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1. Preparation of gentamicin dioctyl sulfosuccinate loaded poly(trimethylene carbonate) matrices intended for the treatment of orthopaedic infections.

Author

ter Boo GA, Grijpma DW, Richards RG, Moriarty TF, and Eglin D

Subjects

Anti-Bacterial Agents pharmacology, Biocompatible Materials chemical synthesis, Biocompatible Materials chemistry, Cell Line, Cell Survival, Drug Implants, Fibroblasts drug effects, Fibroblasts physiology, Gentamicins pharmacology, Humans, Microbial Sensitivity Tests, Staphylococcus aureus drug effects, Staphylococcus epidermidis drug effects, Anti-Bacterial Agents administration & dosage, Dioctyl Sulfosuccinic Acid chemistry, Dioxanes chemistry, Gentamicins administration & dosage, Polymers chemistry, Prostheses and Implants, Staphylococcus drug effects

Abstract

Background: Infection is a common problem in trauma and orthopaedic surgery. Antibiotic-loaded biomaterials are used locally to clear infections as an adjunct to systemic antibiotics. Gentamicin-sulphate (GEN-SULPH) is commonly used in antibiotic-loaded biomaterials, although it displays high water solubility resulting in quick diffusion from the carrier., Objective: Preparation of a lipophilic derivative of gentamicin to reduce solubility and obtain a slower release. Subsequently, entrapment of this lipophilic gentamicin within poly(trimethylene carbonate) (PTMC) matrices., Methods: Hydrophobic ion-pairing was used to prepare lipophilic gentamicin (GEN-AOT). The susceptibility of Staphylococcus aureus NCTC 12973 and Staphylococcus epidermidis 103.1 for GEN-AOT was tested and the viability of fibroblasts upon exposure to GEN-AOT was assessed. GEN-AOT was then loaded into PTMC films., Results: GEN-AOT was successfully prepared as confirmed by FTIR-spectroscopy. GEN-AOT was bactericidal for S. epidermidis and S. aureus at 0.5 μM and 8.5 μM, respectively. At 1.1 μM GEN-AOT no reduction in fibroblast viability was observed. At 11 μM the reduction was ∼50% . PTMC discs loaded with GEN-AOT were prepared by compression molding., Conclusions: Lipophilic GEN-AOT was at least as potent as GEN-SULPH. For S. epidermidis it was even more potent than GEN-SULPH. More than 50% fibroblast cell viability was maintained at bactericidal concentration for both bacterial strains.

Published

2015