Eveline de Haan, Benthe van Oosten, Veronique A J I M van Rijckevorsel, T Martijn Kuijper, Louis de Jong, Gert R Roukema
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To validate the original CCI and the adjusted CCI, the CCI was plotted against the observed 30-day and 1-year mortality, and the area under the curve (AUC) was calculated.</p><p><strong>Results: </strong>A total of 3523 patients were included in this cohort study. The mean of the original CCI in this cohort was 5.1 (SD ± 2.0) and 4.6 (SD ± 1.9) for the adjusted CCI. The AUCs of the prediction models were 0.674 and 0.696 for 30-day mortality for the original and adjusted CCIs, respectively. The AUCs for 1-year mortality were 0.705 and 0.717 for the original and adjusted CCIs, respectively.</p><p><strong>Conclusions: </strong>A higher original and adjusted CCI is associated with a higher mortality rate. The AUC was relatively low for 30-day and 1-year mortality for both the original and adjusted CCIs compared to other prediction models for hip fracture patients in our cohort. 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引用次数: 0
摘要
简介我们研究的目的是验证原始夏尔森合并症指数(Charlson Comorbidity Index,1987 年)(CCI)和调整后的 CCI(2011 年)作为髋部骨折术后 30 天和 1 年死亡率预测模型的有效性。本研究的第二个目的是验证CCI的每个变量是否与30天和1年死亡率相关:研究使用了荷兰两家二级创伤教学医院的前瞻性数据库。根据病史计算出1987年的原始CCI和调整后的CCI。为了验证原始CCI和调整后的CCI,将CCI与观察到的30天和1年死亡率进行对比,并计算曲线下面积(AUC):这项队列研究共纳入了 3523 名患者。该队列中原始 CCI 的平均值为 5.1(SD ± 2.0),调整后 CCI 的平均值为 4.6(SD ± 1.9)。原始和调整后 CCI 预测模型的 30 天死亡率 AUC 分别为 0.674 和 0.696。原始和调整后的CCI对1年死亡率的AUC分别为0.705和0.717:结论:原始和调整后CCI越高,死亡率越高。与我们队列中髋部骨折患者的其他预测模型相比,原始和调整后 CCI 的 30 天和 1 年死亡率 AUC 相对较低。不建议用CCI预测髋部骨折患者的30天和1年死亡率。
Validation of the Charlson Comorbidity Index for the prediction of 30-day and 1-year mortality among patients who underwent hip fracture surgery.
Introduction: The aim of our study was to validate the original Charlson Comorbidity Index (1987) (CCI) and adjusted CCI (2011) as a prediction model for 30-day and 1-year mortality after hip fracture surgery. The secondary aim of this study was to verify each variable of the CCI as a factor associated with 30-day and 1-year mortality.
Methods: A prospective database of two-level II trauma teaching hospitals in the Netherlands was used. The original CCI from 1987 and the adjusted CCI were calculated based on medical history. To validate the original CCI and the adjusted CCI, the CCI was plotted against the observed 30-day and 1-year mortality, and the area under the curve (AUC) was calculated.
Results: A total of 3523 patients were included in this cohort study. The mean of the original CCI in this cohort was 5.1 (SD ± 2.0) and 4.6 (SD ± 1.9) for the adjusted CCI. The AUCs of the prediction models were 0.674 and 0.696 for 30-day mortality for the original and adjusted CCIs, respectively. The AUCs for 1-year mortality were 0.705 and 0.717 for the original and adjusted CCIs, respectively.
Conclusions: A higher original and adjusted CCI is associated with a higher mortality rate. The AUC was relatively low for 30-day and 1-year mortality for both the original and adjusted CCIs compared to other prediction models for hip fracture patients in our cohort. The CCI is not recommended for the prediction of 30-day and 1-year mortality in hip fracture patients.
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