Rice_2007_Tissue.Eng_13_683

Reference

Title : Controlling cartilaginous matrix evolution in hydrogels with degradation triggered by exogenous addition of an enzyme - Rice_2007_Tissue.Eng_13_683
Author(s) : Rice MA , Anseth KS
Ref : Tissue Eng , 13 :683 , 2007
Abstract :

Crosslinked hydrogels provide an accommodating environment for cartilage regeneration. However, degradation of the crosslinked network is necessary to create gels with an initially desirable mechanical stiffness and long-term distribution of properly assembled matrix molecules. In this study, chondrocytes were encapsulated in crosslinked poly(ethylene glycol) (PEG) hydrogels with caprolactone blocks that enabled an exogenously controlled, enzymatic degradation mechanism. At different stages of in vitro culture, a lipase enzyme was added to culture media to trigger degradation of the gel network. In gel constructs that never received lipase, the large cartilage matrix molecule, type II collagen, was localized to the pericellular region. Constructs that received lipase in the media for at least 1 week degraded enough to allow some distribution of collagen, but the timing and duration of lipase administration affected the outcome of regenerated tissue after 8 weeks of in vitro culture. Degradation that was triggered too early resulted in more significant defects in the cartilaginous matrix. The hydrogels applied in this study allow explicit control over degradation, and therefore provide a useful tool for investigating the effects of specific mass loss profiles on the evolution of neocartilage in vitro.

PubMedSearch : Rice_2007_Tissue.Eng_13_683
PubMedID: 17266401

Related information

Citations formats

Rice MA, Anseth KS (2007)
Controlling cartilaginous matrix evolution in hydrogels with degradation triggered by exogenous addition of an enzyme
Tissue Eng 13 :683

Rice MA, Anseth KS (2007)
Tissue Eng 13 :683