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Personalized and Defect-Specific Antibiotic-Laden Scaffolds for Periodontal Infection Ablation

Jéssica A. Ferreira, Karla Zanini Kantorski, Nileshkumar Dubey, Arwa Daghrery, J. Christopher Fenno, Yuji Mishina, Hsun‐Liang Chan, Gustavo Mendonça, Marco C. Bottino

2021ACS Applied Materials & Interfaces32 citationsDOIOpen Access PDF

Abstract

Periodontitis compromises the integrity and function of tooth-supporting structures. Although therapeutic approaches have been offered, predictable regeneration of periodontal tissues remains intangible, particularly in anatomically complex defects. In this work, personalized and defect-specific antibiotic-laden polymeric scaffolds containing metronidazole (MET), tetracycline (TCH), or their combination (MET/TCH) were created via electrospinning. An initial screening of the synthesized fibers comprising chemo-morphological analyses, cytocompatibility assessment, and antimicrobial validation against periodontopathogens was accomplished to determine the cell-friendly and anti-infective nature of the scaffolds. According to the cytocompatibility and antimicrobial data, the 1:3 MET/TCH formulation was used to obtain three-dimensional defect-specific scaffolds to treat periodontally compromised three-wall osseous defects in rats. Inflammatory cell response and new bone formation were assessed by histology. Micro-computerized tomography was performed to assess bone loss in the furcation area at 2 and 6 weeks post implantation. Chemo-morphological and cell compatibility analyses confirmed the synthesis of cytocompatible antibiotic-laden fibers with antimicrobial action. Importantly, the 1:3 MET/TCH defect-specific scaffolds led to increased new bone formation, lower bone loss, and reduced inflammatory response when compared to antibiotic-free scaffolds. Altogether, our results suggest that the fabrication of defect-specific antibiotic-laden scaffolds holds great potential toward the development of personalized (i.e., patient-specific medication) scaffolds to ablate infection while affording regenerative properties.

Topics & Concepts

Materials scienceAntimicrobialPeriodontitisAntibioticsBiomedical engineeringRegenerative medicineRegeneration (biology)Bone InfectionPorphyromonas gingivalisDentistryMedicineStem cellMicrobiologyBiologyCell biologyOral microbiology and periodontitis researchPeriodontal Regeneration and TreatmentsDental Implant Techniques and Outcomes
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