Isogenic Transplantation of Hybrid Artificial Pleural Tissue Consisting of Rat Cells and Polyglycolic Acid Nanofiber Sheet Induces Restoration of Mesothelial Defects in Rat Model
Kengo Tani, Daisuke Kimura, Yoshiya Asano, Cheng‐Yang Song, Hiroshi Shimoda, Masahito Minakawa

TL;DR
Researchers created an artificial pleural tissue using rat cells and a nanofiber sheet, which successfully restored the mesothelial layer in a rat model.
Contribution
A novel hybrid artificial pleural tissue was developed and shown to restore mesothelial defects in a rat model.
Findings
H-APLTs exhibited a functional mesothelial layer in vitro.
All eight rats survived and showed no intrathoracic adhesions at 12 weeks post-transplantation.
The hybrid tissue maintained the structure and function of the mesothelial layer.
Abstract
Impairment of the visceral pleura following thoracic surgery often leads to air leaks and intrathoracic adhesions. For preventing such complications, mesothelial cell proliferation at the pleural defects can be effective. To develop new materials for pleural defects restoration, we constructed a hybrid artificial pleural tissue (H‐APLT) combining polyglycolic acid (PGA) nanofiber sheets with a three‐dimensional culture of mesothelial cells and fibroblasts and evaluated its therapeutic efficacy in a rat pleural defect model. After rat lungs were harvested, pleural mesothelial cells and lung fibroblasts were cultured separately. To construct H‐APLT, the cells were then coated with multiple layers of fibronectin and gelatin, followed by a single layer of mesothelial cells on top of multiple layers of fibroblasts accumulated onto a collagen‐coated PGA nanofiber sheet. Left lateral…
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Taxonomy
TopicsTissue Engineering and Regenerative Medicine · Electrospun Nanofibers in Biomedical Applications · Bone Tissue Engineering Materials
