Pediatric Intensive Care Department, Hospital General Universitario Gregorio Marañón, Universidad Complutense Madrid, Spain.
Resuscitation. 2012 Jan;83(1):125-9. doi: 10.1016/j.resuscitation.2011.06.039. Epub 2011 Jul 18.
Bioreactance is a new non-invasive method for cardiac output measurement (NICOM). There are no studies that have analysed the utility of this technique in a pediatric animal model of hemorrhagic shock.
A prospective study was performed using 9 immature Maryland pigs weighing 9 to 12 kg was performed. A Swan-Ganz catheter, a PiCCO catheter and 4 dual surface electrodes were placed at the four corners of the anterior thoracic body surface. Shock was induced by withdrawing a blood volume of 30 mL/kg, and then after, 30 mL/kg of Normal saline was administered. Seven simultaneous measurements of cardiac index (CI) were made by pulmonary artery thermodilution (PATD), Femoral artery thermodilution (FATD), and NICOM before, during, and after hypovolaemia and during and after volume expansion.
The mean difference (bias) of differences (limits of agreement) between PATD and FATD was 0.84 (-1.87-3.51)L/min/1.77 m(2), between PATD and NICOM was 1.95 (-1.79-5.69)L/min/1.77 m(2), and between FATD and NICOM was 1.06 (-1.40-3.52)L/min/1.77 m(2). A moderate correlation was found between PATD and FATD (r=0.43; P=0.01), but no correlation was found between bioreactance and either PATD or FATD. Hypovolemia and volume expansion produced important significant differences in CI as measured by PATD and FATD, while the changes with bioreactance were small and non significant.
PATD and FATD measurements showed similar responses to hypovolemic shock and volume expansion. Bioreactance persistently underestimates the CI and is not significantly altered by either inducing hemorrhagic shock, or later, through volume expansion. Bioreactance is not a suitable method for monitoring the CI in pediatric hemorrhagic shock.
生物电阻抗法是一种新的非侵入性心输出量测量方法(NICOM)。目前尚无研究分析该技术在失血性休克的儿科动物模型中的应用。
采用前瞻性研究方法,选择 9 只 9 至 12 公斤重的马里兰州幼猪。在前胸部的四个角落放置了 Swan-Ganz 导管、PiCCO 导管和 4 个双表面电极。通过抽取 30ml/kg 的血液量来诱导休克,然后再给予 30ml/kg 的生理盐水。在低血容量和容量扩充前后,通过肺动脉热稀释法(PATD)、股动脉热稀释法(FATD)和 NICOM 同时进行 7 次心指数(CI)的测量。
PATD 和 FATD 之间差异的平均差值(偏倚)(一致性界限)为 0.84(-1.87-3.51)L/min/1.77 m2,PATD 和 NICOM 之间的差值为 1.95(-1.79-5.69)L/min/1.77 m2,FATD 和 NICOM 之间的差值为 1.06(-1.40-3.52)L/min/1.77 m2。PATD 和 FATD 之间存在中度相关性(r=0.43;P=0.01),但生物电阻抗与 PATD 或 FATD 之间均无相关性。PATD 和 FATD 测量的 CI 在低血容量和容量扩充时都有显著差异,而生物电阻抗的变化较小且无统计学意义。
PATD 和 FATD 测量对低血容量性休克和容量扩充的反应相似。生物电阻抗持续低估 CI,且无论是通过诱导失血性休克还是随后通过容量扩充,其变化均不明显。生物电阻抗不是监测小儿失血性休克 CI 的合适方法。
