SBMU, Pharmaceutical Research Sciences
  • Register
  • Login
International Pharmacy Acta
  • Home
  • Journal Info
    • About
    • Aim and Scope
    • Ownership & Management
    • Indexing
    • Editorial Team
  • New Submission
  • Author Guidelines
    • Guideline
    • Types of articles
    • Templates
    • Publication Fees
  • Policies and Process
    • Publication Policy
    • Peer Review Process
    • Open Access Policy
    • plagiarism
    • Archiving
    • Privacy Statement
    • Copyright Notice
    • Waiver policy
    • Complaints Policy
    • Post- Publication Discussions and Corrections Policy
    • Advertisement and Marketing
  • Issues
    • Current
    • Archives
  • Contact us
Advanced Search
  1. Home
  2. Archives
  3. Vol. 1 No. 1 (2018): Pharmacy Updates 2018 (Congress Proceeding)
  4. Supplementary Issues: Reviews of books, journal, congress, other media Special issues, and Scientific news

Vol. 1 No. 1 (2018)

Esfand 2018

Development of Controlled-Release microspher Systems containing gentamycin for ophthalmic drug delivery: Preparation and Release Characteristics

  • Donya Barfar
  • Shahla Mirzaeei

International Pharmacy Acta, Vol. 1 No. 1 (2018), 4 Esfand 2018 , Page 87-87
https://doi.org/10.22037/ipa.v1i1.20005 Published: 2018-03-04

  • View Article
  • Download
  • Cite
  • Statastics
  • Share

Abstract

Introduction: Targeting the therapeutic agents to the anterior and posterior segments of the eye has attracted extensive attention from the scientific community. Significant key factor in the success of ocular therapy is the development of safe, effective, economic and non-invasive novel drug delivery systems.  Microspheres of poly carbolactone(PCL) and poly ethylene glycol containing gentamycine were prepared by a solvent diffusion-evaporation method as non-invasive ocular drug delivery systems.
Methods: The oil-in-water emulsion prepared in an aqueous solution of 0.05% poly(vinyl alcohol) medium with PCL and PEG , a water-soluble and less toxic solvent, was used as the dispersing solvent. The yield of the microspheres was up to 80%.
Result: Scanning electron microscopy (SEM) confirmed the microspheres had smooth surfaces, with sizes in the range of 489–550 μm. The drug loaded in microspheres was in an amorphous state, as confirmed by differential scanning microscopy (DSC). The release of the drugs was controlled for 2-7 days. The release kinetics followed different transport mechanisms depending on the drug to polymer ratio. Based on microbial assay of antibiotic test the microspheres showed excellent antibacterial activity against Staphylococcus aureus.

Conclusion: Therefore, a floating dosage form that is able to sustain release hydrophilic drugs within its extended retention time has been developed. We will be able to manufacture biodegradable biomimetic microsphere for long-term drug delivery of gentamycine  in ocular.

Keywords:
  • Microspheres, Release characteristics, release kinetics, PCL
  • PDF

How to Cite

Barfar, D., & Mirzaeei, S. (2018). Development of Controlled-Release microspher Systems containing gentamycin for ophthalmic drug delivery: Preparation and Release Characteristics. International Pharmacy Acta, 1(1), 87–87. https://doi.org/10.22037/ipa.v1i1.20005
  • ACM
  • ACS
  • APA
  • ABNT
  • Chicago
  • Harvard
  • IEEE
  • MLA
  • Turabian
  • Vancouver
  • Endnote/Zotero/Mendeley (RIS)
  • BibTeX
  • Abstract Viewed: 231 times
  • PDF Downloaded: 143 times

Download Statastics

  • Linkedin
  • Twitter
  • Facebook
  • Google Plus
  • Telegram

Information

  • For Readers
  • For Authors
  • For Librarians

Make a Submission

Make a Submission
  • Home
  • Archives
  • Submissions
  • About the Journal
  • Editorial Team
  • Contact

Creative Commons License
This journal (and its contents) is licensed under a  Creative Commons Attribution-NonCommercial 4.0 International License.

 

                                                  Online ISSN: 2645-3266

                                                  Print ISSN: 2645-3258                                                 

Powered by OJSPlus