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- Title
Tissue engineering rib with the incorporation of biodegradable polymer cage and BMSCs/ decalcified bone: an experimental study in a canine model.
- Authors
Hua Tang; Bin Wu; Xiong Qin; Lu Zhang; Kretlow, Jim; Zhifei Xu
- Abstract
Background: The reconstruction of large bone defects, including rib defects, remains a challenge for surgeons. In this study, we used biodegradable polydioxanone (PDO) cages to tissue engineer ribs for the reconstruction of 4cm-long costal defects. Methods: PDO sutures were used to weave 6cm long and 1cm diameter cages. Demineralized bone matrix (DBM) which is a xenograft was molded into cuboids and seeded with second passage bone marrow mesenchymal stem cells (BMSCs) that had been osteogenically induced. Two DBM cuboids seeded with BMSCs were put into the PDO cage and used to reconstruct the costal defects. Radiographic examination including 3D reconstruction, histologic examination and mechanical test was performed after 24 postoperative weeks. Results: All the experimental subjects survived. In all groups, the PDO cage had completely degraded after 24 weeks and been replaced by fibrous tissue. Better shape and radian were achieved in PDO cages filled with DBM and BMSCs than in the other two groups (cages alone, or cages filled with acellular DBM cuboids). When the repaired ribs were subjected to an outer force, the ribs in the PDO cage/DBMs/BMSCs group kept their original shape while ribs in the other two groups deformed. In the PDO cage/DBMs/BMSCs groups, we also observed bony union at all the construct interfaces while there was no bony union observed in the other two groups. This result was also confirmed by radiographic and histologic examination. Conclusions: This study demonstrates that biodegradable PDO cage in combination with two short BMSCs/DBM cuboids can repair large rib defects. The satisfactory repair rate suggests that this might be a feasible approach for large bone repair
- Subjects
TISSUE engineering; BONE marrow; IMMUNE system; STEM cells; SKELETON
- Publication
Journal of Cardiothoracic Surgery, 2013, Vol 8, Issue 1, p1
- ISSN
1749-8090
- Publication type
Article
- DOI
10.1186/1749-8090-8-133