Journal
MATERIALS
Volume 14, Issue 14, Pages -Publisher
MDPI
DOI: 10.3390/ma14143960
Keywords
autograft extender; bone; polyurethane
Categories
Funding
- National Institutes of Health (NIH) [R01AR064772, T32DK101003]
- United States Army Institute of Surgical Research
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Autograft (AG) is considered as the gold standard for bone grafts, but its limited quantities and patient morbidity have led to the proposal of AG extenders to minimize the volume of AG while maintaining its osteoinductive properties. This study evaluated PEUR and PTKUR AG extenders in a rabbit radius defect model and found that AG extenders supported new bone formation, with PEUR degrading more rapidly than PTKUR. It was also observed that residual polymer in the AG extenders inhibited cellular infiltration and subsequent bone formation.
Autograft (AG) is the gold standard for bone grafts, but limited quantities and patient morbidity are associated with its use. AG extenders have been proposed to minimize the volume of AG while maintaining the osteoinductive properties of the implant. In this study, poly(ester urethane) (PEUR) and poly(thioketal urethane) (PTKUR) AG extenders were implanted in a 20-mm rabbit radius defect model to evaluate new bone formation and graft remodeling. Outcomes including mu CT and histomorphometry were measured at 12 weeks and compared to an AG (no polymer) control. AG control examples exhibited new bone formation, but inconsistent healing was observed. The implanted AG control was resorbed by 12 weeks, while AG extenders maintained implanted AG throughout the study. Bone growth from the defect interfaces was observed in both AG extenders, but residual polymer inhibited cellular infiltration and subsequent bone formation within the center of the implant. PEUR-AG extenders degraded more rapidly than PTKUR-AG extenders. These observations demonstrated that AG extenders supported new bone formation and that polymer composition did not have an effect on overall bone formation. Furthermore, the results indicated that early cellular infiltration is necessary for harnessing the osteoinductive capabilities of AG.
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