Analyze the Influence of Cement Infusion for Bones in Different Mix States on PKP Surgery for Osteoporotic Vertebral Fractures.

AIM

To determine how bone cement is infused into the vertebral body at different periods during kyphoplasty and its effect on vertebral strength, stiffness, and height.

METHOD

In this study, 40 L1-5 vertebrae were obtained from eight healthy adult sheep randomly divided into reference, thin, sticky, and coagulation groups based on the digital expression from 1 November 2022 to 31 December 2022. Each group had 10 vertebrae. The vertebral bodies of each group were immersed in hydrochloric acid and infused with a bilateral pedicle micro-pump to construct the osteoporotic vertebral body model. On this basis, the vertebral body model of compression fracture was established by using a biomechanical machine to compress the vertebral body height, and a bone cement perfusion channel was made. The bone cement infusion scheme was implemented after the reduction of the fractured vertebra. Following mixing of the bone cement, the thin, sticky, and coagulation groups, respectively, received bone cement at 2 minutes, 4 minutes, and 6 minutes after mixing. 24 hours before and after the procedure, each vertebra's strength, stiffness, and leading-edge height were measured, and a comparative analysis was performed.

RESULT

(1) Bone mineral density after decalcification was significantly lower than that before and there was a statistical difference (P < .001). (2) Compared with pre-operation, the vertebral strength and stiffness of the reference group decreased significantly after surgery, while the strength and stiffness of the thin group, the sticky group, and the coagulation group changed significantly. The vertebral strength and stiffness of the thin group (P < .001) and the sticky group (P < .001) were higher than those of the coagulation group and higher than those of the reference group. (3) Compared with the original height of the anterior edge of the vertebral body, the height of the anterior edge of each group decreased significantly after fracture and surgery, and the height of the anterior edge of each group was higher than that after fracture. Compared with the reference group, the height of the anterior edge of the thin group, the sticky group, and the coagulation group decreased significantly (P < .001).

CONCLUSION

Percutaneous kyphoplasty application to L1-5 vertebrae of OVCF sheep infused with bone cement in different states enhanced vertebral body strength, but not vertebral body stiffness. There was a significant increase in vertebral body stiffness and strength after the infusion of thin and thick bone cement for 2 minutes.