Tissue Eng Regen Med.  2018 Aug;15(4):477-492. 10.1007/s13770-018-0129-7.

Mesenchymal Stem Cells of Different Origin-Seeded Bioceramic Construct in Regeneration of Bone Defect in Rabbit

Affiliations
  • 1Division of Surgery, ICAR-Indian Veterinary Research Institute (Deemed University), Izatnagar, Uttar-Pradesh 243122, India. swapanivri@gmail.com
  • 2Centre for Animal Disease Research and Diagnosis, ICARIndian Veterinary Research Institute (Deemed University), Izatnagar, Uttar-Pradesh 243122, India.

Abstract

BACKGROUND
Stem cell is currently playing a major role in the treatment of number of incurable diseases via transplantation therapy. The objective of this study was to determine the osteogenic potential of allogenic and xenogenic bone-derived MSC seeded on a hydroxyapatite (HA/TCP) bioceramic construct in critical size bone defect (CSD) in rabbits.
METHODS
A 15 mm long radial osteotomy was performed unilaterally in thirty-six rabbits divided equally in six groups. Bone defects were filled with bioscaffold seeded with autologous, allogenic, ovine, canine BMSCs and cell free bioscaffold block in groups A, B, C, D and E respectively. An empty defect served as the control group.
RESULTS
The radiological, histological and SEM observations depicted better and early signs of new bone formation and bridging bone/implant interfaces in the animals of group A followed by B. Both xenogenous MSC-HA/TCP construct also accelerated the healing of critical sized bone defect. There was no sign of any inflammatory reaction in the xenogenic composite scaffold group of animals confirmed their well acceptance by the host body.
CONCLUSION
In vivo experiments in rabbit CSD model confirmed that autogenous, allogenous and xenogenous BMSC seeded on bioscaffold promoted faster healing of critical size defects. Hence, we may suggest that BMSCs are suitable for bone formation in fracture healing and non-union.

Keyword

Mesenchymal stem cells; Hydroxyapatite bioceramic; Allogenic; Xenogenic; Bone healing

MeSH Terms

Animals
Durapatite
Fracture Healing
Mesenchymal Stromal Cells*
Osteogenesis
Osteotomy
Rabbits
Regeneration*
Stem Cells
Durapatite
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