治疗舒张性心力衰竭的微创左心房辅助装置概念:首次体外和体内评估

Chihiro Miyagi MD, PhD , Taiyo Kuroda MD , Barry D. Kuban BS , Shengquiang Gao PhD , Christine R. Flick BS, BME , Anthony R. Polakowski BS, MEng , Jamshid H. Karimov MD, PhD , Kiyotaka Fukamachi MD, PhD
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引用次数: 0

摘要

方法 采用混流泵作为 LAADx 的工作模型。通过体外脉冲模拟循环回路,使用可通过调节舒张期驱动压力模拟舒张性心力衰竭情况的气动泵,在 3 种速度下对其性能进行了评估。LAADx 模型被植入 4 头健康小牛体内。泵的流入和流出插管分别插入左心房(LA)和左心室(LV),无需心肺旁路。结果在体外研究中,成功诱发了舒张性心力衰竭样病症,表现出心输出量和主动脉压降低,以及 LA 平均压升高,而 LAADx 的支持都缓解了这两种情况。在体内研究方面,模拟舒张性心力衰竭情况显示主动脉压力下降,LA 压力和左心室舒张末压力上升,LAADx 再次缓解了这些情况。结论初步的体外和体内研究结果证实,LAADx 模型是一种通过创建从 LA 到 LV 的心外路径来驱动的设备概念,它具有缓解 LA 压力过高和改善射血分数保留型心力衰竭 LV 充盈的潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

A less-invasive left atrial assist device concept for diastolic heart failure: First in vitro and in vivo assessment

A less-invasive left atrial assist device concept for diastolic heart failure: First in vitro and in vivo assessment

Objective

A less-invasive left atrial assist device (LAADx) is a novel and implantable, extracardiac blood pump concept, intended for the treatment of diastolic heart failure, represented by heart failure with preserved ejection fraction.

Methods

A mixed-flow pump was used as the working LAADx model. Its performance was evaluated at 3 speeds, using an in vitro pulsatile mock circulatory loop, with a pneumatic pump that can simulate diastolic heart failure conditions by adjusting the diastolic drive pressure. The LAADx model was implanted in 4 healthy calves. The pump's inflow and outflow cannulas were inserted into the left atrium (LA) and left ventricle (LV), respectively, without cardiopulmonary bypass. The LAADx was operated at 3 speeds, and diastolic heart failure-like conditions were induced by inflating a balloon, inserted into the LV.

Results

With the in vitro study, diastolic heart failure-like conditions were successfully induced, exhibiting decreased cardiac output and aortic pressure as well as increased mean LA pressure both mitigated with the LAADx support. With regard to the in vivo study, simulated diastolic heart failure conditions showed a decrease in aortic pressure and an increase in LA pressure and LV end-diastolic pressure, which were again mitigated by the LAADx. Echocardiography showed good positioning of the outflow cannula and neither cardiac dysfunction nor mitral interference was observed.

Conclusions

Initial in vitro and in vivo results confirmed that the LAADx model, a device concept driven by creating an extracardiac route from the LA to LV, has the potential to mitigate high LA pressure and improve LV filling of heart failure with preserved ejection fraction pathology.
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