Tunyaluk Limsuwan1
,
Prapaporn Boonme1,2,
Thanaporn Amnuaikit1
1Department of Pharmaceutical Technology, Faculty of Pharmaceutical Sciences, Prince of Songkla University;
2Nanotec-PSU Center of Excellence on Drug Delivery System, Songkhla 90112, Thailand.
For correspondence:- Thanaporn Amnuaikit
Email: chomchan.a@psu.ac.th Tel:+6674288849
Accepted: 19 September 2018
Published: 31 October 2018
Citation:
Limsuwan T, Boonme P, Amnuaikit T.
Enhanced stability of phenylethyl resorcinol in elastic vesicular formulations. Trop J Pharm Res 2018; 17(10):1895-1902
doi:
10.4314/tjpr.v17i10.1
© 2018 The authors.
This is an Open Access article that uses a funding model which does not charge readers or their institutions for access and distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0) and the Budapest Open Access Initiative (http://www.budapestopenaccessinitiative.org/read), which permit unrestricted use, distribution, and reproduction in any medium, provided the original work is properly credited..
Abstract
Purpose: To enhance the stability and reduce photo-degradation of phenylethyl resorcinol (PR) by elastic vesicle formation.
Methods: PR solution was stored at different temperatures, pH conditions, and under protected and unprotected natural light. The color of the solution and total active content were investigated. Three types of elastic vesicles, viz, ethosomes, transfersomes and invasomes, were prepared and their sedimentation in formulations and total active content were investigated before and after storage under various conditions for 4 months. The stability of the solutions and vesicular formulations were assessed.
Results: PR solution was unstable at pH 9, higher temperature (70 ± 1 oC) and under natural light. The color of PR solution changed from colorless to orange tone and the PR content decreased. On the other hand, PR entrapped within ethosome, tranfersome and invasome vesicles showed better stability, color change was not observed in the formulations, and PR content remained > 90 %.
Conclusion: All the vesicles display reduced degradation of PR under thermal and natural light. Thus, PR vesicular formulation enhances stability and improves the quality of the product for use in topical administration.
Keywords: Phenylethyl resorcinol, Degradation, Ethosomes, Transfersomes, Invasomes, Topical administration