancement in solubility in hydrotropic solution was more than 400 fold [as compared to solubility in distilled water].
Analysis of aceclofenac bulk drug sample by British Pharmacopoeial method
Accurately weighed [0.3 g] aceclofenac bulk drug sample was solubilized in 40 ml alcohol in a conical flask by shaking and titrated with 0.1 M sodium hydroxide solution determining the end point potentiometrically and the amount of aceclofenac was computed [Table 1].
Analysis of aceclofenac bulk drug sample by the proposed analytical method
Accurately weighed [0.3 g] aceclofenac bulk drug sample was solubilized in 40 ml of 2.5 M sodium salicylate solution in a conical flask by shaking for about 5 minutes and titrated with 0.1 M sodium hydroxide solution using phenolphthalein solution as indicator. Blank determination was conducted to make the required corrections and the amount of aceclofenac was computed [Table 1].
Analysis of aceclofenac tablets by the proposed method
Twenty tablets of aceclofenac were weighed and powdered finely. The powder, equivalent to 300 mg aceclofenac was accurately weighed and transferred to a conical flask. After adding, 40 ml of 2.5 M sodium salicylate solution, the flask was shaken for 10 minutes for solubilization of drug from the fine powder of tablets. The drug was titrated with 0.1 M sodium hydroxide solution using phenolphthalein solution as indicator. Blank determination was conducted to make the required corrections and the amount of aceclofenac was computed [Table 2].
|Table 2 :Analysis data of tablet formulations with statistical evaluation|
Click here to view
For recovery studies, pre analyzed tablet powder was spiked with aceclofenac bulk drug sample at two levels. For this, 200 and 300 mg of aceclofenac bulk drug was added to tablet powder equivalent to 500 mg aceclofenac and analyzed by same proposed method. Percentage recoveries were calculated and reported in [Table 3].
| Results and Discussion|| |
Solubility studies at preliminary stage showed that the enhancement in solubility of aceclofenac in 2.5 M sodium salicylate solution was more than 400 fold as compared to aqueous solubility. As evident from [Table 1] the amount of aceclofenac estimated in bulk drug sample by B.P. method and the proposed method are 101.77±1.832 and 100.54±0.822, respectively. Both values are very close to each other and close to 100 and hence confirm the accuracy of the proposed method. Validation of the proposed method is further confirmed statistically by low values of standard deviation, % coefficient of variation and standard error [Table 1]
[Table 2] indicates that the percent label claims of aceclofenac estimated in the tablets using the proposed method of analysis [99.03±1.277 and 100.75±0.933] are very close to 100 indicating the accuracy of proposed method. Validation of the proposed method is further confirmed by satisfactory low values of standard deviation, % coefficient of variation and standard error [Table 2].
Accuracy, reproducibility and precision of the proposed method were further confirmed by % recovery values which were close to 100 [ranged from 99.33±0.543 to 100.94±1.135] with satisfactory low values of statistical parameters viz standard deviation, % coefficient of variation and standard error [Table 3].
|Table 3 :Results of recovery studies of tablet formulations with statistical evaluation|
Click here to view
| Conclusion|| |
It is, thus, concluded that the proposed method is simple, cost-effective, accurate, safe, precise, and can be successfully employed in routine analysis of aceclofenac bulk drug as well as aceclofenac tablets. There is good scope for other poorly water-soluble drugs which may be solubilized by hydrotropic agents to carry out titrimetric analysis, precluding the use of costlier and unsafe organic solvents.
| References|| |
|1.||Jain N.K., Singhai A.K., Jain S. Hydrotropic solubilization of ketoprofen. Pharmazie. 1996; 51: 236-239. |
|2.||Maheshwari R.K. Novel application of hydrotropic solubilization in the spectrophotometric analysis of tinidazole in dosage form. Asian J. Chem. 2006; 18: 640-644. |
|3.||Shukla Ravi S., Patel A., Soni M.L., Modi Vishesh, Jaliwala Y.A. Quantitative spectrophotometric estimation of cefadroxil using hydrotropic solubilization technique. Asian Journal of Pharmaceutics. 2008; 2: 146-47. |
|4.||Pareek V., Tambe S., Bhalerao S., Shinde R., Gupta L. Spectrophotometric estimation of cefprozil using different hydrotropic agents, International Journal of Pharmacy and Pharmaceutical Sciences. 2010; 2: 82-87. |
|5.||Sable P.N., Chaulang G.M., Bhosale A.V., Novel pharmaceutical estimation of izetemib, losartan and simvastatin using hydrotropic solubilizing agents. International Journal of Chem. Tech. Research. 2009; 01: 1393-97. |
|6.||Sable P.N., Chaulang G.M., Bhosale A.V., ChaudharyP.D.. Novel spectrophotometric estimation of olanzepine using hydrotropic solubilizing agents. Research Journal of Pharmacy and Technology. 2009; 2:297-300. |
|7.||Maheshwari R.K., Chaturvedi S.C., Jain N.K. Application of hydrotropy in the spectrophotometric determination of pharmaceutical dosage forms. Indian Drugs. 2005; 42: 760-763. |
|8.||Maheshwari R.K., Chaturvedi S.C, Jain N.K. Novel spectrophotometric estimation of some poorly water-soluble drugs using hydrotropic solubilizing agents. Indian J. Pharm. Sci. 2006; 68:195-198. |
|9.||Maheshwari R.K., Chaturvedi S.C., Jain N.K. Application of hydrotropic solubilization phenomenon in spectrophotometric analysis of hydrochlorothiazide tablets. Indian Drugs. 2005; 42:541-544. |
|10.||Maheshwari R.K. Solid dispersion and syrup formulation of poorly water-soluble drug by hydrotropy. The Indian Pharmacist. 2006; V: 87. |
|11.||Jain N.K., Patel, V.V. Hydrotropic solubilization. Eastern Pharmacist. 1986; 29:5. |
|12.||Saleh A.M., El- Khordagui L.K. Hydrotropic agents: a new definition. Int. J. Pharm.1985; 24: 231. |
|13.||Varma M.M., Pandit J.K. Influence of urea and xylitol on the dissolution rate of flurbiprofen. Indian Pharmacist. 2005; IV: 97. |
|14.||Maheshwari R.K. Analysis of frusemide by application of hydrotropic solubilization phenomenon. The Indian Pharmacist. 2005; IV: 55-58. |
|15.||Maheshwari R.K. Spectrophotometric determination of cefixime in tablets by hydrotropic solubilization phenomenon. The Indian Pharmacist. 2005; IV: 63-68. |
[Table 1], [Table 2], [Table 3]