Introduction: Lateral callus distraction can be used to treat bone defects and increase bone diameter. However, this requires longitudinal splitting of the bone, which can be avoided by a new method.
Material and Methods: Twenty sheep were operated at the medial site of the tibia. After drilling 1 mm holes into the medullary cavity, a titanium plate with a hydroxyapatite coating was attached to the bone surface using a custom-made device
After 10 days this device was distracted 0.3 mm, twice a day until a distance of 6 mm was achieved (n=10). In the control group (n=10), the titanium plate was adjusted to a distance of 6 mm. All sheep received fluorescence labeling. 10 weeks p. o., bone formation underneath the titanium plate was investigated using pQCT, x-ray and histomorphology.
Results: In the distraction group there was 5 times more newly formed bone. >
Bone columns bridging the space between the cortex and titanium plate were found. In the first 30 days, the bone formation was significantly enhanced in the distraction group as indicated by the fluorescent labeling
Conclusion: A strain induced bone formation is not only possible between two bony surfaces created by an osteotomy, but also between a bony surface and an appropriately designed implant. This new method allows for bone apposition in a large number of bones, which could not be properly treated in the past.