Seog-Jin Seo scite author profile

Interest in osteochondral repair has been increasing with the growing number of sports-related injuries, accident traumas, and congenital diseases and disorders. Although therapeutic interventions are entering an advanced stage, current surgical procedures are still in their infancy. Unlike other tissues, the osteochondral zone shows a high level of gradient and interfacial tissue organization between bone and cartilage, and thus has unique characteristics related to the ability to resist mechanical compression and restoration. Among the possible therapies, tissue engineering of osteochondral tissues has shown considerable promise where multiple approaches of utilizing cells, scaffolds, and signaling molecules have been pursued. This review focuses particularly on the importance of scaffold design and its role in the success of osteochondral tissue engineering. Biphasic and gradient composition with proper pore configurations are the basic design consideration for scaffolds. Surface modification is an essential technique to improve the scaffold function associated with cell regulation or delivery of signaling molecules. The use of functional scaffolds with a controllable delivery strategy of multiple signaling molecules is also considered a promising therapeutic approach. In this review, we updated the recent advances in scaffolding approaches for osteochondral tissue engineering.

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Magnetic scaffolds of polycaprolactone with functionalized magnetite nanoparticles: physicochemical, mechanical, and biological properties effective for bone regeneration

Kim

et al. 2014

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Enhanced liver functions of hepatocytes cocultured with NIH 3T3 in the alginate/galactosylated chitosan scaffold

et al. 2006

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Cellular recognition of paclitaxel-loaded polymeric nanoparticles composed of poly(γ-benzyl l-glutamate) and poly(ethylene glycol) diblock copolymer endcapped with galactose moiety

Jeong

Seo

Park

et al. 2005

International Journal of Pharmaceutics

129

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Seog-Jin Seo

Strategies for osteochondral repair: Focus on scaffolds

Magnetic scaffolds of polycaprolactone with functionalized magnetite nanoparticles: physicochemical, mechanical, and biological properties effective for bone regeneration

Enhanced liver functions of hepatocytes cocultured with NIH 3T3 in the alginate/galactosylated chitosan scaffold

Cellular recognition of paclitaxel-loaded polymeric nanoparticles composed of poly(γ-benzyl l-glutamate) and poly(ethylene glycol) diblock copolymer endcapped with galactose moiety

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