Punn Rajesh, Axelrod David M, Sherman-Levine Sara, Roth Stephen J, Tacy Theresa A
Division of Pediatric Cardiology, Department of Pediatrics, Stanford University School of Medicine, Lucile Packard Children's Hospital, Palo Alto, CA.
Pediatr Crit Care Med. 2014 Nov;15(9):870-7. doi: 10.1097/PCC.0000000000000236.
Currently, there are no established echocardiographic or hemodynamic predictors of mortality after weaning venoarterial extracorporeal membrane oxygenation in children. We wished to determine which measurements predict mortality.
Over 3 years, we prospectively assessed six echo and six hemodynamic variables at 3-5 circuit rates while weaning extracorporeal membrane oxygenation flow. Hemodynamic measurements were heart rate, inotropic score, arteriovenous oxygen difference, pulse pressure, oxygenation index, and lactate. Echo variables included shortening/ejection fraction, outflow tract Doppler-derived stroke distance (velocity-time integral), degree of atrioventricular valve regurgitation, longitudinal strain (global longitudinal strain), and circumferential strain (global circumferential strain).
Cardiovascular ICU at Lucille Packard Children's Hospital Stanford, CA.
Patients were stratified into those who died or required heart transplant (Gr1) and those who did not (Gr2). For each patient, we compared the change for each variable between full versus minimum extracorporeal membrane oxygenation flow for each group.
None.
We enrolled 21 patients ranging in age from 0.02 to 15 years. Five had dilated cardiomyopathy, and 16 had structural heart disease with severe ventricular dysfunction. Thirteen of 21 patients (62%) comprised Gr1, including two patients with heart transplants. Eight patients constituted Gr2. Gr1 patients had a significantly greater increase in oxygenation index (35% mean increase; p < 0.01) off extracorporeal membrane oxygenation compared to full flow, but no change in velocity-time integral or arteriovenous oxygen difference. In Gr2, velocity-time integral increased (31% mean increase; p < 0.01), with no change in arteriovenous oxygen difference or oxygenation index. Pulse pressure increased modestly with flow reduction only in Gr1 (p < 0.01).
Failure to augment velocity-time integral or an increase in oxygenation index during the extracorporeal membrane oxygenation weaning is associated with poor outcomes in children. We propose that these measurements should be performed during extracorporeal membrane oxygenation wean, as they may discriminate who will require alternative methods of circulatory support for survival.
目前,尚无已确立的超声心动图或血流动力学指标可预测儿童静脉-动脉体外膜肺氧合(ECMO)撤机后的死亡率。我们希望确定哪些测量指标可预测死亡率。
在3年多的时间里,我们在降低ECMO流量的过程中,以前瞻性方式在3至5个循环速率下评估了6项超声心动图和6项血流动力学变量。血流动力学测量指标包括心率、肌力评分、动静脉血氧差、脉压、氧合指数和乳酸。超声心动图变量包括缩短分数/射血分数、流出道多普勒衍生的搏出距离(速度-时间积分)、房室瓣反流程度、纵向应变(整体纵向应变)和圆周应变(整体圆周应变)。
加利福尼亚州斯坦福大学露西尔·帕卡德儿童医院心血管重症监护病房。
患者被分为死亡或需要心脏移植的患者(第1组)和未死亡或不需要心脏移植的患者(第2组)。对于每位患者,我们比较了每组患者在全流量与最低ECMO流量之间各变量的变化。
无。
我们纳入了21例年龄在0.02至15岁之间的患者。其中5例患有扩张型心肌病,16例患有结构性心脏病并伴有严重心室功能障碍。21例患者中有13例(62%)属于第1组,包括2例接受心脏移植的患者。8例患者属于第2组。与全流量相比,第1组患者在撤离ECMO时氧合指数显著升高(平均升高35%;p<0.01),但速度-时间积分或动静脉血氧差无变化。在第2组中,速度-时间积分升高(平均升高31%;p<0.01),而动静脉血氧差或氧合指数无变化。仅在第1组中,脉压随流量降低而适度升高(p<0.01)。
在ECMO撤机过程中,速度-时间积分未能增加或氧合指数升高与儿童预后不良相关。我们建议在ECMO撤机期间进行这些测量,因为它们可能有助于区分哪些患者需要替代性循环支持方法以维持生存。