Abstract
Organ and tissue decellularisation are promising approaches for the generation of scaffolds for tissue regeneration since these materials provides the accurate composition and architecture for the specific tissues. Repopulation of the devitalized matrixes is the most critical step and a challenge, especially in dense tissues such as cartilage. To overcome this difficulty, several chemical and mechanical strategies have been developed. Chemical extraction targeting specific matrix components such as elastin, makes auricular cartilage accessible for cells via channels originating from the elastic fiber network. However, chemical treatment for glycosaminoglycan removal is not sufficient to allow cell ingrowth in articular cartilage. As alternative, laser perforation has been developed allowing to engrave fine structures with controlled size, distance and depth, with reproducibility and high throughput. Two of the most commonly used laser technologies used in the medical field, the CO2 and femtosecond laser, were applied to hyaline cartilage with very different structural effect. Within this talk, the structuralizing possibilities of laser and enzymatic treatments, the effect on the matrix and the general advantages and disadvantages for tissue engineering are discussed. We believe that the optimal combination of chemical and laser treatment has high potential for a new generation of biomaterials for tissue engineering.
