Reconstruction of Trachea Defect by Composite of PLGA/FG Materials with DifferentiatedHumanAdipose-Derived Stem Cells in a Dog Model
Various types of xenogeneic stem cells with composite structures are employed in tissue-engineered tracheal reconstruction.
Human adipose tissue-derived stem cells have been investigated as an excellent cell source for tissues, characterized by the absence of major histocompatibility complex-II expression.
The human adipose stem cells/fibrin glue group was established by cultivating stem cells on constructs composed of fibrin glue, followed by differentiation. Additionally, undifferentiated human adipose tissue-derived stem cells were seeded on polylactic-glycolic acid and transplanted into a 13.0 cm cartilage ring within a tracheal defect model. The groups were organized as follows: Differentiatedhumanadipose stem cells/fibrin glue/polylactic-glycolic acid (DHASCs/FG/PLGA) (group 1), fibrin glue/PLGA without cells (FG/PLGA) (group 2), and PLGA/sterile normal saline as a control (PLGA/SNS) (group 3). Expression of cartilage-specific markers and tracheal cartilage formation were evaluated after 2 weeks (in vitro groups: Chondrogenic DHASCs/FG and HASCs/FG) and 2 months later (in vivo groups) using real-time polymerase chain reaction (PCR) or histology results, respectively.
No regenerated cartilage was observed in the control and group 2 tracheal cartilage defects. However, cartilage pieces were formed in the defect area where the DHASCs/FG/PLGA group was implanted, indicating the potential for cartilage tissue repair facilitated by the natural and complex structure.
The combination of synthetic and natural scaffolds demonstrates promise as a suitable structure for repairing cartilage defects.
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