OBJECTIVE: To describe a new technique for the efficient use of preoperative planning based on preoperative computed tomographyebased three-dimensional (3D) model design for percutaneous vertebroplasty (PVP) in a patient with osteoporotic vertebral compression fracture. METHODS: A 76-year-old woman with acute osteoporotic vertebral compression fracture (L1 level) accepted a novel precise PVP. A 3D model of thoracolumbar vertebrae (T12-L2) based on preoperative computed tomography scanning data and a simulative PVP (via a bilateral transpedicular approach) were built in MIMICS (Materialise Interactive Medical Image Control System) software. With the help of 3 radiopaque markers located at the skin of the back and preoperative digital design by MIMICS, bilateral skin entry points, needles direction including abduction angle and head inclination angle, and needle insertion depth were established. RESULTS: During surgery, only 1 shot of fluoroscopy was required to confirm the skin entry points. The operation took only about 23 minutes and total patient exposure dose was 4.5 mSv. The intraoperative radiologic results showed that the cement distribution in the L1 vertebra was good without any puncture-related complications. The patient's visual analog scale score improved from 9 points preoperatively to 2 points postoperatively. The patient's preoperative Oswestry Disability Index score was 80 points, which improved to 57.8 points postoperatively. CONCLUSIONS: The novel precise PVP based on preoperative 3D model design allows 1) visualization of the morphology of the fractured vertebral body, 2) increased precision of puncture with decreasing incidence of puncture-related complications and reduced radiation exposure, and 3) less operation time, decreasing the learning curve of beginners with limited experience.

• 出版日期2017-9
• 单位首都医科大学