Risk factors analysis for tibial fracture in patients with congenital anterolateral bowing of the tibia
10.3760/cma.j.cn121113-20230419-00246
- VernacularTitle:先天性胫骨前外侧弯曲畸形并发胫骨骨折的危险因素分析
- Author:
Shulang JIAN
1
;
Qingqing MAO
;
Siyu XU
;
Guanghui ZHU
;
Kun LIU
;
Qian TAN
;
Ge YANG
;
Zexi JIANG
;
Xiaoyu ZHOU
;
Haibo MEI
Author Information
1. 南华大学衡阳医学院儿科学院,衡阳 421001
- Keywords:
Child;
Lower extremity deformities, congenital;
Tibial fractures;
Risk factors
- From:
Chinese Journal of Orthopaedics
2023;43(17):1164-1173
- CountryChina
- Language:Chinese
-
Abstract:
Objective:To explore the risk factors associated with tibia fractures in children with congenital anterolateral bowing of the tibia (ALBT).Methods:A retrospective analysis was conducted on data from 87 children diagnosed with ALBT at the Children's Hospital of Hunan Province from January 2012 to January 2020. The collected data included age at initial diagnosis, affected limb side, whether there was a concomitant type I neurofibromatosis, whether there was a concomitant fibular pseudoarthrosis, whether there was concomitant ankle joint deformity, whether there was bone cystic change in the region of tibial bowing deformity, location of the apex of the bowing deformity, diameter of the tibial bowing deformity on the affected side, diameter on the healthy side in the same plane as the tibial bowing deformity, angle of lateral bending deformity of the tibia, angle of anterior bending deformity of the tibia, occurrence of tibia fracture, history of trauma before fracture, location of fracture, and age at the time of fracture. The follow-up endpoint was January 2023. Receiver operating characteristic (ROC) curves were used to determine the optimal cutoff values for the angles of lateral and anterior bending deformity of the tibia and the ratio of cross-sectional areas. The correlation between the above factors and tibial fractures in children was analyzed by single factor survival analysis, and the indicators with statistical significance were included in multivariate Cox proportional risk regression analysis to determine the risk factors for tibial fractures in children with ALBT.Results:Of the 87 children diagnosed with ALBT, the median age at initial diagnosis was 14.0 months (range, 1-93 months), with 42 males and 45 females, 44 left-sided and 43 right-sided cases. The median follow-up time for non-fracture cases was 42.0 months (range, 1-124 months). At the last follow-up, 43 children had experienced fractures, while 44 had not. The average time to fracture-free survival was 70.3 months, the median fracture-free survival time was 55.0 months, and the median survival time without fractures was 42.0 months. The ROC curve results indicated a cutoff value of 25.55° for the lateral bending angle of the tibia and 32.63° for the anterior bending angle of the tibia, with no statistically significant significance for the cross-sectional area ratio [AUC=0.54, 95% CI (0.42, 0.66), P=0.530]. Single-factor analysis of fracture-free survival suggested that there were statistically significant differences in the intergroup fracture-free survival rates of four factors: lateral bending angle of the tibia (χ 2=7.06, P=0.008), anterior bending angle of the tibia (χ 2=8.96, P=0.003), history of trauma (χ 2=18.26, P<0.001), and tibial bone cystic change (χ 2=4.30, P=0.038). The results of the multivariate Cox proportional hazards regression analysis showed that a lateral bending angle of the tibia≥25.55° ( HR=2.73, P=0.007), tibial bone cystic change ( HR=2.35, P=0.018), and history of trauma ( HR=2.65, P=0.004) were all positively correlated with fractures. Conclusion:The main risk factors for tibia fractures in children with ALBT include trauma, tibial bowing deformity with concomitant bone cystic change, and lateral bending angle of the tibia≥25.55°.
