Special Biodegradable Fixation Device for Anterior Cruciate Ligament Reconstruction-Safety and Efficacy in a Beagle Model.

This study aimed to evaluate the safety and efficacy of the special WE43 magnesium alloy stretch plates (SPs) used as fixation device for anterior cruciate ligament (ACL) reconstruction in a beagle model. Eleven beagle dogs underwent ACL reconstruction using WE43 SPs to fix the ligament grafts with the femoral ends, whereas titanium interferences were employed in the tibia ends. Load-to-failure tests were conducted to evaluate the mechanical properties. A comprehensive set of histological observations was performed to observe the local tissue response and assess the status of the attachment between the bone tissue and ligament grafts. Microcomputed tomography and scanning electron microscopy in conjunction with energy spectrum analysis were conducted to evaluate the degradation rate in vivo and investigate the morphology of the cross-section of the SPs and the element distribution in vivo. Immersion tests were employed to investigate the corrosion properties in vitro. The special WE43 SPs showed not only good mechanical strength but also a suitable degradation rate in vivo. The results indicated the special WE43 SP could be considered as a novel fixation device for ACL reconstruction.

Reconstruction of comminuted long-bone fracture using CF/CPC scaffolds manufactured by rapid prototyping.

BACKGROUND: Stabilization and bone healing of fractures in weight-bearing long bones are challenging. This study was conducted to evaluate the effect of a scaffold composed of chitosan fiber and calcium phosphate ceramics (CF/CPC scaffold) on stability and fracture repair in weight-bearing long bones. MATERIAL/METHODS: Comminuted fractures of paired radiuses were created in 36 healthy, mature dogs. The left radius of each dog was classified in the experimental group and treated with CF/CPC scaffold, and the right one was not filled, and was used as a blank control. Of the 12 animals in each group that were killed at week 4, 8, and 12 after the operation, 6 were used for histological analysis, and the other 6 used were for biomechanical studies. Both radiuses from each animal were dissected free and stored for these analyses. All the animals underwent X-ray radiograph pre- and post-operatively. Computer-aided rapid-prototyping technologies were adopted for the fabrication of three-dimensional scaffolds with precise geometric control. RESULTS: X-ray showed that the bone fracture area in the experimental group was filled with callus at week 12 after surgery. Histological examination detected slow resorption of the cement and new bone formation since week 4. At week 12, the scaffold material partially degraded and was still present in all specimens. Mechanical testing revealed that the failure strength of the radiuses treated with CF/CPC scaffolds was about 3 times that of the radiuses without implanted scaffolds. CONCLUSIONS: The effect of using CF/CPC scaffold in treating comminuted weight-bearing long bone fractures is satisfactory.

Implanting hydroxyapatite-coated porous titanium with bone morphogenetic protein-2 and hyaluronic acid into distal femoral metaphysis of rabbits.

OBJECTIVE: To assess the osseointegration capability of hydroxyapatite-coated porous titanium with bone morphogenetic protein-2 (BMP-2) and hyaluronic acid to repair defects in the distal femur metaphysis in rabbits. METHODS: Porous titanium implants were made by sintering titanium powder at high temperature, which were coated with hydroxyapatite by alkali and heat treatment and with BMP-2 combined with bone regeneration materials. And hyaluronic acid was further used as delivery system to prolong the effect of BMP-2. The implants were inserted into the metaphysis of the distal femur of rabbits. The animals were killed at 6, 12 and 24 weeks to accomplish histological and biomechanical analyses. RESULTS: According to the result of histological analysis, the osseointegration in BMP-2 group was better than that of the HA-coated porous titanium group. In push-out test, all the samples had bigger shear stress as time passed by. There was statistical difference between the two groups in 6 and 12 weeks but not in 24 weeks. CONCLUSION: Hydroxyapatite-coated porous titanium with BMP-2 and hyaluronic acid has a good effect in repairing defects of distal femur in rabbits, which is a fine biotechnology for future clinical application.