Objective Currently, there are few researches on lordosis associated with scol iosis. To explore the effects of nickel-titanium memory alloy staple (Staple) on the growth of thoracic lordosis by observing the histological changes of cartilage cells in the osteoepiphysis of the thoracic vertebrates in goats. Methods Eighteen 2-3 months old female goats, weighing 8-12 kg, were randomly divided into long staple group (n=6), short staple group (n=6), and blank control group (n=6). Long staple (7 mm) and short staple (4 mm) were implanted into T6-11 segments of goats in long and short staplegroups by anterior approach, respectively. The blank control group was not treated. The X-ray examination was performedpre-operatively and at 3 months post-operatively to observe the changes of Cobb angle. Then the growth plates and inferior facet processes of the apex vertebral body were harvested to observe the histological grades of cartilage by HE staining, and to observe prol iferation and apoptosis of chondrocytes through immunohistochemistry double label ing staining with poly-ADPribose- polymerase-p85 and prol iferating cell nuclear antigen. Results At 3 months after operation, the T6-11 Cobb angles were significantly higher than those of pre-operation in short staple group and long staple group, which were significantly higher than those in blank control group (P lt; 0.05), but there was no significant difference between short staple group and long staple group (P gt; 0.05). The results of HE staining and immunohistochemistry double staining showed that the number of chondrocytes were reduced obviously with irregular columnar arrangement and increased volume ratio of surrounding extracellular matrix in prol iferative zone and hypertrophic zone of growth plate and inferior articular process in both long and short staple groups, and this tendency was more noticeable in long staple group. There were significant differences in the grades of prol iferation viabil ity of chondrocytes between 2 staple groups and blank control group (P lt; 0.05), but there was no significant difference tewteen long staple group and short staple group (P gt; 0.05). The prol iferation viabil ities of chondrocytes in growth plate and inferior articular process were significantly higher in blank control group than in 2 staple groups (P lt; 0.01), but there was no significant difference between long staple group and short staple group (P gt; 0.05). Conclusion The histological evidences prove that the Staple implantation by anterior approach can reduce prol iferation viabil ity of chondrocytes in growth plate and inferior articular process of the thoracic vertebrates in goats, which conduces the growth direction of thoracic vertebrates to kyphosis.
ObjectiveTo evaluate the effect of nickel-titanium three-dimensional memory alloy mesh combined with autologous bone for living model of canine tibial plateau collapse fracture by biomechanical testing. MethodsSixteen healthy 12-month-old Beagle dogs were randomly divided into 4 group, 4 dogs in each group. The dogs were used to establish the tibial plateau collapse fracture model in groups A, B, and C. Then, the nickel-titanium three-dimensional memory alloy mesh combined with autologous bone (the fibula cortical bone particles), the artificial bone (nano-hydroxyapatite), and autologous fibula cortical bone particles were implanted to repair the bone defects within 4 hours after modeling in groups A, B, and C, respectively; and the plate and screws were fixed outside the bone defects. The dogs were not treated in group D, as normal control. At 5 months after operation, all animals were sacrificed and the tibial specimens were harvested and observed visually. The destructive axial compression experiments were carried out by the biomechanical testing machine. The displacement and the maximum failure load were recorded and the axial stiffness was calculated. ResultsAll animals stayed alive after operation, and all incisions healed. After 1-3 days of operation, the animals could stand and move, and no obvious limb deformity was found. The articular surfaces of the tibial plateau specimens were completely smooth at 5 months after operation. No obvious articular surface collapse was observed. The displacement and maximum failure load of specimens in groups A and D were significantly higher than those in groups B and C (P<0.05). But no significant difference was found between groups A and D and between groups B and C (P>0.05). ConclusionThe nickel-titanium three-dimensional memory alloy mesh combined with autologous bone for subarticular bone defect of tibial plateau in dogs has good biomechanical properties at 5 months after operation, and has better axial stiffness when compared with the artificial bone and autologous bone graft.