Experience with percutaneous right ventricular support in the early post-left ventricular assist device implantation period (clinical case report and literature reviews)

V. Poptsov, E. Spirina, D. Ryabtsev, A. K. Solodovnikova, A. S. Epremian
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Abstract

Implantable left ventricular assist device (LVAD) is a state-of-the-art treatment for adults and children with end-stage heart failure. The early and late period after LVAD implantation can be severely complicated. Right ventricular failure (RVF) still remains a common complication after LVAD implantation. RVF is the cause of reduced post-implant survival. We suggest that an additional temporary or permanent right ventricular assist device (RVAD) is an effective treatment for LVAD-associated RVF. In this clinical case report, we describe the medical history of a pediatric patient (14 years old) with severe heart failure (PediMACS Level 1) against a background of dilated cardiomyopathy. The patient required peripheral venoarterial extracorporeal membrane oxygenation (VA-ECMO) prior to urgent LVAD (HM3) implantation. In the early post-LVAD implantation (1 POD) period, the patient presented with hemodynamic and echocardiographic events of acute RVF that was resistant to drug therapy (inotropic/vasopressor support, iNO) and required mechanical circulatory support (MCS) with a preoperatively implanted VA-ECMO. In the LVAD-associated RVF scenario, VA-ECMO as a means of total cardiac bypass is a non-physiological MCS method and, therefore, undesirable. In this clinical situation, our solution was to use a paracorporeal centrifugal blood pump for temporary right heart support. A RVAD was assembled using percutaneous cannulation in two sites and a modification of the pre-existing VA-ECMO circuit. For RVAD, we used an ECMO cannula previously installed through the femoral vein (26 F) and added a reverse venous cannula (22 F) through the right internal jugular vein into the pulmonary trunk. To facilitate the passage of the return cannula into the pulmonary artery, we used a contralateral sheath (6 F, 40 cm) and an Amplatz Super Stiff guidewire under radiological control. The oxygenator was removed from the circuit on day 2 of RVAD. Central hemodynamics (reduction in right atrial pressure (RAP) to 10 mm Hg, increase in pulmonary capillary wedge pressure (PCWP) to 14 mm Hg), as well as right ventricular (RV) and left ventricular (LV) volume characteristics all improved. These observations allowed us to optimize the performance of the implantable LVAD (increase in flow rate to 4.2 l/min or 2.1 l/min/m2). The duration of paracorporeal RVAD after LVAD implantation was 7 days with an average flow rate of 2.3 ± 0.2 l/min. Postoperative treatment in the intensive care unit (ICU) lasted for 15 days. The patient was discharged from the hospital on postoperative day 34.
左室辅助装置植入后早期经皮右室支持的体会(临床病例报告及文献复习)
植入式左心室辅助装置(LVAD)是一种最先进的治疗成人和儿童终末期心力衰竭。LVAD植入后的早期和后期可能严重复杂。右心室衰竭(RVF)仍然是LVAD植入后常见的并发症。裂谷热是导致植入后存活率降低的原因。我们建议额外的临时或永久性右心室辅助装置(RVAD)是lvad相关RVF的有效治疗方法。在这个临床病例报告中,我们描述了一名14岁的儿童患者的病史,他患有严重的心力衰竭(PediMACS 1级),背景是扩张性心肌病。在紧急LVAD (HM3)植入之前,患者需要外周静脉体外膜氧合(VA-ECMO)。在lvad植入后早期(1 POD)期间,患者出现急性裂谷热的血流动力学和超声心动图事件,对药物治疗(肌力/血管加压支持,iNO)有耐药性,需要术前植入VA-ECMO的机械循环支持(MCS)。在lvad相关的RVF情况下,VA-ECMO作为全心搭桥的一种非生理性MCS方法,因此是不可取的。在这种临床情况下,我们的解决方案是使用一个体外离心血泵来临时支持右心脏。RVAD通过两个部位的经皮插管和预先存在的VA-ECMO回路的修改组装。对于RVAD,我们使用了先前通过股静脉(26 F)安装的ECMO套管,并通过右颈内静脉进入肺动脉干添加了一个反向静脉套管(22 F)。为了方便插管进入肺动脉,我们在放射控制下使用对侧鞘(6 F, 40 cm)和Amplatz Super Stiff导丝。在RVAD第2天将氧合器从回路中取出。中心血流动力学(右房压(RAP)降至10 mm Hg,肺毛细血管楔压(PCWP)升高至14 mm Hg),右心室(RV)和左心室(LV)容积特性均改善。这些观察结果使我们能够优化植入式LVAD的性能(将流量增加到4.2 l/min或2.1 l/min/m2)。副躯体RVAD植入后持续时间为7 d,平均流量为2.3±0.2 l/min。术后在重症监护室(ICU)治疗15天。患者于术后第34天出院。
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