Kugelman Amir, Gangitano Ernesto, Taschuk Ray, Garza Raul, Riskin Arieh, McEvoy Cindy, Durand Manuel
Department of Pediatrics, Huntington Memorial Hospital, Pasadena, CA, USA.
J Pediatr Surg. 2005 Jul;40(7):1082-9. doi: 10.1016/j.jpedsurg.2005.03.045.
Despite the emergence of new therapies for respiratory failure of the newborn with meconium aspiration syndrome (MAS), extracorporeal membrane oxygenation (ECMO) has a significant role as a rescue modality in these infants. Our objective was to compare the use of venovenous (VV) vs venoarterial (VA) ECMO in newborns with MAS who need ECMO and to ascertain the impact of new therapies in these infants during the last decade. We also evaluated how disease severity or time of ECMO initiation affected mortality and morbidity.
A report of 12 years experience (1990-2002) of a single center, comparing VV and VA ECMO, is given. Venovenous ECMO was the preferred rescue modality for respiratory failure unresponsive to maximal medical therapy. Venoarterial ECMO was used only when the placement of a VV ECMO 14-F catheter was not possible; 128 patients met ECMO criteria, 114 were treated with VV ECMO, and 12 with VA ECMO. Two patients were converted from VV to VA ECMO.
Venovenous and VA ECMO patients had comparable birth weight (mean +/- SEM, 3.48 +/- 0.05 vs 3.35 +/- 0.15 kg) and gestational age (40.3 +/- 0.1 vs 40.7 +/- 0.3 weeks). Before ECMO, there was no difference between VV and VA ECMO patients in oxygenation index (60 +/- 3 vs 63 +/- 8), mean airway pressure (19.5 +/- 0.4 vs 20.8 +/- 1.5 cm H2O), alveolar-arterial O2 gradient (630 +/- 2 vs 632 +/- 4 torr), ECMO cannulation age (median [25th-75th percentiles], 23 [14-47] vs 26 [14-123] hours), or in the % of patients who needed vasopressors/inotropes (98% vs 100%). From November 1994, inhaled nitric oxide (NO) was available. Before VV ECMO, 67% of the patients received NO, 24% received surfactant, and 48% were treated with high-frequency ventilation (HFV). There was no significant difference between VV and VA ECMO patients in survival rate (94% vs 92%), ECMO duration (88 [64-116] vs 94 [55-130] hours), time of extubation (9 [7-11] vs 14 [9-15] days), age at discharge (23 [18-30] vs 27 [15-41] days), or incidence of short-term intracranial complications (5.3% vs 16.7%). For the total cohort of 126 infants, indices of disease severity (oxygenation index, alveolar-arterial O 2 gradient, mean airway pressure) did not correlate with outcome measures. Delay in ECMO initiation (> 96 hours) was associated with prolonged mechanical ventilation and hospitalization (P < .01). New therapies (NO, HFV, surfactant) in the second part of the decade were associated with a longer ECMO duration (98 [80-131] vs 87 [60-116] hours; P < .05), no delay in ECMO initiation time (23 [10-40] vs 24 [14-52] hours), and no significant change in survival (97% vs 92.5%). No patient was treated with VA ECMO after 1994.
Venovenous ECMO is as reliable as VA ECMO in newborns with MAS in severe respiratory failure who need ECMO. Delay in ECMO initiation may result in prolonged mechanical ventilation and increased length of hospital stay. The emergence of new conventional therapies (NO, HFV, surfactant) and particularly increased experience enable sole use of VV ECMO with no significant change in survival in infants with MAS.
尽管针对胎粪吸入综合征(MAS)所致新生儿呼吸衰竭出现了新的治疗方法,但体外膜肺氧合(ECMO)在这些婴儿的抢救中仍发挥着重要作用。我们的目的是比较需要ECMO的MAS新生儿中静脉 - 静脉(VV)与静脉 - 动脉(VA)ECMO的使用情况,并确定过去十年中这些婴儿新治疗方法的影响。我们还评估了疾病严重程度或开始ECMO的时间如何影响死亡率和发病率。
给出了一个单中心12年(1990 - 2002年)的经验报告,比较了VV和VA ECMO。静脉 - 静脉ECMO是对最大程度的药物治疗无反应的呼吸衰竭的首选抢救方式。仅在无法放置14F的VV ECMO导管时才使用静脉 - 动脉ECMO;128例患者符合ECMO标准,114例接受VV ECMO治疗,12例接受VA ECMO治疗。2例患者从VV转为VA ECMO。
VV和VA ECMO患者的出生体重(均值±标准误,3.48±0.05 vs 3.35±0.15 kg)和胎龄(40.3±0.1 vs 40.7±0.3周)相当。在ECMO之前,VV和VA ECMO患者在氧合指数(60±3 vs 63±8)、平均气道压(19.5±0.4 vs 20.8±1.5 cm H₂O)、肺泡 - 动脉氧梯度(630±2 vs 632±4 torr)、ECMO插管年龄(中位数[第25 - 75百分位数],23 [14 - 47] vs 26 [14 - 123]小时)或需要血管加压药/血管活性药物的患者百分比(98% vs 100%)方面无差异。从1994年11月起,可使用吸入一氧化氮(NO)。在VV ECMO之前,67%的患者接受NO治疗,24%接受表面活性剂治疗,48%接受高频通气(HFV)治疗。VV和VA ECMO患者在生存率(94% vs 92%)、ECMO持续时间(88 [64 - 116] vs 94 [55 - 130]小时)、拔管时间(9 [7 - 当ECMO开始延迟(> 96小时)与机械通气和住院时间延长相关(P < 0.01)。十年后半期的新治疗方法(NO、HFV、表面活性剂)与更长的ECMO持续时间(98 [80 - 131] vs 87 [60 - 116]小时;P < 0.05)、ECMO开始时间无延迟(23 [10 - 40] vs 24 [14 - 52]小时)以及生存率无显著变化(97% vs 92.5%)相关。1994年后没有患者接受VA ECMO治疗。
对于需要ECMO的严重呼吸衰竭的MAS新生儿,静脉 - 静脉ECMO与静脉 - 动脉ECMO一样可靠。ECMO开始延迟可能导致机械通气时间延长和住院时间增加。新的传统治疗方法(NO、HFV、表面活性剂)的出现,尤其是经验的增加,使得仅使用VV ECMO时,MAS婴儿的生存率无显著变化。
