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Current Drug Delivery

Editor-in-Chief

ISSN (Print): 1567-2018
ISSN (Online): 1875-5704

Quantitation of Serrapeptase in Formulations by UV Method in the Microplate Format

Author(s): K. V. Sandhya, S. Gayathri Devi and Sam. T. Mathew

Volume 5, Issue 4, 2008

Page: [303 - 305] Pages: 3

DOI: 10.2174/156720108785915023

Price: $65

Abstract

Serrapeptase is an anti-inflammatory, proteolytic enzyme isolated from the microorganism, Serratia sp. HY-6. Very few methods are available for the quantification of serrapeptase. The activity of the enzyme is determined by an ELISA assay, colorimetric method using casein as substrate or by HPLC method. These methods are lengthy, time consuming and require a number of reagents and solvents. Therefore an attempt was made to develop a simple alternative method for regular estimation of drug in formulations. Serrapeptase enzyme was estimated in formulations by using microplate readers which uses the principle of vertical photometry. Further this method was validated and the robustness of this method was checked by estimating the drug in various formulations including liposomes and marketed tablet formulations. A linear relationship between drug concentration and absorbance was observed between 1-4 μg/ml at 230 nm (R2=0.9911). The percentage recovery values of the drug in serrapeptase liposomes were found to lie within the standard limit (97- 98%) which confirms the method is accurate and free from any positive or negative interference of the excipient. The low value of standard deviation obtained confirms the precision of the method. (±0.020 - ±0.044). The drug content values in marketed tablets values obtained matched the label claim. The proposed microplate UV-method for determination of serrapeptase in formulations is novel, simple, inexpensive, fast, specific and robust. Thus this method could be a better alternative for regular estimation of drug in the various marketed formulations of serrapeptase.

Keywords: Serrapeptase, Microplate reader, UV-method, liposomes, vertical photometry


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