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Porous Heat-Treated Polyacrylonitrile Scaffolds for Bone Tissue Engineering

M. Vetrik, M. Parizek, D. Hadraba, O. Kukackova, J. Brus, H. Hlidkova, L. Komankova, J. Hodan, O. Sedlacek, M. Slouf, L. Bacakova, M. Hruby,

. 2018 ; 10 (10) : 8496-8506. [pub] 20180302

Language English Country United States

Document type Journal Article

Persistent link   https://www.medvik.cz/link/bmc19012839

Grant support
NV15-32497A MZ0 CEP Register
NV16-30544A MZ0 CEP Register

Heat-treated polyacrylonitrile (HT-PAN), also referred to as black orlon (BO), is a promising carbon-based material used for applications in tissue engineering and regenerative medicine. To the best of our knowledge, no such complex bone morphology-mimicking three-dimensional (3D) BO structure has been reported to date. We report that BO can be easily made into 3D cryogel scaffolds with porous structures, using succinonitrile as a porogen. The cryogels possess a porous morphology, similar to bone tissue. The prepared scaffolds showed strong osteoconductive activity, providing excellent support for the adhesion, proliferation, and mitochondrial activity of human bone-derived cells. This effect was more apparent in scaffolds prepared from a matrix with a higher content of PAN (i.e., 10% rather than 5%). The scaffolds with 10% of PAN also showed enhanced mechanical properties, as revealed by higher compressive modulus and higher compressive strength. Therefore, these scaffolds have a robust potential for use in bone tissue engineering.

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