AI Article Synopsis
- The study focused on a diffusion chamber (DC) system combined with a scaffold to culture cells in vivo, reducing the risk of contamination.
- The experiment involved using a PLGA sponge and rat bone marrow cells, which were placed inside a DC and implanted in the abdominal cavities of rats.
- After four weeks, the results showed the formation of fibrous and calcified tissue around the sponge, demonstrating that the PLGA sponge effectively supported three-dimensional tissue formation in vivo with minimal need for special technologies post-grafting.
Article Abstract
In a diffusion chamber (DC) system, cells are cultured in vivo - hence making it possible to minimize infection and foreign material contamination. In view of this merit, we devised a technique to combine a DC system and a scaffold to the end of incubating sufficient host cells for grafting. In the present study, PLGA sponge and rat bone marrow cells were encapsulated inside a DC and then placed inside the abdominal cavities of rats. DCs were removed at two or four weeks after grafting. At four weeks after grafting, fibrous and calcified tissue matching the shape of the PLGA sponge was formed. These results suggested that the PLGA sponge was an effective scaffolding material in inducing three-dimensional tissue formation and that combination with a DC system resulted in a cell mass matching the scaffold shape. In addition, the cells were cultured in vivo - which meant that DC culturing did not require special incubation facilities or technologies after grafting.
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| http://dx.doi.org/10.4012/dmj.28.382 | DOI Listing |
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