The Effect Of Enhanced Bone Marrow In Conjunction With 3d-Printed Pla-Ha In The Repair Of Critical-Sized Bone Defects In A Rabbit Model

Background: Traditionally, the iliac crest has been the most common harvesting site for autologous bone grafts; however, it has some limitations, including poor bone availability and donor-site morbidity. This study sought to explore the effect of enhanced bone marrow (eBM) in conjunction with three-dimensional (3D)-printed polylactide-hydroxyapatite (PLA-HA) scaffolds in the repair of critical-sized bone defects in a rabbit model. Methods: First, 3D-printed PLA-HA scaffolds were fabricated and evaluated using micro-computed tomography (mu CT) and scanning electron microscopy (SEM). Twenty-seven New Zealand white rabbits were randomly divided into 3 groups (n=9 per group), and the defects were treated using 3D-printed PLA-HA scaffolds (the PLA-HA group) or eBM in conjunction with 3D-printed PLA-HA scaffolds (the PLA-HA/eBM group), or were left untreated (the control group). Radiographic, mu CT, and histological analyses were performed to evaluate bone regeneration in the different groups. Results: The 3D-printed PLA-HA scaffolds were cylindrical, and had a mean pore size of 500 +/- 47.1 mu m and 60%+/- 3.5% porosity. At 4 and 8 weeks, the lane-sandhu X-ray score in the PLA-HA/eBM group was significantly higher than that in the PLA-HA group and the control group (P<0.01). At 8 weeks, the mu CT analysis showed that the bone volume (BV) and bone volume/tissue volume (BV/TV) in the PLA-HA/ eBM group were significantly higher than those in the PLA-HA group and the control group (P<0.01). Hematoxylin and eosin staining indicated that the new bone area in the PLA-HA/eBM group was significantly higher than that in the PLA-HA group and the control group (P<0.01). Conclusions: The group that was treated with eBM in conjunction with 3D-printed PLA-HA showed enhanced bone repair compared to the other 2 groups. PLA-HA/eBM scaffolds represent a promising way to treat critical-sized bone defects.