Wang Hongwei, Sha Xin, Zhang Sisen, Jiao Xianfa, Zhao Longxian, Cen Yingxin, Song Wei, Li Jing, Wang Lixiang
Department of Emergency and Critical Care Medicine, Affiliated Zhengzhou People's Hospital, Southern Medical University, Zhengzhou 450003, Henan, China [Wang HW, Sha X, Zhang SS, Cen YX, (Wang HW and Cen YX are Master of reading at the Second School of Clinical Medicine in Southern Medical University, Sha X is master of reading at Xinxiang Medical University)]; Department of Emergency, Sanmenxia Central Hospital, Sanmenxia 472000, Henan, China (Zhao LX); Hainan Provincial People's Hospital Emergency Medical Center, Haikou 570311, Hainan, China (Song W); Beijing GMR Medical Equipment Company, Ltd. Beijing 100038, China (Li J); Emergency Medical Center, China Armed Police General Hospital, Beijing 100039, China (Wang LX). Corresponding author: Zhang Sisen, Email:
Zhonghua Wei Zhong Bing Ji Jiu Yi Xue. 2018 Feb;30(2):117-122. doi: 10.3760/cma.j.issn.2095-4352.2018.02.005.
To explore the predictive value of partial pressure of end-tidal carbon dioxide (PCO) on the effect of active abdominal compression-decompression cardiopulmonary resuscitation (AACD-CPR) and serum S100B protein on cerebral function.
142 adult patients with in-hospital cardiac arrest (IHCA) AACD-CPR in Zhengzhou People's Hospital, Affiliated Southern Medical University from September 2014 to December 2017 were enrolled. Patients were divided into successful group and failure group according to restoration of spontaneous circulation (ROSC) or not; and then according to Glasgow-Pittsburgh cerebral performance categories (CPC) one month after ROSC, the successful group was divided into good prognosis group (CPC 1-2) and poor prognosis group (CPC 3-5) further. The variations of hemodynamic, arterial blood gas index, PCO and serum S100B protein level (25 healthy subjects as normal S100B protein level reference value) during the recovery were analyzed. The predictive value of PCO on the effect of AACD-CPR and serum S100B protein on cerebral function of successful resuscitation patients were analyzed by receiver operating characteristic curve (ROC).
(1) According to the traditional qualitative indexes, such as pulsation of the large artery, redness of lips and extremities, spontaneous fluctuation of chest, narrowing of pupil, existence of shallow reflex, etc, 54 in 142 patients with IHCA were successfully resuscitated; 57 cases were successfully resuscitated through the guidance of PCO, there was no significant difference between the two groups (χ = 0.133, P = 0.715). With the AACD-CPR, 142 CA patients' arterial partial pressure of oxygen (PaO), arterial blood carbon dioxide partial pressure (PaCO) were all improved with different degrees; heart rate (HR), mean arterial pressure (MAP), PaO and PaCO were further improved at 20 minutes after ROSC. At beginning of AACD-CPR, PCO of both groups were about 10 mmHg (1 mmHg = 0.133 kPa). PCO was gradually rising to above 20 mmHg in successful group during AACD-CPR process; the failed group increased slightly within 2-5 minutes, then gradually decreased to below 20 mmHg, there was a significant difference in PCO between the two groups at each time. The area under the ROC (AUC) of PCO at CPR 20 minutes in predicting the outcome of the resuscitation was 0.969, 95% confidence interval (95%CI) was 0.943-0.995 (P = 0.000), when the cut-off value of PCO was 24.25 mmHg, the sensitivity was 90.7%, and the specificity was 96.6%. (2) The level of serum S100B protein at 0.5 hour after ROSC in the good prognosis group and the poor prognosis group were significant higher than that of the normal control group; there was no significant difference between poor prognosis group and good prognosis group. S100B protein concentration of the poor prognosis group reached the peak within 3-6 hours, then gradually decreased, and was higher than that of the normal control group at ROSC 72 hours; the good prognosis was gradually decreased and recovered to normal control group within ROSC 72 hours. The AUC of S100B at 3 hours after ROSC on cerebral function prognosis prediction was 0.925, 95%CI was 0.867-0.984 (P = 0.000), when the cut-off value of S100B protein was 1.215 μg/L, the sensitivity was 85.2%, and the specificity was 85.5%.
The variation of PCO can be used as an objective index to predict the success of AACD-CPR, and serum S100B protein can be used as an objective clinical index to predict cerebral function after AACD-CPR, both of which have some reference and guiding significance for clinical treatment.
探讨呼气末二氧化碳分压(PCO)对主动腹部按压 - 减压心肺复苏(AACD - CPR)效果的预测价值及血清S100B蛋白对脑功能的影响。
选取2014年9月至2017年12月在南方医科大学附属郑州人民医院行AACD - CPR的142例成年住院心脏骤停(IHCA)患者。根据自主循环恢复(ROSC)情况将患者分为成功组和失败组;再根据ROSC后1个月的格拉斯哥 - 匹兹堡脑功能分类(CPC),将成功组进一步分为预后良好组(CPC 1 - 2)和预后不良组(CPC 3 - 5)。分析复苏过程中血流动力学、动脉血气指标、PCO及血清S100B蛋白水平(25名健康受试者作为正常S100B蛋白水平参考值)的变化。采用受试者工作特征曲线(ROC)分析PCO对AACD - CPR效果及血清S100B蛋白对成功复苏患者脑功能的预测价值。
(1)根据大动脉搏动、口唇及四肢红润、胸廓自主起伏、瞳孔缩小、浅反射存在等传统定性指标,142例IHCA患者中54例成功复苏;57例在PCO指导下成功复苏,两组间差异无统计学意义(χ² = 0.133,P = 0.715)。行AACD - CPR后,142例CA患者的动脉血氧分压(PaO)、动脉血二氧化碳分压(PaCO)均有不同程度改善;ROSC后20分钟心率(HR)、平均动脉压(MAP)、PaO及PaCO进一步改善。AACD - CPR开始时,两组PCO均约为10 mmHg(1 mmHg = 0.133 kPa)。成功组在AACD - CPR过程中PCO逐渐升至20 mmHg以上;失败组在2 - 5分钟内略有升高,随后逐渐降至20 mmHg以下,两组各时间点PCO差异有统计学意义。CPR 20分钟时PCO预测复苏结局的ROC曲线下面积(AUC)为0.969,95%置信区间(95%CI)为0.943 - 0.995(P = 0.000),当PCO截断值为24.25 mmHg时,灵敏度为90.7%,特异度为96.6%。(2)预后良好组和预后不良组ROSC后0.5小时血清S100B蛋白水平均显著高于正常对照组;预后不良组与预后良好组间差异无统计学意义。预后不良组S100B蛋白浓度在3 - 6小时达峰值,随后逐渐下降,ROSC 72小时时仍高于正常对照组;预后良好组逐渐下降,ROSC 72小时内恢复至正常对照组水平。ROSC后3小时S100B预测脑功能预后的AUC为0.925,95%CI为0.867 - 0.984(P = 0.000),当S100B蛋白截断值为1.215 μg/L时,灵敏度为85.2%,特异度为85.5%。
PCO变化可作为预测AACD - CPR成功的客观指标,血清S100B蛋白可作为预测AACD - CPR后脑功能的客观临床指标,两者对临床治疗均有一定参考和指导意义。
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