Adly Hassan A, El-Okby Abdel-Wahab Y, Yehya Abdel-Aziz, El-Shamy Ahmed A, Galhom Rania A, Hashem Mohamed A, Ahmed Mahmoud F
Pediatric Surgery Unit, General Surgery Department, Faculty of Medicine, Al-Azhar University (Assiut Branch), Assiut, Egypt.
Department of Pediatric Surgery, Faculty of Medicine, Al-Azhar University, Cairo, Egypt.
J Pediatr Surg. 2024 Aug;59(8):1486-1497. doi: 10.1016/j.jpedsurg.2024.04.003. Epub 2024 Apr 16.
Pediatric surgeons have faced esophageal reconstruction challenges for decades owing to a variety of congenital and acquired conditions. This work aimed to introduce a reproducible and efficient approach for creating tissue-engineered esophageal tissue using bone marrow mesenchymal stem cells (BMSCs) cultured in preconditioned mediums seeded on a sheep decellularized tunica vaginalis (DTV) scaffold for partial reconstruction of a rabbit's esophagus.
DTV was performed using SDS and Triton X-100 solutions. The decellularized grafts were employed alone (DTV group) or after recellularization with BMSCs cultured for 10 days in preconditioned mediums (RTV group) for reconstructing a 3 cm segmental defect in the cervical esophagus of rabbits (n = 20) after the decellularization process was confirmed. Rabbits were observed for one month, after which they were euthanized, and the reconstructed esophagi were harvested for histological analysis.
Six rabbits in the DTV group and eight rabbits in the RTV group survived until the end of the one-month study period. Despite histological examination demonstrating that both grafts completely repaired the esophageal defect, the RTV graft demonstrated a histological structure similar to that of the normal esophagus. The reconstructed esophagi in the RTV group revealed the arrangement of the different layers of the esophageal wall with the formation of newly formed blood vessels and Schwann-like cells.
DTV xenograft is a novel scaffold that promotes cell adhesion and differentiation and might be effectively utilized for regenerating esophageal tissue, paving the way for future clinical trials in pediatric patients.
几十年来,由于各种先天性和后天性疾病,小儿外科医生一直面临食管重建的挑战。这项工作旨在引入一种可重复且高效的方法,即使用在预处理培养基中培养的骨髓间充质干细胞(BMSCs),接种在羊脱细胞阴道鞘膜(DTV)支架上,来创建组织工程化食管组织,用于部分重建兔食管。
使用SDS和Triton X-100溶液进行DTV处理。脱细胞移植物单独使用(DTV组),或在用预处理培养基培养10天的BMSCs进行再细胞化后使用(RTV组),用于在确认脱细胞过程后重建兔颈段食管的3厘米节段性缺损(n = 20)。观察兔子一个月,之后对其实施安乐死,并取出重建的食管进行组织学分析。
DTV组有6只兔子和RTV组有8只兔子存活至为期一个月的研究结束。尽管组织学检查表明两种移植物都完全修复了食管缺损,但RTV移植物显示出与正常食管相似的组织结构。RTV组重建的食管显示出食管壁不同层的排列,并形成了新形成的血管和雪旺氏样细胞。
DTV异种移植物是一种促进细胞黏附和分化的新型支架,可能有效地用于食管组织再生,为未来儿科患者的临床试验铺平道路。
