Lang Shih-Shan, Valeri Amber, Storm Phillip B, Heuer Gregory G, Tucker Alexander M, Kennedy Benjamin C, Kozyak Benjamin W, Sinha Anjuli, Kilbaugh Todd J, Huh Jimmy W
1Division of Neurosurgery, Children's Hospital of Philadelphia, Department of Neurosurgery, University of Pennsylvania, Perelman School of Medicine, Philadelphia.
2Center for Data Driven Discovery in Biomedicine, Children's Hospital of Philadelphia, Philadelphia.
J Neurosurg Pediatr. 2021 Jul 9;28(3):335-343. doi: 10.3171/2021.2.PEDS2142. Print 2021 Sep 1.
Single-ventricle congenital heart disease (CHD) in pediatric patients with Glenn and Fontan physiology represents a unique physiology requiring the surgical diversion of the systemic venous return from the superior vena cava (Glenn) and then the inferior vena cava (Fontan) directly to the pulmonary arteries. Because many of these patients are on chronic anticoagulation therapy and may have right-to-left shunts, arrhythmias, or lymphatic disorders that predispose them to bleeding and/or clotting, they are at risk of experiencing neurological injury requiring intubation and positive pressure ventilation, which can significantly hamper pulmonary blood flow and cardiac output. The aim of this study was to describe the complex neurological and cardiopulmonary interactions of these pediatric patients after acute central nervous system (CNS) injury.
The authors retrospectively analyzed the records of pediatric patients who had been admitted to a quaternary children's hospital with CHD palliated to bidirectional Glenn (BDG) or Fontan circulation and acute CNS injury and who had undergone intubation and mechanical ventilation. Patients who had been admitted from 2005 to 2019 were included in the study. Clinical characteristics, surgical outcomes, cardiovascular and pulmonary data, and intracranial pressure data were collected and analyzed.
Nine pediatric single-ventricle patients met the study inclusion criteria. All had undergone the BDG procedure, and the majority (78%) were status post Fontan palliation. The mean age was 7.4 years (range 1.3-17.3 years). At the time of acute CNS injury, which included traumatic brain injury, intracranial hemorrhage, and cerebral infarct, the median time interval from the most recent cardiac surgical procedure was 3 years (range 2 weeks-11 years). Maintaining normocarbia to mild hypercarbia for most patients during intubation periods did not cause neurological deterioration, and hemodynamic profiles were more favorable as compared to periods of hypocarbia. Hypocarbia was associated with unfavorable hemodynamics but was necessary to decrease intracranial hypertension. Most patients were managed using low mean airway pressure (MAWP) in order to minimize the impact on preload and cardiac output.
The authors highlight the complex neurological and cardiopulmonary interactions with respect to partial pressure of arterial CO2 (PaCO2) and MAWP when pediatric CHD patients with single-ventricle physiology require mechanical ventilation. The study data demonstrated that tight control of PaCO2 and minimizing MAWP with the goal of early extubation may be beneficial in this population. A multidisciplinary team of pediatric critical care intensivists, cardiac intensivists and anesthesiologists, and pediatric neurosurgeons and neurologists are recommended to ensure the best possible outcomes.
患有单心室先天性心脏病(CHD)且具有格林(Glenn)和Fontan循环生理状态的儿科患者代表了一种独特的生理状态,需要通过手术将体循环静脉回流从 superior vena cava(格林分流术),然后从 inferior vena cava(Fontan手术)直接转流至肺动脉。由于这些患者中的许多人正在接受长期抗凝治疗,并且可能存在右向左分流、心律失常或淋巴系统疾病,这些因素使他们易于出血和/或凝血,他们有发生神经损伤的风险,需要进行气管插管和正压通气,而这会显著阻碍肺血流量和心输出量。本研究的目的是描述这些儿科患者在急性中枢神经系统(CNS)损伤后的复杂神经和心肺相互作用。
作者回顾性分析了一家四级儿童医院收治的患有CHD且已姑息至双向格林(BDG)或Fontan循环并发生急性CNS损伤且接受了气管插管和机械通气的儿科患者的记录。纳入了2005年至2019年入院的患者。收集并分析了临床特征、手术结果、心血管和肺部数据以及颅内压数据。
9名儿科单心室患者符合研究纳入标准。所有患者均接受了BDG手术,大多数(78%)患者处于Fontan姑息术后状态。平均年龄为7.4岁(范围1.3 - 17.3岁)。在发生急性CNS损伤时,包括创伤性脑损伤、颅内出血和脑梗死,距最近一次心脏手术的中位时间间隔为3年(范围2周 - 11年)。在大多数患者的插管期间维持正常碳酸血症至轻度高碳酸血症不会导致神经功能恶化,并且与低碳酸血症时期相比,血流动力学状况更有利。低碳酸血症与不良血流动力学相关,但对于降低颅内高压是必要的。大多数患者采用低平均气道压(MAWP)进行管理,以尽量减少对前负荷和心输出量的影响。
作者强调了患有单心室生理状态的儿科CHD患者需要机械通气时,动脉血二氧化碳分压(PaCO2)和MAWP方面复杂的神经和心肺相互作用。研究数据表明,以早期拔管为目标严格控制PaCO2并尽量降低MAWP可能对该人群有益。建议由儿科重症监护专家、心脏重症专家和麻醉医生以及儿科神经外科医生和神经科医生组成的多学科团队来确保获得最佳结果。
