Early tissue growth and cell fate determination following segmental esophageal repair using a tissue engineered esophageal implant composed of a polyurethane scaffold seeded with autologous adipose-derived mesenchymal stromal cells

Sumati Sundaram , Karissa L. Paquin , Tina Roffidal , Greg Booker , Sherif Soliman , Jeff Bouchard , Elisaveta Todorova , Brett G. Zani , Raffaele Melidone , Saverio La Francesca , William Fodor
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Abstract

Introduction

End-stage or chronic esophageal disease may eventually lead to surgical intervention and could potentially result in an esophagectomy, followed by a gastric pull-up or colon interposition procedure. Biostage's Cellspan™ Esophageal Implant (CEI) is designed to repair and replace full-circumferential esophageal surgical resections (≤6 cm) using autologous adipose derived mesenchymal stromal cells (Ad-MSCs) seeded on a retrievable polyurethane scaffold. The use of a segmental implant has the advantage of preserving the native non-diseased esophageal tissue as well as the stomach or intestinal tissue following esophagectomy. The mechanism of action, the fate of the Ad-MSC component (biodistribution) and the process of early tissue regrowth/wound repair following implantation remains to be elucidated.

Methods

CEIs seeded with Ad-MSCs transduced with green fluorescent protein (GFP) were implanted into a pig model of esophageal segmental resection. A 5 cm full-circumferential esophageal resection was performed followed by CEI implantation using an end-to-end anastomoses to bridge the gap between the 2 native esophageal ends. Cell fate and tissue development were assessed at 14 (N = 3), 21 (N = 3), and 28 days (N = 3), post-CEI implantation.

Results

All animals in all groups exhibited a contiguous biologic esophageal conduit with a denuded patent lumen at necropsy. Epithelial cell proliferation/regrowth was evident from both anastomotic margins toward the implant center. Morphometric analysis indicated an increase in epithelial regrowth and a concomitant reduction in denuded tissue from day 14 to day 28. Histological evaluation revealed fibrovascular tissue and neovascularization on the adventitial side, with no discernible differences in tissue organization between 14 and 28 day implants. The majority of GFP + cells were on the abluminal esophageal surface and localized around vascular structures. No GFP + cells were detected in lymph nodes or on retrieved scaffolds.

Conclusion

These findings support luminal continuity by day 14 post-implantation with Ad-MSC derived pericytes contributing to the neo-fibrovascular tissue. Morphometric analysis of the lumenal surface indicates that the process of lumenal re-epithelialization results from epithelial cell proliferation from the implant margins towards the center of the implant.

Abstract Image

应用组织工程食管植入物修复段性食管后早期组织生长和细胞命运的测定,该食管植入物由含有自体脂肪来源间充质基质细胞的聚氨酯支架组成
终末期或慢性食管疾病可能最终导致手术干预,并可能导致食管切除术,随后进行胃上拉或结肠介入手术。Biostage的Cellspan™食管植入物(CEI)设计用于修复和替换全周食管手术切除(≤6厘米),使用自体脂肪来源的间充质间质细胞(Ad-MSCs)植入可回收的聚氨酯支架上。使用节段性植入物的优点是可以在食管切除术后保留原有的非病变食管组织以及胃或肠组织。其作用机制、Ad-MSC组分的命运(生物分布)以及植入后早期组织再生/伤口修复的过程仍有待阐明。方法将转染绿色荧光蛋白(GFP)的Ad-MSCs植入食管节段切除猪模型。行5cm全周食管切除术,然后使用端到端吻合器植入CEI,以桥接两个原生食管端之间的间隙。在cei植入后14 (N = 3)、21 (N = 3)和28天(N = 3)评估细胞命运和组织发育。结果所有动物尸检均显示连续的生物食管导管,管腔未闭。上皮细胞增生/再生从两侧吻合缘向种植体中心明显。形态计量学分析表明,从第14天到第28天,上皮再生增加,同时脱落组织减少。组织学评估显示纤维血管组织和新生血管在外膜侧,在14天和28天的组织组织没有明显的差异。大多数GFP +细胞位于食管腔表面,并定位于血管结构周围。淋巴结和支架上未检测到GFP +细胞。结论这些结果支持植入后第14天Ad-MSC衍生周细胞对新纤维血管组织的管腔连续性。管腔表面的形态分析表明,管腔再上皮化的过程是上皮细胞从种植体边缘向种植体中心增殖的结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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