Affiliations 

  • 1 The University of Queensland, Pharmacy Australia Centre of Excellence, Woolloongabba, Brisbane, Queensland, Australia
  • 2 The University of Queensland, School of Agriculture and Food Sciences, St. Lucia, Queensland, Australia
  • 3 Princess Alexandra Hospital, Dept. of Sexual health, Queensland, Australia
  • 4 The University of Queensland, Pharmacy Australia Centre of Excellence, Woolloongabba, Brisbane, Queensland, Australia The International Medical University, School of Pharmacy, Bukit Jalil, Kuala Lumpur, Malaysia AllanCoombes@imu.edu.my
J Biomater Appl, 2014 Sep;29(3):354-63.
PMID: 24682036 DOI: 10.1177/0885328214528256

Abstract

Microporous, poly (ɛ-caprolactone) (PCL) matrices loaded with the antibacterial, metronidazole were produced by rapidly cooling suspensions of drug powder in PCL solutions in acetone. Drug incorporation in the matrices increased from 2.0% to 10.6% w/w on raising the drug loading of the PCL solution from 5% to 20% w/w measured with respect to the PCL content. Drug loading efficiencies of 40-53% were obtained. Rapid 'burst release' of 35-55% of the metronidazole content was recorded over 24 h when matrices were immersed in simulated vaginal fluid (SVF), due to the presence of large amounts of drug on matrix surface as revealed by Raman microscopy. Gradual release of around 80% of the drug content occurred over the following 12 days. Metronidazole released from PCL matrices in SVF retained antimicrobial activity against Gardnerella vaginalis in vitro at levels up to 97% compared to the free drug. Basic modelling predicted that the concentrations of metronidazole released into vaginal fluid in vivo from a PCL matrix in the form of an intravaginal ring would exceed the minimum inhibitory concentration of metronidazole against G. vaginalis. These findings recommend further investigation of PCL matrices as intravaginal devices for controlled delivery of metronidazole in the treatment and prevention of bacterial vaginosis.

* Title and MeSH Headings from MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine.

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