Bone formation is enhanced by thrombin-related peptide TP508 during distraction osteogenesis

Abstract

The thrombin-related peptide, TP508, has been shown to promote soft tissue healing and fracture repair. One possible clinical application of TP508 is to accelerate bone regeneration during distraction osteogenesis, which is a lengthy procedure involving significant complications. In this study, we tested the ability of TP508 to accelerate the consolidation phase of distraction osteogenesis in a rabbit model of leg lengthening. Twenty-three rabbits had left tibiae lengthened for 1 cm over a period of 6 days. TP 508 (0, 30 and 300 microg in 300 microl saline) was injected into the distraction gaps at the beginning and the end of the lengthening phase, and all the animals were killed 2 weeks after lengthening. By the end of experiment, more animals in the TP508 treated groups had complete bony union of the distraction gaps when compared to the saline treated group. pQCT examination of the regenerates demonstrated a significantly greater bone mineral density (BMD) in the TP508 treated groups relative to the saline control group, but no statistical difference in the BMD was found between the two dosages of TP508. Bone consolidation and bone remodeling was far advanced in the TP508 300 microg treated group, and the regenerates mainly consisted of well-vascularized woven bone. In contrast, in the group that received the 30 microg TP508 treatment, focal bone defects and discontinuities of the new cortices were evident in some but not all animals. In the saline control group a majority of the animals showed large amounts of fibrous and cartilaginous tissues in the regenerates, and none of the regenerates had completed consolidation. This study has demonstrated that local application of TP508 enhanced bone formation and consolidation during distraction osteogenesis in the rabbit. The findings indicate that TP508 may be useful in promoting osteogenesis in situations when augmentative treatment for bone formation and consolidation are needed.