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Three Dimensional Bioprinting of a Vascularized and Perfusable Skin Graft Using Human Keratinocytes, Fibroblasts, Pericytes, and Endothelial Cells

周细胞 3D生物打印 生物医学工程 组织工程 成纤维细胞 化学 细胞生物学 病理 医学 内皮干细胞 生物 体外 生物化学
作者
Tânia Baltazar,Jonathan Merola,Carolina Motter Catarino,Catherine Xie,Nancy C. Kirkiles-Smith,Vivian Lee,Stéphanie Yuki Kolbeck Hotta,Guohao Dai,Xiaowei Xu,Frederico Castelo Ferreira,W. Mark Saltzman,Jordan S. Pober,Pankaj Karande
出处
期刊:Tissue Engineering Part A [Mary Ann Liebert, Inc.]
卷期号:26 (5-6): 227-238 被引量:234
标识
DOI:10.1089/ten.tea.2019.0201
摘要

Multilayered skin substitutes comprising allogeneic cells have been tested for the treatment of nonhealing cutaneous ulcers. However, such nonnative skin grafts fail to permanently engraft because they lack dermal vascular networks important for integration with the host tissue. In this study, we describe the fabrication of an implantable multilayered vascularized bioengineered skin graft using 3D bioprinting. The graft is formed using one bioink containing human foreskin dermal fibroblasts (FBs), human endothelial cells (ECs) derived from cord blood human endothelial colony-forming cells (HECFCs), and human placental pericytes (PCs) suspended in rat tail type I collagen to form a dermis followed by printing with a second bioink containing human foreskin keratinocytes (KCs) to form an epidermis. In vitro, KCs replicate and mature to form a multilayered barrier, while the ECs and PCs self-assemble into interconnected microvascular networks. The PCs in the dermal bioink associate with EC-lined vascular structures and appear to improve KC maturation. When these 3D printed grafts are implanted on the dorsum of immunodeficient mice, the human EC-lined structures inosculate with mouse microvessels arising from the wound bed and become perfused within 4 weeks after implantation. The presence of PCs in the printed dermis enhances the invasion of the graft by host microvessels and the formation of an epidermal rete. Impact Statement Three Dimensional printing can be used to generate multilayered vascularized human skin grafts that can potentially overcome the limitations of graft survival observed in current avascular skin substitutes. Inclusion of human pericytes in the dermal bioink appears to improve both dermal and epidermal maturation.
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