1.Influence of bone cement volume and distribution on surgical and adjacent vertebral refractures after percutaneous vertebroplasty
Haibier ABUDUWUPUER ; Yusufu ALIMUJIANG ; Abulimiti MAIMAITIMIN ; Yakufu MAIHEMUTI ; Kayierhan AIBEN ; Abudukelimu YIMURAN ; Aximu ALIMUJIANG ; Hang LIN ; Abudurexiti TUERHONGJIANG
Chinese Journal of Tissue Engineering Research 2024;28(10):1586-1591
BACKGROUND:Studies have exhibited that symmetrical distribution and effective dose of bone cement can reduce postoperative vertebral refractures and help improve outcomes,but obtaining better distribution and dose of bone cement during percutaneous vertebroplasty remains an issue for surgeons. OBJECTIVE:To investigate the risk factors of percutaneous vertebroplasty in the treatment of osteoporotic vertebral compression fracture,and to analyze the correlation between these factors and recurrent fractures of the operative vertebral body and adjacent vertebral bodies after percutaneous vertebroplasty. METHODS:111 patients who underwent unilateral approach percutaneous vertebroplasty in Sixth Affiliated Hospital of Xinjiang Medical University from January 2018 to December 2021 were screened and divided into fracture group(n=17)and non-fracture group(n=94)according to whether refracture was observed during follow-up.The following variables were reviewed in both groups:Gender,age,body mass index,operation time,menopause age,bone cement distribution index,bone density T value,bone cement dose,location of bone cement distribution,percutaneous vertebroplasty stage,past history,adverse reactions and disc cement leakage of patients.These variables were analyzed by univariate analysis.The statistically significant factors were replaced by a binary Logistic regression model to analyze the correlation with vertebral refracture after percutaneous vertebroplasty. RESULTS AND CONCLUSION:(1)Univariate analysis demonstrated that after percutaneous vertebroplasty,vertebral refracture was associated with disc cement leakage(P=0.000),cement dose(P=0.049),and cement distribution location(P=0.017).(2)Binary Logistic regression revealed that bone cement leakage(P=0.000),cement dose(P=0.031),and location of cement distribution(P=0.015)were risk factors for recurrent fracture of the operative vertebral body and adjacent vertebral body after percutaneous vertebroplasty.Compared with cement distribution types I,II,and III,the risk of recurrent fracture in the operative and adjacent vertebrae was higher in cement distribution types IV and V(OR=36.340,P=0.016;OR=27.755,P=0.017).(3)It is concluded that recurrent fractures of the surgically operated vertebral body and adjacent vertebral bodies are caused by the interaction of multiple risk factors.Bone cement distribution and bone cement leakage were independent risk factors.Recurrent fractures of the operative vertebra and adjacent vertebrae are more likely when the cement is distributed in type IV and type V.Surgeons should fully assess these risk factors before surgery and develop targeted prevention and treatment strategies to help reduce the risk of future refractures.