外科重症监护病房术后血流感染患者的临床特征和死亡率预测提名图

IF 2.2 4区 医学 Q2 MEDICINE, GENERAL & INTERNAL
Zengli Xiao, Yao Sun, Huiying Zhao, Youzhong An
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引用次数: 0

摘要

背景。血流感染是危重术后病人死亡的主要原因之一。然而,相关数据,尤其是来自发展中国家的数据却非常少。预测术后血流感染相关死亡率的临床决策工具非常重要,但仍然缺乏。目标:分析病原体的分布分析病原体的分布情况,并开发一种用于预测外科重症监护病房术后血流感染患者死亡率的提名图。方法回顾性收集 2017 年 1 月至 2022 年 1 月 SICU 中 PBSI 患者的临床数据、感染和病原体相关数据以及预后。分析了 PBSI 患者的病原体分布和临床特征。根据患者的生存状况将其分为死亡组和存活组。通过单变量和多变量分析确定了死亡率的独立预测因素。根据这些独立预测因素,制定了预测 PBSI 相关死亡的提名图。校准和决策曲线分析用于评估提名图。我们收集了 2022 年 2 月至 2023 年 6 月本中心收治的术后患者作为外部验证集,以验证提名图。我们还增加了 Brier 评分来进一步验证模型。结果在训练集中,我们收集了 7128 名不同类型手术后入住 SICU 的患者。最终共有 198 名患者和 308 种病原体被纳入训练集。PBSI 患者的平均年龄为 64.38 ± 16.22(18-90 岁)岁,56.1% 为男性。45名患者(22.7%)在住院期间死亡。研究人员选择了五个独立的预测指标,包括体重指数(BMI)、APACHE II 评分、估计肾小球滤过率(eGFR)、术后 24 小时内的尿量和血培养阳性前的体温峰值,以建立提名图。预测模型的接收者操作特征曲线下面积为 0.922。校准曲线和决策曲线分析表明提名图性能良好。收集了 70 例 PBSI 患者作为外部验证集,其中 13 例患者死亡。外部验证集用于验证提名图,结果显示 AUC 为 0.930,高于训练集,表明提名图具有良好的分辨能力。训练集的布赖尔评分为 0.087,验证集为 0.050。结论PBSI 是临床医生关注的关键问题之一,可以利用简单的临床因素建立一个良好的预测模型进行评估。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Clinical Characteristics and Nomogram for Predicting Mortality in Patients with Postoperative Bloodstream Infection in Surgical Intensive Care Unit

Background. Bloodstream infection is amongst the leading causes of mortality for critical postoperative patients. However, data, especially from developing countries, are scary. Clinical decision-making tools for predicting postoperative bloodstream infection-related mortality are important but still lacking. Objective. To analyze the distribution of pathogens and develop a nomogram for predicting mortality in patients with postoperative bloodstream infection in the surgical intensive care unit. Methods. The clinical data, infection and pathogen-related data, and prognosis of patients with PBSI in the SICU from January 2017 to January 2022 were retrospectively collected. The distribution of pathogens and clinical characteristics of patients with PBSI were analyzed. The patients were assigned to a died group and a survived group according to their survival status. Independent predictors for mortality were identified by univariate and multivariate analyses. A nomogram for predicting PBSI-related death was developed based on these independent predictors. Calibration and decision-curve analysis were established to evaluate the nomogram. We collected postoperative patients admitted to our center from February 2022 to June 2023 as external validation sets to verify the nomogram. We also add the Brier score to further validate the model. Results. In the training set, 7128 patients admitted to the SICU after different types of surgery were collected. A total of 198 patients and 308 pathogens were finally enrolled. The mean age of patients with PBSI was 64.38 ± 16.22 (range 18–90) years, and 56.1% were male. Forty-five patients (22.7%) died in the hospital. Five independent predictors including BMI, APACHE II score, estimated glomerular filtration rate (eGFR), urine volume in the first 24 hours after surgery, and peak temperature before positive blood cultures were selected to establish the nomogram. The area under the receiver operating characteristic curve for the prediction model was 0.922. Calibration curve and decision curve analysis showed good performance of the nomogram. Seventy patients with PBSI were collected as an external validation set, and thirteen patients died in this set. The external validation set was used to validate the nomogram, and the results showed that the AUC was 0.930 which was higher than that in the training set indicating that the nomogram had a good discrimination. The brier score was 0.087 for training set and 0.050 for validation set. Conclusions. PBSI was one of the key issues that clinicians were concerned and could be assessed with a good predictive model using simple clinical factors.

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来源期刊
CiteScore
5.30
自引率
0.00%
发文量
274
审稿时长
3-8 weeks
期刊介绍: IJCP is a general medical journal. IJCP gives special priority to work that has international appeal. IJCP publishes: Editorials. IJCP Editorials are commissioned. [Peer reviewed at the editor''s discretion] Perspectives. Most IJCP Perspectives are commissioned. Example. [Peer reviewed at the editor''s discretion] Study design and interpretation. Example. [Always peer reviewed] Original data from clinical investigations. In particular: Primary research papers from RCTs, observational studies, epidemiological studies; pre-specified sub-analyses; pooled analyses. [Always peer reviewed] Meta-analyses. [Always peer reviewed] Systematic reviews. From October 2009, special priority will be given to systematic reviews. [Always peer reviewed] Non-systematic/narrative reviews. From October 2009, reviews that are not systematic will be considered only if they include a discrete Methods section that must explicitly describe the authors'' approach. Special priority will, however, be given to systematic reviews. [Always peer reviewed] ''How to…'' papers. Example. [Always peer reviewed] Consensus statements. [Always peer reviewed] Short reports. [Always peer reviewed] Letters. [Peer reviewed at the editor''s discretion] International scope IJCP publishes work from investigators globally. Around 30% of IJCP articles list an author from the UK. Around 30% of IJCP articles list an author from the USA or Canada. Around 45% of IJCP articles list an author from a European country that is not the UK. Around 15% of articles published in IJCP list an author from a country in the Asia-Pacific region.
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