多层成纤维细胞片自体移植通过调节纤维化和血管生成预防术后胰瘘。
Autologous transplantation of multilayered fibroblast sheets prevents postoperative pancreatic fistula by regulating fibrosis and angiogenesis.
作者信息
Iwamoto Keisuke, Saito Toshiro, Takemoto Yoshihiro, Ueno Koji, Yanagihara Masashi, Furuya-Kondo Tomoko, Kurazumi Hiroshi, Tanaka Yuya, Taura Yohei, Harada Eijiro, Hamano Kimikazu
机构信息
Department of Surgery and Clinical Science, Yamaguchi University Graduate School of Medicine Yamaguchi, Japan.
Department of Molecular Pathology, Yamaguchi University Graduate School of Medicine Yamaguchi, Japan.
出版信息
Am J Transl Res. 2021 Mar 15;13(3):1257-1268. eCollection 2021.
INTRODUCTION
Postoperative pancreatic fistula (POPF) is a serious complication after gastrointestinal or pancreatic surgery. Despite intensive investigations, the occurrence has not significantly decreased in the past decades. The aims of this study were to clarify the pathophysiology of POPF and establish the preventive measures using multilayered fibroblast sheets.
METHODS
We developed a pancreatic fistula (PF) model of rat with transection of the splenic duct and surrounding pancreatic parenchyma. Multilayered fibroblast sheets prepared from tails were autologously transplanted to this model. The preventive effect was biochemically and histologically evaluated by measuring the ascitic levels of pancreatic enzymes and conducting immunohistochemistry and real-time polymerase chain reaction analyses of pancreatic tissue. Findings were compared to those obtained with acellular materials simply sealing the wound.
RESULTS
In the PF model, the ascitic levels of pancreatic enzymes were transiently up-regulated. Inflammation and necrosis were histologically observed in a wide range. Islets were damaged even in remote areas. Transplantation of multilayered fibroblast sheets dramatically reduced the ascitic leakage of enzymes, suppressed inflammation, and broadly preserved the islets. Compared with acellular materials, these sheets offered superior prevention of cellular activity through the spaciotemporal regulation of fibrosis and angiogenesis. Notably, the leakage hole appeared to have been plugged with the fibrotic matrix, which might have been the most crucial mechanism minimizing pancreatic damage.
CONCLUSIONS
The autologous transplantation of multilayered fibroblast sheets significantly prevented PF and protected the pancreas, underscoring the potential utility of this approach for POPF prevention.
引言
术后胰瘘(POPF)是胃肠或胰腺手术后的一种严重并发症。尽管进行了深入研究,但在过去几十年中其发生率并未显著降低。本研究的目的是阐明POPF的病理生理学,并建立使用多层成纤维细胞片的预防措施。
方法
我们通过横断脾管及周围胰腺实质建立了大鼠胰瘘(PF)模型。将从尾巴制备的多层成纤维细胞片自体移植到该模型中。通过测量腹水胰酶水平以及对胰腺组织进行免疫组织化学和实时聚合酶链反应分析,从生化和组织学方面评估预防效果。将结果与仅用无细胞材料封闭伤口的情况进行比较。
结果
在PF模型中,腹水胰酶水平短暂上调。组织学观察发现广泛存在炎症和坏死。即使在偏远区域胰岛也受到损害。多层成纤维细胞片的移植显著减少了酶的腹水渗漏,抑制了炎症,并广泛保护了胰岛。与无细胞材料相比,这些细胞片通过对纤维化和血管生成的时空调节,在预防细胞活性方面表现更优。值得注意的是,渗漏孔似乎已被纤维化基质堵塞,这可能是使胰腺损伤最小化的最关键机制。
结论
多层成纤维细胞片的自体移植显著预防了PF并保护了胰腺,强调了这种方法在预防POPF方面的潜在效用。
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