将无细胞三维胶原支架移植到非透壁性梗死心肌上可诱导新生血管形成并减少心脏重塑。

Grafting an acellular 3-dimensional collagen scaffold onto a non-transmural infarcted myocardium induces neo-angiogenesis and reduces cardiac remodeling.

作者信息

Gaballa Mohamed A, Sunkomat Julia N E, Thai Hoang, Morkin Eugene, Ewy Gordon, Goldman Steven

机构信息

Section of Cardiology, University of Arizona Sarver Heart Center, Tucson, Arizona, USA.

出版信息

J Heart Lung Transplant. 2006 Aug;25(8):946-54. doi: 10.1016/j.healun.2006.04.008. Epub 2006 Jul 10.

DOI:10.1016/j.healun.2006.04.008

PMID:16890116

Abstract

BACKGROUND

This study was designed to determine whether tissue engineering could be used to reduce ventricular remodeling in a rat model of non-transmural, non-ST-elevation myocardial infarction.

METHODS

We grafted an acellular 3-dimensional (3D) collagen type 1 scaffold (solid porous foam) onto infarcted myocardium in rats. Three weeks after grafting, the scaffold was integrated into the myocardium and retarded cardiac remodeling by reducing left ventricular (LV) dilation. The LV inner and outer diameters, measured at the equator at zero LV pressure, decreased (p < 0.05) from 11,040 +/- 212 to 9,144 +/- 135 microm, and 13,469 +/- 187 to 11,673 +/- 104 microm (N = 12), after scaffold transplantation onto infarcted myocardium. The scaffold also shifted the LV pressure-volume curve to the left toward control and induced neo-angiogenesis (700 +/- 25 vs 75 +/- 11 neo-vessels/cm2, N = 5, p < 0.05). These vessels (75 +/- 11%) ranged in diameter from 25 to 100 microm and connected to the native coronary vasculature. Systemic treatment with granulocyte-colony stimulating factor (G-CSF), 50 microg/kg/day for 5 days immediately after myocardial injury, increased (p < 0.05) neo-vascular density from 700 +/- 25 to 978 +/- 57 neo-vessels/cm2.

CONCLUSIONS

A 3D collagen type 1 scaffold grafted onto an injured myocardium induced neo-vessel formation and reduced LV remodeling. Treatment with G-CSF further increased the number of vessels in the myocardium, possibly due to mobilization of bone marrow cells.

摘要

背景

本研究旨在确定组织工程技术是否可用于减轻非透壁性、非ST段抬高型心肌梗死大鼠模型的心室重构。

方法

我们将一种脱细胞三维（3D）I型胶原支架（实心多孔泡沫）移植到大鼠梗死心肌上。移植三周后，支架与心肌整合，并通过减少左心室（LV）扩张来延缓心脏重构。在左心室压力为零时，于赤道处测量的左心室内外径在将支架移植到梗死心肌上后减小（p < 0.05），从11,040 ± 212微米降至9,144 ± 135微米，以及从13,469 ± 187微米降至11,673 ± 104微米（N = 12）。该支架还使左心室压力 - 容积曲线向左移向对照组，并诱导了新生血管形成（700 ± 25对75 ± 11个新生血管/平方厘米，N = 5，p < 0.05）。这些血管（75 ± 11%）直径范围为25至100微米，并与天然冠状动脉血管系统相连。在心肌损伤后立即给予粒细胞集落刺激因子（G - CSF）全身治疗，剂量为50微克/千克/天，持续5天，使新生血管密度从700 ± 25增加至978 ± 57个新生血管/平方厘米（p < 0.05）。

结论

移植到受损心肌上的3D I型胶原支架可诱导新生血管形成并减轻左心室重构。G - CSF治疗进一步增加了心肌中的血管数量，这可能是由于骨髓细胞的动员所致。

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将无细胞三维胶原支架移植到非透壁性梗死心肌上可诱导新生血管形成并减少心脏重塑。

Grafting an acellular 3-dimensional collagen scaffold onto a non-transmural infarcted myocardium induces neo-angiogenesis and reduces cardiac remodeling.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

CONCLUSIONS

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结论

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