Evaluation of an intramedullary bone stabilization system using a light-curable monomer in sheep

Evaluation of an intramedullary bone stabilization system using a light-curable monomer in sheep

Percutaneous intramedullary fixation may provide an ideal method for stabilization of bone fractures, while avoiding the need for large tissue dissections. Tibiae in 18 sheep were treated with an intramedullary photodynamic bone stabilization system (PBSS) that comprised a polyethylene terephthalate...

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Bibliographic Details
Published in:Journal of biomedical materials research. Part B, Applied biomaterials Vol. 104; no. 2; pp. 291 - 299
Main Authors: Zani, Brett G., Baird, Rose, Stanley, James R. L., Markham, Peter M., Wilke, Markus, Zeiter, Stephan, Beck, Aswin, Nehrbass, Dirk, Kopia, Gregory A., Edelman, Elazer R., Rabiner, Robert
Format: Journal Article
Language:English
Published: United States Blackwell Publishing Ltd 01-02-2016
Wiley Subscription Services, Inc
Subjects:
Animals
biocompatibility
Biomedical materials
Bone Substitutes - adverse effects
Bone Substitutes - chemistry
Bone Substitutes - pharmacology
Drug Evaluation, Preclinical
External Fixators
Fracture Healing
fracture stabilization
intramedullary
Light
light-curable
Materials research
Materials science
Materials Testing - methods
polymer
Sheep
Tibial Fractures - therapy
polymer
intramedullary
fracture stabilization
light-curable
biocompatibility
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Summary:Percutaneous intramedullary fixation may provide an ideal method for stabilization of bone fractures, while avoiding the need for large tissue dissections. Tibiae in 18 sheep were treated with an intramedullary photodynamic bone stabilization system (PBSS) that comprised a polyethylene terephthalate (Dacron) balloon filled with a monomer, cured with visible light in situ, and then harvested at 30, 90, or 180 days. In additional 40 sheep, a midshaft tibial osteotomy was performed and stabilized with external fixators or external fixators combined with the PBSS and evaluated at 8, 12, and 26 weeks. Healing and biocompatibility were evaluated by radiographic analysis, micro-computed tomography, and histopathology. In nonfractured sheep tibiae, PBSS implants conformably filled the medullary canal, while active cortical bone remodeling and apposition of new periosteal and/or endosteal bone was observed with no significant macroscopic or microscopic observations. Fractured sheep tibiae exhibited increased bone formation inside the osteotomy gap, with no significant difference when fixation was augmented by PBSS implants. Periosteal callus size gradually decreased over time and was similar in both treatment groups. No inhibition of endosteal bone remodeling or vascularization was observed with PBSS implants. Intramedullary application of a light-curable PBSS is a biocompatible, feasible method for fracture fixation.
Bibliography:National Institutes of Health - No. R01 GM-49039
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ArticleID:JBMB33380
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:1552-4973
1552-4981
DOI:10.1002/jbm.b.33380