Value of quantitative CT in vertebroplasty for osteoporotic fracture combined with scoliosis

Abstract

To investigate the value of lumbar quantitative CT (QCT) in vertebroplasty for osteoporotic fracture combined with scoliosis. The clinical data of 60 patients with osteoporotic fractures combined with different degrees of scoliosis treated by vertebroplasty from December 2017 to December 2019 were retrospectively analyzed. There were 18 males and 42 females, aged from 65 to 81 (72.63±3.34)years old. All patients were received QCT examination before surgery. According to the QCT value, the patients were divided into osteopenia group(QCT>80 g/L, 10 cases, 12 vertebrae), osteoporosis group(QCT 40-80 g/L, 35 cases, 48 vertebrae) and severe osteoporosis group(QCT<40 g/L, 15 cases, 22 vertebrae). The dispersion and leakage of bone cement in the injured vertebrae of patients with different degrees of QCT value were observed, and the QCT value in the selection of puncture point, correction of Cobb angle and recovery of vertebral height were analyzed in the patients. Among 60 cases of 82 vertebrae, 41 cases of 55 vertebrae were punctured by concave unilateral puncture, according for 67.07%. Among them, there were 2 cases with 2 vertebrae in osteopenia group, 26 cases with 35 vertebrae in osteoporosis group, and 13 cases with 18 vertebrae in severe osteoporosis group. There was significant difference in the number of cases with unilateral or bilateral puncture among the three groups (χ2=13.699, P=0.001); there was no significant difference in the number of cases with bone cement leakage among the three groups (χ2=1.403, P=0.496). The Cobb angle of scoliosis was significantly differentbetween preoperative and postoperative follow-up(P<0.05);the height of injured vertebral body was significantly different between preoperative and postoperative follow-up (P<0.05). For patients with osteoporotic fracture combined with scoliosis undergoing vertebroplasty, the severity of osteoporosis should be determined according to lumbar QCT detection, and the concave side of scoliosis should be selected for puncture, which is conducive to improving scoliosis, restoring spinal stability and improving surgical safety.