Algisyl-LVR 心肌内注射治疗猪缺血性心力衰竭的疗效。

Efficacy of intramyocardial injection of Algisyl-LVR for the treatment of ischemic heart failure in swine.

机构信息

California Medical Innovations Institute, Inc., San Diego, CA, USA.

National Heart Centre Singapore, Singapore, Singapore.

出版信息

Int J Cardiol. 2018 Mar 15;255:129-135. doi: 10.1016/j.ijcard.2017.09.179.

DOI:10.1016/j.ijcard.2017.09.179

PMID:29425550

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6211293/

Abstract

BACKGROUND

Progressive thinning and dilation of the LV due to ischemic heart failure (IHF) increases wall stress and myocardial oxygen consumption. Injectable biopolymers implanted in the myocardial wall have been used to increase wall thickness to reduce chamber volume, decrease wall stress, and improve cardiac function. We sought to evaluate the efficacy of a biopolymer (Algisyl-LVR) to prevent left ventricular (LV) remodeling in a swine model of IHF.

METHODS

IHF was induced in 11 swine by occluding the marginal obtuse branches of the left circumflex artery. Eight weeks later, Algisyl-LVR was injected into the LV myocardial free wall in five of the 11 animals. Echocardiographic examinations were done every 2weeks for 16weeks.

RESULTS

Within eight weeks of treatment, the ejection fraction increased from 30.5%±7.7% to 42.4%±3.5% (treated group) vs. 37.3%±3.8% to 34.3%±2.9% (control), p<0.01. Stroke volume increased from 18.5±9.3mL to 41.3±13.3mL (treated group) vs. 25.4±2.3mL to 31.4±5.3mL (control), p<0.05. Wall thickness in end-diastole of the infarcted region changed from 0.69±0.06cm to 0.81±0.13cm (treated group) vs. 0.73±0.09cm to 0.68±0.11cm (control), p<0.05. Sphericity index remained almost unchanged after treatment, although differences were found at the end of the study between both groups (p<0.001). Average myofiber stress changed from 16.3±5.8kPa to 10.2±4.0kPa (treated group) vs. 15.2±4.8kPa to 17.9±5.6kPa (control), p<0.05.

CONCLUSIONS

Algisyl-LVR is an effective strategy that serves as a micro-LV assist device to reduce stress and hence prevent or reverse maladaptive cardiac remodeling caused by IHF in swine.

摘要

背景

由于缺血性心力衰竭 (IHF)，LV 逐渐变薄和扩张，导致壁应力和心肌耗氧量增加。已将可注射的生物聚合物植入心肌壁中，以增加壁厚度来减小腔室容积、降低壁应力和改善心功能。我们旨在评估生物聚合物 (Algisyl-LVR) 在 IHF 猪模型中预防左心室 (LV) 重构的疗效。

方法

通过闭塞左回旋支的边缘钝缘支，在 11 头猪中诱导 IHF。8 周后，将 Algisyl-LVR 注射到 11 只动物中的 5 只 LV 心肌游离壁中。在 16 周内每 2 周进行一次超声心动图检查。

结果

在治疗 8 周内，射血分数从 30.5%±7.7%增加到 42.4%±3.5%（治疗组），而从 37.3%±3.8%增加到 34.3%±2.9%（对照组），p<0.01。每搏量从 18.5±9.3mL 增加到 41.3±13.3mL（治疗组），而从 25.4±2.3mL 增加到 31.4±5.3mL（对照组），p<0.05。梗死区域舒张末期壁厚度从 0.69±0.06cm 增加到 0.81±0.13cm（治疗组），而从 0.73±0.09cm 增加到 0.68±0.11cm（对照组），p<0.05。治疗后球形指数几乎保持不变，尽管在研究结束时两组之间存在差异（p<0.001）。平均肌纤维应力从 16.3±5.8kPa 降低到 10.2±4.0kPa（治疗组），而从 15.2±4.8kPa 增加到 17.9±5.6kPa（对照组），p<0.05。

结论

Algisyl-LVR 是一种有效的策略，可作为微 LV 辅助装置，以降低压力，从而预防或逆转由 IHF 引起的猪适应性心脏重构。

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