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Article type: Research Article
Authors: Ignjatović, Nenad L. | Ninkov, Petar | Sabetrasekh, Roya | Lyngstadaas, Staale Petter | Uskoković, Dragan P.;
Affiliations: Centre for Fine Particles Processing and Nanotechnologies, Institute of Technical Sciences of the Serbian Academy of Sciences and Arts, Belgrade, Serbia | Faculty of Dentistry, Department of Biomaterials, University of Oslo, Oslo, Norway
Note: [] Address for correspondence: Dragan P. Uskoković, Centre for Fine Particles Processing and Nanotechnologies, Institute of Technical Sciences of the Serbian Academy of Sciences and Arts, Knez Mihailova 35/4, 11000 Belgrade, Serbia. Tel.: +381 11 2636994; Fax: +381 11 2185263; E-mail: [email protected]
Abstract: Most drug delivery systems as treatment modalities for osteomyelitis have not been evaluated for resistant infections. Tigecycline (TG) is an antimicrobial agent that could be used in the treatment of multi-drug-resistant orthopedic infections. The objective of this in vitro study has been to determine what dosage of TG causes changes in the morphology and number of osteoblasts. We have also investigated whether nanoparticulate tigecycline-loaded calcium-phosphate/poly-DL-lactide-co-glycolide is biocompatible and whether it could release bioactive TG in a controlled manner during the observation time. The cytotoxicity was tested by analyzing the release of lactate dehydrogenase from dead osteoblasts to the medium. Staphylococcus aureus was used to verify the antibacterial effect of the multifunctional drug delivery system. At concentrations as achieved by local application, TG caused high toxic effect and impaired the normal osteoblastic morphology. The nanoparticulate multifunctional drug delivery system showed good compatibility and antibacterial effect during the observation time and thus appears to be suitable for the treatment of osteomyelitis caused by multi-drug-resistant microbes.
Keywords: Calcium-phosphate, poly-DL-lactide-co-glycolide, multifunctional, nano drug delivery
DOI: 10.3233/BME-140978
Journal: Bio-Medical Materials and Engineering, vol. 24, no. 4, pp. 1647-1658, 2014
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