Abstract
Background Tissue engineering of cartilage requires the selection of an appropriate artificial scaffold. Polylactic acid (PLA) honeycomb films are expected to be highly biodegradable and cell adhesive due to their high porosity. The purpose of this study was to determine the optimal pore size of honeycomb PLA films for in vitro cartilage formation using synovial mesenchymal stem cells (MSCs). Methods Suspensions of human synovial MSCs were plated on PLA films with different pore sizes (no pores, or with 5 μm or 20 μm pores) and then observed by scanning electron microscopy. The numbers of cells remaining in the film and passing through the film were quantified. One day after plating, the medium was switched to chondrogenic induction medium, and the films were time-lapse imaged and observed histologically. Results The 5 μm pore film showed MSCs with pseudopodia that extended between several pores, while the 20 μm pore film showed MSC bodies submerged into the pores. The number of adhered MSCs was significantly lower for the film without pores, while the number of MSCs that passed through the film was significantly higher for the 20 μm pore film. MSCs that were induced to form cartilage peeled off as a sheet from the poreless film after one day. MSCs formed thicker cartilage at two weeks when growing on the 5 μm pore films than on the 20 μm pore films. Conclusions Honeycomb PLA films with 5 μm pores were suitable for in vitro cartilage formation by synovial MSCs.
Highlights
Tissue engineering of cartilage requires the selection of an appropriate artificial scaffold
Human synovium was harvested from the knees of patients with osteoarthritis who underwent total knee arthroplasty operations, and cell culture was performed according to the method established in our previous reports [4, 14, 15]
mesenchymal stem cells (MSCs) on the 20 μm pore film showed submergence of the cell body into the pore and pseudopodia extending around the pore
Summary
Tissue engineering of cartilage requires the selection of an appropriate artificial scaffold. The purpose of this study was to determine the optimal pore size of honeycomb PLA films for in vitro cartilage formation using synovial mesenchymal stem cells (MSCs). Honeycomb PLA films with 5 μm pores were suitable for in vitro cartilage formation by synovial MSCs. Tissue engineering of cartilage requires the appropriate selection of cells [1]. In the field of orthopedics, one of the most popular scaffold materials is polylactic acid (PLA) because of its biodegradability; cells can have difficulty adhering to it. For this reason, PLA is not yet in common use as a scaffold for cells used clinically for cartilage regeneration. Efforts made to overcome this adhesion problem have included spinning of PLA nanofibers and arranging PLA fibers in lattice patterns [8, 9], but the types of PLA scaffolds that are most suitable for tissue formation have not yet been identified
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