同种大鼠工程化心脏组织的心脏移植

W. Zimmermann, M. Didié, G. Wasmeier, U. Nixdorff, A. Hess, Ivan Melnychenko, Oliver Boy, W. Neuhuber, M. Weyand, T. Eschenhagen
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引用次数: 261

摘要

细胞移植已成为治疗传统治疗难治性心脏病的一种新方法。我们假设在移植前通过体外工程心脏组织构建可以改善移植物的存活和功能及电整合。方法与结果将新生Fischer 344大鼠心肌细胞与I型胶原、基质、含血清培养基混合,构建工程化心脏组织(EHT)。eht设计成圆形(内径/外径:8/10 mm;厚度:1毫米)以适应同种大鼠的心脏周长。在培养12天后和未损伤心脏植入前,在等长条件下测量EHT的收缩功能。基线抽动张力为0.34±0.03 mN (n=33), Ca2+和异丙肾上腺素分别刺激至基线值的200±12和185±10%。尽管使用了同源模型,免疫抑制(mg/kg BW:硫唑嘌呤2、环孢素a5、甲基强的松龙2)对于EHT在体内存活是必要的。植入后7、14和28天的超声心动图显示,与术前相比,左心室功能没有变化(n=9)。植入后14天,EHTs血管化严重,并保留了组织良好的心肌结构,这是由肌动蛋白、连接蛋白43和钙粘蛋白的免疫标记所表明的。超微结构分析表明,植入的EHTs超过了植入前的分化程度。EHT移植物的体内收缩功能得以保留。结论sehts可用于组织移植,可作为修复病变心肌的移植材料。
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Cardiac Grafting of Engineered Heart Tissue in Syngenic Rats
BackgroundCell grafting has emerged as a novel approach to treat heart diseases refractory to conventional therapy. We hypothesize that survival and functional and electrical integration of grafts may be improved by engineering cardiac tissue constructs in vitro before grafting. Methods and ResultsEngineered heart tissue (EHT) was reconstituted by mixing cardiac myocytes from neonatal Fischer 344 rats with liquid collagen type I, matrigel, and serum-containing culture medium. EHTs were designed in circular shape (inner/outer diameter: 8/10 mm; thickness: 1 mm) to fit around the circumference of hearts from syngenic rats. After 12 days in culture and before implantation on uninjured hearts, contractile function of EHT was measured under isometric conditions. Baseline twitch tension amounted to 0.34±0.03 mN (n=33) and was stimulated by Ca2+ and isoprenaline to 200±12 and 185±10% of baseline values, respectively. Despite utilization of a syngenic model immunosuppression (mg/kg BW: azathioprine 2, cyclosporine A 5, methylprednisolone 2) was necessary for EHT survival in vivo. Echocardiography conducted 7, 14, and 28 days after implantation demonstrated no change in left ventricular function compared with pre-OP values (n=9). Fourteen days after implantation, EHTs were heavily vascularized and retained a well organized heart muscle structure as indicated by immunolabeling of actinin, connexin 43, and cadherins. Ultrastructural analysis demonstrated that implanted EHTs surpassed the degree of differentiation reached before implantation. Contractile function of EHT grafts was preserved in vivo. ConclusionsEHTs can be employed for tissue grafting approaches and might serve as graft material to repair diseased myocardium.
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