Department of Orthopedics, Chinese PLA General Hospital, Beijing 100853, China; National Clinical Research Center for Orthopedics, Sports Medicine & Rehabilitation, Beijing 100853, China.
Department of Orthopedics, Chinese PLA General Hospital, Beijing 100853, China; National Clinical Research Center for Orthopedics, Sports Medicine & Rehabilitation, Beijing 100853, China.
Injury. 2021 Jun;52(6):1487-1493. doi: 10.1016/j.injury.2020.12.008. Epub 2020 Dec 30.
Although several risk stratification models have been developed to predict hip fracture mortality, efforts are still being placed in this area. Our aim is to (1) construct a risk prediction model for long-term mortality after hip fracture utilizing the RSF method and (2) to evaluate the changing effects over time of individual pre- and post-treatment variables on predicting mortality.
1330 hip fracture surgical patients were included. Forty-five admission and in-hospital variables were analyzed as potential predictors of all-cause mortality. A random survival forest (RSF) algorithm was applied in predictors identification. Cox regression models were then constructed. Sensitivity analyses and internal validation were performed to assess the performance of each model. C statistics were calculated and model calibrations were further assessed.
Our machine-learning RSF algorithm achieved a c statistic of 0.83 for 30-day prediction and 0.75 for 1-year mortality. Additionally, a COX model was also constructed by using the variables selected by RSF, c statistics were shown as 0.75 and 0.72 when applying in 2-year and 4-year mortality prediction. The presence of post-operative complications remained as the strongest risk factor for both short- and long-term mortality. Variables including fracture location, high serum creatinine, age, hypertension, anemia, ASA, hypoproteinemia, abnormal BUN, and RDW became more important as the length of follow-up increased.
The RSF machine-learning algorithm represents a novel approach to identify important risk factors and a risk stratification models for patients undergoing hip fracture surgery is built through this approach to identify those at high risk of long-term mortality.
尽管已经开发出几种风险分层模型来预测髋部骨折死亡率,但仍在努力开发新的模型。我们的目的是:(1)利用 RSF 方法构建髋部骨折后长期死亡率的风险预测模型;(2)评估个体术前和术后变量对预测死亡率的影响随时间的变化。
纳入 1330 例髋部骨折手术患者。分析了 45 项入院和住院期间的变量,作为全因死亡率的潜在预测指标。应用随机生存森林(RSF)算法识别预测因子。然后构建 Cox 回归模型。进行敏感性分析和内部验证以评估每个模型的性能。计算 C 统计量,并进一步评估模型校准。
我们的机器学习 RSF 算法在 30 天预测中获得了 0.83 的 C 统计量,在 1 年死亡率预测中获得了 0.75 的 C 统计量。此外,还通过 RSF 选择的变量构建了 COX 模型,在预测 2 年和 4 年死亡率时,C 统计量分别为 0.75 和 0.72。术后并发症的存在仍然是短期和长期死亡率的最强危险因素。随着随访时间的延长,骨折部位、高血清肌酐、年龄、高血压、贫血、ASA、低蛋白血症、异常 BUN 和 RDW 等变量变得更加重要。
RSF 机器学习算法代表了一种识别重要风险因素的新方法,并通过该方法构建了髋部骨折手术患者的风险分层模型,以识别那些有长期高死亡率风险的患者。
