Li Wei, Chen Xufeng, Mei Yong, Lyu Jinru, Hu Deliang, Sun Feng, Zhang Gang, Zhang Huazhong, Zhang Jinsong
Department of Emergency Medicine, the First Affiliated Hospital of Nanjing Medical University (Jiangsu Provincial People's Hospital), Nanjing 210029, Jiangsu, China. Corresponding author: Zhang Jinsong, Email:
Zhonghua Wei Zhong Bing Ji Jiu Yi Xue. 2020 Sep;32(9):1091-1095. doi: 10.3760/cma.j.cn121430-20200630-00494.
To explore the changing trend of cardiac troponin T (cTnT) in patients with cardiogenic shock (CS) receiving veno-arterial extracorporeal membrane oxygenation (V-A ECMO) and its predictive value.
A retrospective study was conducted. The data of patients with CS receiving V-A ECMO admitted to the First Affiliated Hospital of Nanjing Medical University from March 2015 to May 2020 were enrolled. The baseline data, ECMO related parameters, serum cTnT levels at 1, 2, 3 days after ECMO and intensive care unit (ICU) prognosis were recorded. The parameters with clinical significance and significant difference in univariate analysis were analyzed by binary multivariate Logistic regression analysis. Meanwhile, receiver operating characteristic (ROC) curve was drawn, area under ROC curve (AUC) was analyzed, and the threshold, sensitivity and specificity of serum cTnT level and its reduction rate for predicting clinical outcome were evaluated.
A total of 72 patients were enrolled, of which 42 survived and 30 died at ICU discharge, and the ICU mortality was 41.7%. Univariate analysis results: compared with the survival group, the patients in the death group had higher acute physiology and chronic health evaluation II (APACHE II) score [32 (30, 34) vs. 29 (25, 30)], and the incidence of cardiac arrest before ECMO (70.0% vs. 31.0%), the ratios of invasive mechanical ventilation and continuous renal replacement therapy during ECMO were higher (96.7% vs. 66.7%, 83.3% vs. 42.9%), and the differences were statistically significant (all P < 0.05). Serum cTnT levels (ng/L) at 2 days and 3 days after ECMO in the death group were significantly higher than those in the survival group [2 days: 6 373.5 (898.3, 15 251.5) vs. 1 760.5 (933.0, 4 257.8), 3 day: 6 202.0 (758.9, 16 554.3) vs. 1 678.0 (623.3, 3 407.8), both P < 0.05], and the decrease rates of cTnT within 2 days and 3 days after ECMO were significantly lower than those in the survival group [2 days: 17.3% (-44.2%, 34.7%) vs. 36.8% (18.1%, 60.6%), 3 days: 32.4% (-30.0%, 55.5%) vs. 53.2% (38.3%, 72.3%), both P < 0.05]. Binary multivariate Logistic regression analysis showed that cardiac arrest before ECMO [odds ratio (OR) = 4.564, 95% confidence interval (95%CI) was 1.212-17.193, P = 0.025] and the decrease rate of cTnT level within 2 days after ECMO (OR = 1.617, 95%CI was 1.144-4.847, P = 0.026) were independent prognostic risk factors for the ICU death of CS patients receiving V-A ECMO. ROC curve analysis showed that the decline rate of cTnT within 2 days after ECMO transfer had a certain predictive value for the ICU death of CS patients receiving V-A ECMO. The AUC was 0.704 (95%CI was 0.584-0.824). The optimal diagnostic threshold was 40.0%, the sensitivity was 86.7%, the specificity was 52.4%, the positive predictive value was 66.9%, and the negative predictive value was 89.1%.
The early decline rate of cTnT in CS patients who received V-A ECMO treatment in death group was lower than that of survival patients. The cTnT decline rate 2 days after ECMO was an independent risk factor for the death of such patients.
探讨心源性休克(CS)患者接受静脉-动脉体外膜肺氧合(V-A ECMO)治疗时心肌肌钙蛋白T(cTnT)的变化趋势及其预测价值。
进行一项回顾性研究。纳入2015年3月至2020年5月在南京医科大学第一附属医院接受V-A ECMO治疗的CS患者的数据。记录基线数据、ECMO相关参数、ECMO后1、2、3天的血清cTnT水平以及重症监护病房(ICU)预后情况。对单因素分析中有临床意义且差异有统计学意义的参数进行二元多因素Logistic回归分析。同时绘制受试者工作特征(ROC)曲线,分析ROC曲线下面积(AUC),评估血清cTnT水平及其下降率预测临床结局的阈值、敏感性和特异性。
共纳入72例患者,其中42例存活出院,30例在ICU出院时死亡,ICU死亡率为41.7%。单因素分析结果:与存活组相比,死亡组患者急性生理与慢性健康状况评分II(APACHE II)更高[32(30,34)比29(25,30)],ECMO前心脏骤停发生率更高(70.0%比31.0%),ECMO期间有创机械通气和持续肾脏替代治疗的比例更高(96.7%比66.7%,83.3%比42.9%),差异均有统计学意义(均P<0.05)。死亡组ECMO后2天和3天的血清cTnT水平(ng/L)显著高于存活组[2天:6373.5(898.3,15251.5)比1760.5(933.0,4257.8),3天:6202.0(758.9,16554.3)比1678.0(623.3,3407.8),均P<0.05],且ECMO后2天和3天cTnT的下降率显著低于存活组[2天:17.3%(-44.2%,34.7%)比36.8%(18.1%,60.6%),3天:32.4%(-30.0%,55.5%)比53.2%(38.3%,72.3%),均P<0.05]。二元多因素Logistic回归分析显示,ECMO前心脏骤停[比值比(OR)=4.564,95%置信区间(95%CI)为1.212 - 17.193,P = 0.025]和ECMO后2天内cTnT水平下降率(OR = 1.617,95%CI为1.144 - 4.847,P = 0.026)是接受V-A ECMO治疗的CS患者ICU死亡的独立预后危险因素。ROC曲线分析显示,ECMO转流后2天内cTnT下降率对接受V-A ECMO治疗的CS患者ICU死亡有一定预测价值。AUC为0.704(95%CI为0.584 - 0.824)。最佳诊断阈值为40.0%,敏感性为86.7%,特异性为52.4%,阳性预测值为66.9%,阴性预测值为89.1%。
接受V-A ECMO治疗的CS患者中,死亡组cTnT早期下降率低于存活患者。ECMO后2天cTnT下降率是此类患者死亡的独立危险因素。
