Diclofenac sodium ion exchange resin complex loaded melt cast films for sustained release ocular delivery

Goutham R Adelli; Sai Prachetan Balguri; Prakash Bhagav; Vijayasankar Raman; Soumyajit Majumdar

doi:10.1080/10717544.2016.1256000

Diclofenac sodium ion exchange resin complex loaded melt cast films for sustained release ocular delivery

Drug Deliv. 2017 Nov;24(1):370-379. doi: 10.1080/10717544.2016.1256000.

Authors

Goutham R Adelli¹, Sai Prachetan Balguri¹, Prakash Bhagav¹, Vijayasankar Raman², Soumyajit Majumdar^{1

3}

Affiliations

¹ a Department of Pharmaceutics and Drug Delivery, School of Pharmacy, The University of Mississippi, University , MS , USA.
² b National Center for Natural Products Research, School of Pharmacy, The University of Mississippi, University , MS , USA , and.
³ c Research Institute of Pharmaceutical Sciences, The University of Mississippi, University , MS , USA.

Abstract

Purpose: The goal of the present study is to develop polymeric matrix films loaded with a combination of free diclofenac sodium (DFS_free) and DFS:Ion exchange resin complexes (DFS:IR) for immediate and sustained release profiles, respectively.

Methods: Effect of ratio of DFS and IR on the DFS:IR complexation efficiency was studied using batch processing. DFS:IR complex, DFS_free, or a combination of DFS_free+DFS:IR loaded matrix films were prepared by melt-cast technology. DFS content was 20% w/w in these matrix films. In vitro transcorneal permeability from the film formulations were compared against DFS solution, using a side-by-side diffusion apparatus, over a 6 h period. Ocular disposition of DFS from the solution, films and corresponding suspensions were evaluated in conscious New Zealand albino rabbits, 4 h and 8 h post-topical administration. All in vivo studies were carried out as per the University of Mississippi IACUC approved protocol.

Results: Complexation efficiency of DFS:IR was found to be 99% with a 1:1 ratio of DFS:IR. DFS release from DFS:IR suspension and the film were best-fit to a Higuchi model. In vitro transcorneal flux with the DFS_free+DFS:IR_(1:1)(1 + 1) was twice that of only DFS:IR_(1:1) film. In vivo, DFS solution and DFS:IR_(1:1) suspension formulations were not able to maintain therapeutic DFS levels in the aqueous humor (AH). Both DFS_free and DFS_free+DFS:IR_(1:1)(3 + 1) loaded matrix films were able to achieve and maintain high DFS concentrations in the AH, but elimination of DFS from the ocular tissues was much faster with the DFS_free formulation.

Conclusion: DFS_free+DFS:IR combination loaded matrix films were able to deliver and maintain therapeutic DFS concentrations in the anterior ocular chamber for up to 8 h. Thus, free drug/IR complex loaded matrix films could be a potential topical ocular delivery platform for achieving immediate and sustained release characteristics.

Keywords: Ion exchange resins; diclofenac sodium and polymeric matrix films; immediate release formulations; ocular drug delivery.

MeSH terms

Administration, Ophthalmic
Administration, Topical
Animals
Chemistry, Pharmaceutical
Delayed-Action Preparations / administration & dosage
Delayed-Action Preparations / chemistry
Delayed-Action Preparations / metabolism*
Diclofenac / administration & dosage
Diclofenac / chemistry
Diclofenac / metabolism*
Drug Delivery Systems / methods*
Eye / drug effects
Eye / metabolism*
Ion Exchange Resins / administration & dosage
Ion Exchange Resins / chemistry
Ion Exchange Resins / metabolism*
Male
Ophthalmic Solutions / administration & dosage
Ophthalmic Solutions / chemistry
Ophthalmic Solutions / metabolism*
Organ Culture Techniques
Rabbits

Substances

Delayed-Action Preparations
Ion Exchange Resins
Ophthalmic Solutions
Diclofenac