Preclinical Experiments on the Release Behavior of Biodegradable Nanofibrous Multipharmaceutical Membranes in a Model of Four-wall Intrabony Defect

Overview

Journal Antimicrob Agents Chemother

Publisher American Society for Microbiology

Specialty Pharmacology

Date 2012 Sep 6

PMID 22948881

Citations 4

Authors

Dave Wei-Chih Chen

Fu-Ying Lee

Jun-Yi Liao

Shih-Jung Liu

Chao-Ying Hsiao

Jan-Kan Chen

Affiliations

Soon will be listed here.

Abstract

Guided tissue regeneration (GTR) therapy has been widely used to regenerate lost periodontium from periodontal disease. However, in terms of regenerative periodontal therapy, a multidrug-loaded biodegradable carrier can be even more promising in dealing with periodontal disease. In the current study, we fabricated biodegradable nanofibrous collagen membranes that were loaded with amoxicillin, metronidazole, and lidocaine by an electrospinning technique. The in vitro release behavior and the cytotoxicity of the membranes were investigated. A four-wall intrabony defect was created in rabbits for in vivo release analysis. The bioactivity of the released antibiotics was also examined. The experimental results showed that the drug-loaded collagen membranes could provide sustainable release of effective amoxicillin, metronidazole, and lidocaine for 28, 56, and 8 days, respectively, in vivo. Furthermore, the bioactivity of the released antibiotics remained high, with average bioactivities of 50.5% for amoxicillin against Staphylococcus aureus and 58.6% for metronidazole against Escherichia coli. The biodegradable nanofibrous multipharmaceutical membranes developed in this study may provide a promising solution for regenerative periodontal therapy.

Citing Articles

Advances in biomaterials for oral-maxillofacial bone regeneration: spotlight on periodontal and alveolar bone strategies.

Li N, Wang J, Feng G, Liu Y, Shi Y, Wang Y Regen Biomater. 2024; 11:rbae078.

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Electrospinning Proteins for Wound Healing Purposes: Opportunities and Challenges.

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Advance of Nano-Composite Electrospun Fibers in Periodontal Regeneration.

Zhuang Y, Lin K, Yu H Front Chem. 2019; 7:495.

PMID: 31355186 PMC: 6636673. DOI: 10.3389/fchem.2019.00495.

Development and characterization of novel ZnO-loaded electrospun membranes for periodontal regeneration.

Munchow E, Albuquerque M, Zero B, Kamocki K, Piva E, Gregory R Dent Mater. 2015; 31(9):1038-51.

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