. 2016 Mar;27(3):44.

doi: 10.1007/s10856-015-5658-1. Epub 2016 Jan 12.

Levofloxacin-loaded star poly(ε-caprolactone) scaffolds by additive manufacturing

Dario Puppi¹, Anna Maria Piras¹, Alessandro Pirosa¹, Stefania Sandreschi¹, Federica Chiellini²

Affiliations

¹ BIOLab Research Group, Department of Chemistry and Industrial Chemistry, University of Pisa, UdR INSTM Pisa, Via Moruzzi 13, 56124, Pisa, Italy.
² BIOLab Research Group, Department of Chemistry and Industrial Chemistry, University of Pisa, UdR INSTM Pisa, Via Moruzzi 13, 56124, Pisa, Italy. federica.chiellini@unipi.it.

PMID: 26758891
DOI: 10.1007/s10856-015-5658-1

Levofloxacin-loaded star poly(ε-caprolactone) scaffolds by additive manufacturing

Dario Puppi et al. J Mater Sci Mater Med. 2016 Mar.

. 2016 Mar;27(3):44.

doi: 10.1007/s10856-015-5658-1. Epub 2016 Jan 12.

Authors

Dario Puppi¹, Anna Maria Piras¹, Alessandro Pirosa¹, Stefania Sandreschi¹, Federica Chiellini²

Affiliations

¹ BIOLab Research Group, Department of Chemistry and Industrial Chemistry, University of Pisa, UdR INSTM Pisa, Via Moruzzi 13, 56124, Pisa, Italy.
² BIOLab Research Group, Department of Chemistry and Industrial Chemistry, University of Pisa, UdR INSTM Pisa, Via Moruzzi 13, 56124, Pisa, Italy. federica.chiellini@unipi.it.

PMID: 26758891
DOI: 10.1007/s10856-015-5658-1

Abstract

The employment of a tissue engineering scaffold able to release an antimicrobial agent with a controlled kinetics represents an effective tool for the treatment of infected tissue defects as well as for the prevention of scaffolds implantation-related infectious complications. This research activity was aimed at the development of additively manufactured star poly(ε-caprolactone) (*PCL) scaffolds loaded with levofloxacin, investigated as antimicrobial fluoroquinolone model. For this purpose a computer-aided wet-spinning technique allowing functionalizing the scaffold during the fabrication process was explored. Scaffolds with customized composition, microstructure and anatomical external shape were developed by optimizing the processing parameters. Morphological, thermal and mechanical characterization showed that drug loading did not compromise the fabrication process and the final performance of the scaffolds. The developed *PCL scaffolds showed a sustained in vitro release of the loaded antibiotic for 5 weeks. The proposed computer-aided wet-spinning technique appears well suited for the fabrication of anatomical scaffolds endowed with levofloxacin-releasing properties to be tested in vivo for the regeneration of long bone critical size defects in a rabbit model.

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Levofloxacin-loaded star poly(ε-caprolactone) scaffolds by additive manufacturing

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